ChatGPT’s mobile app growth may have hit its peak, according to a new analysis of download trends and daily active users provided by the third-party app intelligence Apptopia. Its estimates indicate that new user growth, measured by percentage changes in new global downloads, slowed after April. In addition, global daily active user growth has stopped and plateaued in more recent weeks.
The firm looked at the global daily active user (DAU) growth and found that the numbers have begun to even out over the past month or so.
Global DAUs for ChatGPT mobile appImage Credits:Apptopia
Although October is only half over, the firm says it’s on pace to be down 8.1% in terms of a month-over-month percentage change in global downloads.
To be clear, this is a look at download growth, not total downloads. In terms of sheer number of new installs, ChatGPT’s mobile app is still doing well, with millions of downloads per day.
Month-over-month change in downloads, worldwideImage Credits:Apptopia
However, seeing the download growth stall can suggest that an app’s overall pace of growth is slowing. In ChatGPT’s case, increased competition and changes to its AI model’s characteristics could be to blame.
Diving in deeper, other metrics indicate that average time spent per DAU in the U.S., specifically, has dropped 22.5% since July, and average sessions per DAU in the U.S. are also down by 20.7%.
This indicates that U.S. users are spending less time in ChatGPT’s app and are opening it fewer times per day. User churn in the U.S. has also dropped and stabilized during this time, indicating that the app is now retaining its core users and seeing fewer who just drop by briefly to experiment, then abandon the app.
OpenAI did not respond to a request for comment.
Image Credits:Apptopia
Beyond simply reaching its peak, there are other factors that could have played a role here. That includes not only competition from Google’s Gemini, but also user engagement changes following an April update that was designed to make the chatbot’s AI model less sycophantic. This continued with the August release of GPT-5, which was said to be less personable, as well.
However, Apptopia notes that ChatGPT’s average time spent per DAU and average sessions per DAU metrics were trending downward before the sharp rise of its competitor, Google’s Gemini, which shot up to the top charts in September thanks to the release of Google’s new AI image model, Nano Banana.
So while Gemini’s growth may have influenced some of the more recent drops in ChatGPT’s core metrics, it doesn’t explain the overall trend, the firm says.
Image Credits:Apptopia
Plus, Apptopia points out that if only average time spent per DAU was dropping, but not average sessions per DAU, it could have suggested that people were getting more efficient with their ChatGPT queries. But since both are on the decline, that’s not the case.
Instead, Apptopia says it’s possible that the experimentation phase with the ChatGPT app is over, and now it’s becoming a part of users’ daily routines. People are likely using the app when they need it or remember to use it, as compared with the increased use it saw when it was still new.
For OpenAI, that means the company will have to invest in app marketing or release new features for it to boost some of these core metrics again, just as other established mobile apps have to do. It can no longer rely on novelty alone to provide growth.
Wimbledon has been fun, sweaty, and shocking in 2026. We’ve been treated to some electric tennis, shock results, and top players delivering when it counts.
Sinner now faces off against Zverev in the final game of the tournament. Sinner is seeking his fifth Grand Slam title and his second at Wimbledon. Zverez is looking to build on his maiden Grand Slam title at the 2026 French Open. It’s going to be a fascinating battle between two guys at the top of their game.
If you want to watch Sinner vs. Zverev in the 2026 Wimbledon final for free from anywhere in the world, we’ve got all the information you need.
When is Sinner vs. Zverev?
Sinner vs. Zverev in the 2026 Wimbledon final is set to take place at 4 p.m. BST on July 12.
How to watch Sinner vs. Zverev for free
Sinner vs. Zverev in the 2026 Wimbledon final is available to live stream for free on BBC iPlayer.
Mashable Top Stories
BBC iPlayer is geo-restricted to the UK, but anyone can access this free streaming platform with a VPN. These tools can hide your real IP address (digital location) and connect you to a secure server in the UK, meaning you can unblock free live streams on sites like BBC iPlayer from anywhere in the world.
Live stream Wimbledon 2026 for free by following these simple steps:
Sign up for a streaming-friendly VPN (we recommend ExpressVPN)
Download the app to your device of choice (the best VPNs have apps for Windows, Mac, iOS, Android, Linux, and more)
Live stream Wimbledon 2026 for free from anywhere in the world
$12.99 only at ExpressVPN (with money-back guarantee)
The best VPNs for streaming are not free, but they do tend to offer money-back guarantees and free trials. By leveraging these offers, you can unblock BBC iPlayer without committing with your cash. This obviously isn’t a long-term solution, but it gives you plenty of time to live stream Wimbledon 2026 before recovering your investment.
If you want to retain permanent access to the best free streaming services from around the world, you’ll need a subscription. Fortunately, the best VPN for streaming live sport is on sale for a limited time.
What is the best VPN for Wimbledon?
ExpressVPN is the best choice for streaming live sport on free platforms like BBC iPlayer, for a number of reasons:
Servers in 105 countries including the UK
Easy-to-use app available on all major devices including iPhone, Android, Windows, Mac, and more
Strict no-logging policy so your data is always secure
Fast streaming speeds free from throttling
Up to eight simultaneous connections
30-day money-back guarantee
A two-year subscription to ExpressVPN is on sale for $68.40 and includes an extra four months for free — 81% off for a limited time. This plan includes a year of free unlimited cloud backup and a generous 30-day money-back guarantee. Alternatively, you can get a one-month plan for just $12.99 (with money-back guarantee).
Live stream the 2026 Wimbledon final for free with ExpressVPN.
Wimbledon has been fun, sweaty, and shocking in 2026. We’ve been treated to some electric tennis, shock results, and top players delivering when it counts.
Sinner now faces off against Zverev in the final game of the tournament. Sinner is seeking his fifth Grand Slam title and his second at Wimbledon. Zverez is looking to build on his maiden Grand Slam title at the 2026 French Open. It’s going to be a fascinating battle between two guys at the top of their game.
If you want to watch Sinner vs. Zverev in the 2026 Wimbledon final for free from anywhere in the world, we’ve got all the information you need.
When is Sinner vs. Zverev?
Sinner vs. Zverev in the 2026 Wimbledon final is set to take place at 4 p.m. BST on July 12.
How to watch Sinner vs. Zverev for free
Sinner vs. Zverev in the 2026 Wimbledon final is available to live stream for free on BBC iPlayer.
Mashable Top Stories
BBC iPlayer is geo-restricted to the UK, but anyone can access this free streaming platform with a VPN. These tools can hide your real IP address (digital location) and connect you to a secure server in the UK, meaning you can unblock free live streams on sites like BBC iPlayer from anywhere in the world.
Live stream Wimbledon 2026 for free by following these simple steps:
Sign up for a streaming-friendly VPN (we recommend ExpressVPN)
Download the app to your device of choice (the best VPNs have apps for Windows, Mac, iOS, Android, Linux, and more)
Live stream Wimbledon 2026 for free from anywhere in the world
$12.99 only at ExpressVPN (with money-back guarantee)
The best VPNs for streaming are not free, but they do tend to offer money-back guarantees and free trials. By leveraging these offers, you can unblock BBC iPlayer without committing with your cash. This obviously isn’t a long-term solution, but it gives you plenty of time to live stream Wimbledon 2026 before recovering your investment.
If you want to retain permanent access to the best free streaming services from around the world, you’ll need a subscription. Fortunately, the best VPN for streaming live sport is on sale for a limited time.
What is the best VPN for Wimbledon?
ExpressVPN is the best choice for streaming live sport on free platforms like BBC iPlayer, for a number of reasons:
Servers in 105 countries including the UK
Easy-to-use app available on all major devices including iPhone, Android, Windows, Mac, and more
Strict no-logging policy so your data is always secure
Fast streaming speeds free from throttling
Up to eight simultaneous connections
30-day money-back guarantee
A two-year subscription to ExpressVPN is on sale for $68.40 and includes an extra four months for free — 81% off for a limited time. This plan includes a year of free unlimited cloud backup and a generous 30-day money-back guarantee. Alternatively, you can get a one-month plan for just $12.99 (with money-back guarantee).
Live stream the 2026 Wimbledon final for free with ExpressVPN.
#Sinner #Zverev #livestream #watch #Wimbledon #final #free">Sinner vs. Zverev 2026 livestream: How to watch Wimbledon final for free
TL;DR: Live stream Sinner vs. Zverev in the 2026 Wimbledon final for free on BBC iPlayer. Access this free streaming platform from anywhere in the world with ExpressVPN.
Wimbledon has been fun, sweaty, and shocking in 2026. We’ve been treated to some electric tennis, shock results, and top players delivering when it counts.
Sinner now faces off against Zverev in the final game of the tournament. Sinner is seeking his fifth Grand Slam title and his second at Wimbledon. Zverez is looking to build on his maiden Grand Slam title at the 2026 French Open. It’s going to be a fascinating battle between two guys at the top of their game.
If you want to watch Sinner vs. Zverev in the 2026 Wimbledon final for free from anywhere in the world, we’ve got all the information you need.
When is Sinner vs. Zverev?
Sinner vs. Zverev in the 2026 Wimbledon final is set to take place at 4 p.m. BST on July 12.
How to watch Sinner vs. Zverev for free
Sinner vs. Zverev in the 2026 Wimbledon final is available to live stream for free on BBC iPlayer.
Mashable Top Stories
BBC iPlayer is geo-restricted to the UK, but anyone can access this free streaming platform with a VPN. These tools can hide your real IP address (digital location) and connect you to a secure server in the UK, meaning you can unblock free live streams on sites like BBC iPlayer from anywhere in the world.
Live stream Wimbledon 2026 for free by following these simple steps:
Sign up for a streaming-friendly VPN (we recommend ExpressVPN)
Download the app to your device of choice (the best VPNs have apps for Windows, Mac, iOS, Android, Linux, and more)
Live stream Wimbledon 2026 for free from anywhere in the world
$12.99 only at ExpressVPN (with money-back guarantee)
The best VPNs for streaming are not free, but they do tend to offer money-back guarantees and free trials. By leveraging these offers, you can unblock BBC iPlayer without committing with your cash. This obviously isn’t a long-term solution, but it gives you plenty of time to live stream Wimbledon 2026 before recovering your investment.
If you want to retain permanent access to the best free streaming services from around the world, you’ll need a subscription. Fortunately, the best VPN for streaming live sport is on sale for a limited time.
What is the best VPN for Wimbledon?
ExpressVPN is the best choice for streaming live sport on free platforms like BBC iPlayer, for a number of reasons:
Servers in 105 countries including the UK
Easy-to-use app available on all major devices including iPhone, Android, Windows, Mac, and more
Strict no-logging policy so your data is always secure
Fast streaming speeds free from throttling
Up to eight simultaneous connections
30-day money-back guarantee
A two-year subscription to ExpressVPN is on sale for $68.40 and includes an extra four months for free — 81% off for a limited time. This plan includes a year of free unlimited cloud backup and a generous 30-day money-back guarantee. Alternatively, you can get a one-month plan for just $12.99 (with money-back guarantee).
Live stream the 2026 Wimbledon final for free with ExpressVPN.
Nopia is built around harmonic interplay in a unique way. Rather than a few knobs and a keyboard controlling a single synth patch, it blends multiple modules — keys, bass, arp, and pad — into a single performance, not unlike a drumless groovebox. There’s a one-octave keyboard called the Chord Builder, a 12-button Tonal Selector, and an Extensions Dial that dictate the key and voicing of the chords. The idea is to let you play complex harmonies with just a finger or two.
Additional performance features include a strum plate in the top-right corner for plucking specific notes from a chord and a slider for full chord pitch bends.
In addition to the virtual analog and sample-based synth engines, there are basic effects like delay, reverb, tape emulation, and beat repeat, as well as a ton of connectivity options, including per-module MIDI output for controlling other instruments with Nopia’s harmonic engine.
Nopia is built around harmonic interplay in a unique way. Rather than a few knobs and a keyboard controlling a single synth patch, it blends multiple modules — keys, bass, arp, and pad — into a single performance, not unlike a drumless groovebox. There’s a one-octave keyboard called the Chord Builder, a 12-button Tonal Selector, and an Extensions Dial that dictate the key and voicing of the chords. The idea is to let you play complex harmonies with just a finger or two.
Additional performance features include a strum plate in the top-right corner for plucking specific notes from a chord and a slider for full chord pitch bends.
In addition to the virtual analog and sample-based synth engines, there are basic effects like delay, reverb, tape emulation, and beat repeat, as well as a ton of connectivity options, including per-module MIDI output for controlling other instruments with Nopia’s harmonic engine.
#years #teasing #viral #Nopia #synth #basically #finishedEntertainment,Gadgets,Music,News,Tech">After years of teasing, the viral Nopia synth is ‘basically finished’
After setting the music gear corner of the internet on fire back in 2023 with the first glimpse at the Nopia, creators Martin Grieco and Rocío Gal are almost ready to bring it to market. The duo brought it to theMusicRadar offices for an in-depth first look and revealed that it will be launching in “a couple of months” for around £550.
Nopia is built around harmonic interplay in a unique way. Rather than a few knobs and a keyboard controlling a single synth patch, it blends multiple modules — keys, bass, arp, and pad — into a single performance, not unlike a drumless groovebox. There’s a one-octave keyboard called the Chord Builder, a 12-button Tonal Selector, and an Extensions Dial that dictate the key and voicing of the chords. The idea is to let you play complex harmonies with just a finger or two.
Additional performance features include a strum plate in the top-right corner for plucking specific notes from a chord and a slider for full chord pitch bends.
In addition to the virtual analog and sample-based synth engines, there are basic effects like delay, reverb, tape emulation, and beat repeat, as well as a ton of connectivity options, including per-module MIDI output for controlling other instruments with Nopia’s harmonic engine.
What he’d much rather talk about is Yosemite, the oncology-focused venture firm he launched in 2023 to, in part, build biotech companies from scratch, out of early academic research, using a mix of philanthropy and outside investment capital. Three years in, Jobs is ambitious about turning Yosemite into a serious player, not just because he wants to win but because he thinks the opportunity in front of him is expanding faster than he expected thanks to AI’s impacts on both drug discovery and clinical trial design.
Among the portfolio companies he’s proudest of are Azalea, born from a grant to Jennifer Doudna’s lab and now in the clinic, and Quarry, a company built with serial founder Craig Crews around a novel therapeutic approach called induced proximity, wherein a drug works by physically dragging a disease-causing protein next to the cell’s own breakdown system (instead of trying to block it directly).
When we last sat down with Jobs at TechCrunch Disrupt nearly three years ago, Yosemite was brand new and biotech was still reeling from its post-pandemic crash. Now, the firm has a team of 17; a cluster of blockbuster drugs are all losing patent protection in roughly the same window, creating all kinds of new opportunities; and AI has gone from a curiosity to, in Jobs’s words, a huge part of what Yosemite does. We caught up on all of it.
This Q&A has been edited for length.
TC: You announced the first close of your second fund earlier in the year, targeting $350 million. What’s the state of the union at Yosemite?
RJ: One of extreme activity right now. We’ve had incredible traction, and we’ve brought on a lot of really important new partners. Yosemite is a unique venture organization for two reasons: we only work in oncology — that’s 40% of biotech — and we like to make our own companies ourselves. We don’t think the cures for cancer are sitting out in pharma waiting to be discovered; we think we need to go make them with new knowledge. To de-risk those ideas early, when they’re still gentle ideas in university labs, we use a little philanthropy in a completely no-strings-attached way. Two of our 20 companies in the first fund came directly out of a grant.
How much of that $350 million is going into companies you’re spinning up yourselves versus companies you’re joining?
About a third goes into companies we’re making ourselves — either our own ideas or ones we build alongside academics, at places like Yale, Berkeley, and Stanford. That takes a lot of time and energy, which is why it’s only a third. The rest goes into companies other people made that we want to join. Separately, 2.5% of the fund’s [assets under management] goes into a donor-advised fund — that’s completely no-strings-attached grant money, plus $1 million a year from our management fees.
It’s early days, but what’s the case you make to prospective LPs on performance relative to other life science VC firms?
It’s extremely early for us, but Yosemite has the ability to create new areas of medicine before other firms get there. My team has pioneered a couple of these: epigenetic gene editing [technology that changes how strongly a gene is expressed, rather than altering the underlying DNA sequence itself], and safe delivery of gene editing to specific cells — a bottleneck for the whole field for the better part of a decade. If you want to be first, and you want to help discover new areas, that’s what we’re going to be best at.
Earlier on, you were worried about how conservative biotech investors had become. Has that changed?
It has, actually. When I launched Yosemite in 2023, the XBI [ETF/index] was still down massively from its 2021 highs and pharma hadn’t gotten acquisitive yet. What’s changed in the last three years: interest rates are better, and pharma is entering its largest patent cliff in history while sitting on record cash reserves from the pandemic. That’s added up to an acquisitive spree over the last eight months or so. We’ve seen huge exits, like Eli Lilly buying Kelonia for $7 billion, and massive wins in antibody drug conjugates. One high-profile one: Revolution Medicines, going after KRAS [one of the most commonly mutated cancer-driving genes, long considered nearly impossible to target with drugs] in pancreatic cancer, has doubled the survival rate for [the most common form of pancreatic cancer] — from 12 to 24 months. That’s only happened in the last year.
Last year you talked publicly about your concerns over proposed NIH cuts.
Unfortunately, there’s still pressure from the federal government, but it’s less of a long-term threat than it was. Last year, for the first time in history, an administration asked for a cut of up to 40% of the NIH budget. For context, the biggest cut that ever happened was 1% in 2009, in response to the global financial crisis, and that cost 7,000 NIH scientists their jobs. Gratefully, the Senate and House — this is extremely bipartisan — totally rejected the 40% cut. This year they came back asking for 12%, still the biggest cut of all time by an order of magnitude, and I expect the same rejection. NIH funding has more than 90% approval. Personally, I think we should go on offense — I’d increase it to something like $100 billion. On a dollar basis, it hasn’t grown in about a decade, so relative to inflation, it’s actually shrunk.
Where is AI already changing healthcare delivery?
American hospitals are some of the most technologically naive places in the economy — there’s still a huge amount done on fax, on floppy disk. One example: call centers, like 911 triage, are expensive to keep open 24/7 and are ripe for AI. There’s also electronic health records, radiology, pathology. But where I get really interested is clinical trials — the biggest cost and time sink in drug development. A Phase 3 cancer trial costs about $260 million, and only one in three succeeds. The biggest cost is patient recruitment and retention. AI could help build a synthetic control arm [a computer-generated stand-in for the untreated comparison group, built from existing patient data], so instead of recruiting a full control group, you only recruit the active arm — that halves the patients you need and massively increases speed. The FDA is leaning into this right now.
What about AI in drug discovery — is it overhyped?
I think it’s a fantastic advancement, for democratizing science and for accelerating things. What AI is doing right now is accelerating a lot of grunt work — not necessarily doing it better, but doing it incredibly fast, with reproducible outcomes.
AI has [also] been great at finding pockets we’ve never been able to hit before. Historically we could only drug about 15% of the genome, because we couldn’t drug proteins interacting with other proteins — the chemistry was too hard. That’s changed in the last couple of years, hand in hand with AI. Take Revolution Medicines: they’re the first to drug KRAS, which for decades had no [natural dent or crevice on its surface for a drug molecule to latch onto and block] — it’s basically a smooth oval, a death star. About 10 years ago, scientists at Amgen found a weird cryptic pocket in it, leading to the first drug against it, Lumakras. It only worked for one specific mutation; what AI has done is find all the other variants we can now target and show creative new ways to block it.
SAN FRANCISCO, CALIFORNIA – SEPTEMBER 19: Yosemite Investor Reed Jobs speaks onstage during TechCrunch Disrupt 2023 at Moscone Center on September 19, 2023 in San Francisco, California. (Photo by Kimberly White/Getty Images for TechCrunch)Image Credits:Kimberly White / Getty Images
What undruggable targets are your companies going after?
The biggest one of all: p53. We’re going after it with three different companies and several strategies. It’s a tumor suppressor gene — famously, elephants don’t get cancer, and one theory is they have dozens of copies of p53, while humans have just one, which is easily taken out. p53 is the most frequently suppressed gene across human cancers; almost every cancer has to knock it out to exist in the first place. If we could turn it back on, or attack its mutated forms, that’s one of cancer’s Achilles’ heels, and it’s never been done. We think we found something to hit that exposed [marker] across all the different ways p53 gets mutated.
Tell me about Tune Therapeutics.
Tune has been the premier epigenetic editing company in clinical development for the last couple of years, targeting hepatitis B, which affects over 250 million people and is the primary driver of liver cancer. The technology lets us add or remove methyl groups [small chemical tags that attach to DNA and act like a dimmer switch, turning a gene’s activity up or down without changing the gene itself] at specific sites in the liver. Every cell in your body has the same DNA but expresses it differently — think of gray hair: melanin gets methylated and turned off, so your body still makes hair, just less robust. That’s the same process behind aging immune systems and slowing metabolism. Hepatitis B looks foreign to your body, so we’re aiming to methylate and silence the virus itself, the way about 1% of people who spontaneously clear the virus seem to do naturally.
Meanwhile, Histosonics is a device company, which seems unusual for Yosemite.
You’re right, we don’t usually do devices. It’s the first company using histotripsy at scale for liver tumor destruction, using noninvasive therapy — creating small air pockets, then collapsing them to destroy tissue in a very specific area, similar to an ultrasound rather than a CT scan. Their lead programs are in pancreatic and liver tumors — most pancreatic cancer metastasizes to the liver, so it’s a natural pairing. We think this becomes a huge part of therapy for both.
How many companies are in the portfolio now, and any failures yet?
Close to 25 across both funds. Two haven’t worked out for scientific reasons — we tranche these investments against scientific milestones, and since we’re so early, sometimes things fail on the science. That’s what we’d expect.
How do you advise founders weighing a big check from big pharma?You get the funding, but it cuts off other options.
Pharma is a key partner, but founders need to see it as a moving target — priorities shift a lot depending on leadership. After COVID, many pharma companies lost money in infectious disease and moved out of the space entirely — Pfizer, for instance. Staying attuned to who’s actually active in your area is probably the most important thing.
How can founders who want to get in front of you do this?
We have an open door. When we look at grants and companies, we take people’s CVs out of it — I don’t want to know whose idea it is or what title someone holds. We’ve funded Nobel laureate labs and first-time grant recipients, and I’m equally happy with either outcome. We look at every modality — small molecules, radiopharmaceuticals, gene therapy, immunotherapy, AI, digital health. Please email us. Any idea that can affect cancer patients, we want to know about it.
Does storytelling matter as much for biotech founders as in other industries?
Unfortunately, yes — I’ve seen companies with great science fail because of bad storytelling from the CEO. But usually the founder and CEO aren’t the same person. The founder is often the academic — the chief scientist or chief medical officer — and the CEO is a professionalized operator whose job includes raising capital and telling the story. That division of labor works well.
Three years into running Yosemite, what’s been the biggest surprise?
We now have the first trillion-dollar pharmaceutical company, Eli Lilly, because of GLP-1s — the best-selling drug class in the world. We’re also seeing early signs GLP-1s may be protective against neurodegenerative disease and cancer, unrelated to weight loss, because obesity is one of only two “pan-disease” risk factors — the other being smoking — that raise your risk across nearly every disease category. That’s made people look with fresh eyes, fresh ambition, and real capital at huge disease areas that had gone cold. Genes like KRAS, Myc, beta-catenin, and p53 — the pantheon of oncogenes that have evaded us for decades — are now, we think, within reach. I didn’t expect Yosemite to be moving this fast. This time is more important than I realized, which is both scarier and more empowering.
Before you go, what do you make of the longevity industry?
I don’t want to die anytime soon, and longevity is important to me personally. But I don’t think we — or anyone — really knows what we’re talking about yet. Ask a geneticist and they’ll tell you about telomeres; ask an immunologist and they’ll tell you about T cells losing efficacy; ask a metabolomicist and you’ll get a different answer still. There’s no grand unified theory of aging the way there is in physics. I don’t think you “have” a longevity problem — I think your body ages differently across different cell types, and the interaction of all that is what we call aging. Optimizing that per person is exactly what healthcare should be doing, but I don’t know how you turn longevity into a one-size-fits-all business.
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What he’d much rather talk about is Yosemite, the oncology-focused venture firm he launched in 2023 to, in part, build biotech companies from scratch, out of early academic research, using a mix of philanthropy and outside investment capital. Three years in, Jobs is ambitious about turning Yosemite into a serious player, not just because he wants to win but because he thinks the opportunity in front of him is expanding faster than he expected thanks to AI’s impacts on both drug discovery and clinical trial design.
Among the portfolio companies he’s proudest of are Azalea, born from a grant to Jennifer Doudna’s lab and now in the clinic, and Quarry, a company built with serial founder Craig Crews around a novel therapeutic approach called induced proximity, wherein a drug works by physically dragging a disease-causing protein next to the cell’s own breakdown system (instead of trying to block it directly).
When we last sat down with Jobs at TechCrunch Disrupt nearly three years ago, Yosemite was brand new and biotech was still reeling from its post-pandemic crash. Now, the firm has a team of 17; a cluster of blockbuster drugs are all losing patent protection in roughly the same window, creating all kinds of new opportunities; and AI has gone from a curiosity to, in Jobs’s words, a huge part of what Yosemite does. We caught up on all of it.
This Q&A has been edited for length.
TC: You announced the first close of your second fund earlier in the year, targeting $350 million. What’s the state of the union at Yosemite?
RJ: One of extreme activity right now. We’ve had incredible traction, and we’ve brought on a lot of really important new partners. Yosemite is a unique venture organization for two reasons: we only work in oncology — that’s 40% of biotech — and we like to make our own companies ourselves. We don’t think the cures for cancer are sitting out in pharma waiting to be discovered; we think we need to go make them with new knowledge. To de-risk those ideas early, when they’re still gentle ideas in university labs, we use a little philanthropy in a completely no-strings-attached way. Two of our 20 companies in the first fund came directly out of a grant.
How much of that $350 million is going into companies you’re spinning up yourselves versus companies you’re joining?
About a third goes into companies we’re making ourselves — either our own ideas or ones we build alongside academics, at places like Yale, Berkeley, and Stanford. That takes a lot of time and energy, which is why it’s only a third. The rest goes into companies other people made that we want to join. Separately, 2.5% of the fund’s [assets under management] goes into a donor-advised fund — that’s completely no-strings-attached grant money, plus $1 million a year from our management fees.
It’s early days, but what’s the case you make to prospective LPs on performance relative to other life science VC firms?
It’s extremely early for us, but Yosemite has the ability to create new areas of medicine before other firms get there. My team has pioneered a couple of these: epigenetic gene editing [technology that changes how strongly a gene is expressed, rather than altering the underlying DNA sequence itself], and safe delivery of gene editing to specific cells — a bottleneck for the whole field for the better part of a decade. If you want to be first, and you want to help discover new areas, that’s what we’re going to be best at.
Earlier on, you were worried about how conservative biotech investors had become. Has that changed?
It has, actually. When I launched Yosemite in 2023, the XBI [ETF/index] was still down massively from its 2021 highs and pharma hadn’t gotten acquisitive yet. What’s changed in the last three years: interest rates are better, and pharma is entering its largest patent cliff in history while sitting on record cash reserves from the pandemic. That’s added up to an acquisitive spree over the last eight months or so. We’ve seen huge exits, like Eli Lilly buying Kelonia for $7 billion, and massive wins in antibody drug conjugates. One high-profile one: Revolution Medicines, going after KRAS [one of the most commonly mutated cancer-driving genes, long considered nearly impossible to target with drugs] in pancreatic cancer, has doubled the survival rate for [the most common form of pancreatic cancer] — from 12 to 24 months. That’s only happened in the last year.
Last year you talked publicly about your concerns over proposed NIH cuts.
Unfortunately, there’s still pressure from the federal government, but it’s less of a long-term threat than it was. Last year, for the first time in history, an administration asked for a cut of up to 40% of the NIH budget. For context, the biggest cut that ever happened was 1% in 2009, in response to the global financial crisis, and that cost 7,000 NIH scientists their jobs. Gratefully, the Senate and House — this is extremely bipartisan — totally rejected the 40% cut. This year they came back asking for 12%, still the biggest cut of all time by an order of magnitude, and I expect the same rejection. NIH funding has more than 90% approval. Personally, I think we should go on offense — I’d increase it to something like $100 billion. On a dollar basis, it hasn’t grown in about a decade, so relative to inflation, it’s actually shrunk.
Where is AI already changing healthcare delivery?
American hospitals are some of the most technologically naive places in the economy — there’s still a huge amount done on fax, on floppy disk. One example: call centers, like 911 triage, are expensive to keep open 24/7 and are ripe for AI. There’s also electronic health records, radiology, pathology. But where I get really interested is clinical trials — the biggest cost and time sink in drug development. A Phase 3 cancer trial costs about $260 million, and only one in three succeeds. The biggest cost is patient recruitment and retention. AI could help build a synthetic control arm [a computer-generated stand-in for the untreated comparison group, built from existing patient data], so instead of recruiting a full control group, you only recruit the active arm — that halves the patients you need and massively increases speed. The FDA is leaning into this right now.
What about AI in drug discovery — is it overhyped?
I think it’s a fantastic advancement, for democratizing science and for accelerating things. What AI is doing right now is accelerating a lot of grunt work — not necessarily doing it better, but doing it incredibly fast, with reproducible outcomes.
AI has [also] been great at finding pockets we’ve never been able to hit before. Historically we could only drug about 15% of the genome, because we couldn’t drug proteins interacting with other proteins — the chemistry was too hard. That’s changed in the last couple of years, hand in hand with AI. Take Revolution Medicines: they’re the first to drug KRAS, which for decades had no [natural dent or crevice on its surface for a drug molecule to latch onto and block] — it’s basically a smooth oval, a death star. About 10 years ago, scientists at Amgen found a weird cryptic pocket in it, leading to the first drug against it, Lumakras. It only worked for one specific mutation; what AI has done is find all the other variants we can now target and show creative new ways to block it.
SAN FRANCISCO, CALIFORNIA – SEPTEMBER 19: Yosemite Investor Reed Jobs speaks onstage during TechCrunch Disrupt 2023 at Moscone Center on September 19, 2023 in San Francisco, California. (Photo by Kimberly White/Getty Images for TechCrunch)Image Credits:Kimberly White / Getty Images
What undruggable targets are your companies going after?
The biggest one of all: p53. We’re going after it with three different companies and several strategies. It’s a tumor suppressor gene — famously, elephants don’t get cancer, and one theory is they have dozens of copies of p53, while humans have just one, which is easily taken out. p53 is the most frequently suppressed gene across human cancers; almost every cancer has to knock it out to exist in the first place. If we could turn it back on, or attack its mutated forms, that’s one of cancer’s Achilles’ heels, and it’s never been done. We think we found something to hit that exposed [marker] across all the different ways p53 gets mutated.
Tell me about Tune Therapeutics.
Tune has been the premier epigenetic editing company in clinical development for the last couple of years, targeting hepatitis B, which affects over 250 million people and is the primary driver of liver cancer. The technology lets us add or remove methyl groups [small chemical tags that attach to DNA and act like a dimmer switch, turning a gene’s activity up or down without changing the gene itself] at specific sites in the liver. Every cell in your body has the same DNA but expresses it differently — think of gray hair: melanin gets methylated and turned off, so your body still makes hair, just less robust. That’s the same process behind aging immune systems and slowing metabolism. Hepatitis B looks foreign to your body, so we’re aiming to methylate and silence the virus itself, the way about 1% of people who spontaneously clear the virus seem to do naturally.
Meanwhile, Histosonics is a device company, which seems unusual for Yosemite.
You’re right, we don’t usually do devices. It’s the first company using histotripsy at scale for liver tumor destruction, using noninvasive therapy — creating small air pockets, then collapsing them to destroy tissue in a very specific area, similar to an ultrasound rather than a CT scan. Their lead programs are in pancreatic and liver tumors — most pancreatic cancer metastasizes to the liver, so it’s a natural pairing. We think this becomes a huge part of therapy for both.
How many companies are in the portfolio now, and any failures yet?
Close to 25 across both funds. Two haven’t worked out for scientific reasons — we tranche these investments against scientific milestones, and since we’re so early, sometimes things fail on the science. That’s what we’d expect.
How do you advise founders weighing a big check from big pharma?You get the funding, but it cuts off other options.
Pharma is a key partner, but founders need to see it as a moving target — priorities shift a lot depending on leadership. After COVID, many pharma companies lost money in infectious disease and moved out of the space entirely — Pfizer, for instance. Staying attuned to who’s actually active in your area is probably the most important thing.
How can founders who want to get in front of you do this?
We have an open door. When we look at grants and companies, we take people’s CVs out of it — I don’t want to know whose idea it is or what title someone holds. We’ve funded Nobel laureate labs and first-time grant recipients, and I’m equally happy with either outcome. We look at every modality — small molecules, radiopharmaceuticals, gene therapy, immunotherapy, AI, digital health. Please email us. Any idea that can affect cancer patients, we want to know about it.
Does storytelling matter as much for biotech founders as in other industries?
Unfortunately, yes — I’ve seen companies with great science fail because of bad storytelling from the CEO. But usually the founder and CEO aren’t the same person. The founder is often the academic — the chief scientist or chief medical officer — and the CEO is a professionalized operator whose job includes raising capital and telling the story. That division of labor works well.
Three years into running Yosemite, what’s been the biggest surprise?
We now have the first trillion-dollar pharmaceutical company, Eli Lilly, because of GLP-1s — the best-selling drug class in the world. We’re also seeing early signs GLP-1s may be protective against neurodegenerative disease and cancer, unrelated to weight loss, because obesity is one of only two “pan-disease” risk factors — the other being smoking — that raise your risk across nearly every disease category. That’s made people look with fresh eyes, fresh ambition, and real capital at huge disease areas that had gone cold. Genes like KRAS, Myc, beta-catenin, and p53 — the pantheon of oncogenes that have evaded us for decades — are now, we think, within reach. I didn’t expect Yosemite to be moving this fast. This time is more important than I realized, which is both scarier and more empowering.
Before you go, what do you make of the longevity industry?
I don’t want to die anytime soon, and longevity is important to me personally. But I don’t think we — or anyone — really knows what we’re talking about yet. Ask a geneticist and they’ll tell you about telomeres; ask an immunologist and they’ll tell you about T cells losing efficacy; ask a metabolomicist and you’ll get a different answer still. There’s no grand unified theory of aging the way there is in physics. I don’t think you “have” a longevity problem — I think your body ages differently across different cell types, and the interaction of all that is what we call aging. Optimizing that per person is exactly what healthcare should be doing, but I don’t know how you turn longevity into a one-size-fits-all business.
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#Reed #Jobs #talk #curing #cancer #TechCrunch">Reed Jobs would rather talk about curing cancer than his last name | TechCrunch
Reed Jobs is easy to like. He’s motormouthed, self-deprecating, prone to video-game analogies, and clearly loves his work. He doesn’t particularly want to discuss the fact that he is Steve Jobs’s son, but he’s not uptight about it, either. When our producer, Maggie, asked if he was on a MacBook for our video call Thursday morning, he didn’t miss a beat: “Are you kidding?”
What he’d much rather talk about is Yosemite, the oncology-focused venture firm he launched in 2023 to, in part, build biotech companies from scratch, out of early academic research, using a mix of philanthropy and outside investment capital. Three years in, Jobs is ambitious about turning Yosemite into a serious player, not just because he wants to win but because he thinks the opportunity in front of him is expanding faster than he expected thanks to AI’s impacts on both drug discovery and clinical trial design.
Among the portfolio companies he’s proudest of are Azalea, born from a grant to Jennifer Doudna’s lab and now in the clinic, and Quarry, a company built with serial founder Craig Crews around a novel therapeutic approach called induced proximity, wherein a drug works by physically dragging a disease-causing protein next to the cell’s own breakdown system (instead of trying to block it directly).
When we last sat down with Jobs at TechCrunch Disrupt nearly three years ago, Yosemite was brand new and biotech was still reeling from its post-pandemic crash. Now, the firm has a team of 17; a cluster of blockbuster drugs are all losing patent protection in roughly the same window, creating all kinds of new opportunities; and AI has gone from a curiosity to, in Jobs’s words, a huge part of what Yosemite does. We caught up on all of it.
This Q&A has been edited for length.
TC: You announced the first close of your second fund earlier in the year, targeting $350 million. What’s the state of the union at Yosemite?
RJ: One of extreme activity right now. We’ve had incredible traction, and we’ve brought on a lot of really important new partners. Yosemite is a unique venture organization for two reasons: we only work in oncology — that’s 40% of biotech — and we like to make our own companies ourselves. We don’t think the cures for cancer are sitting out in pharma waiting to be discovered; we think we need to go make them with new knowledge. To de-risk those ideas early, when they’re still gentle ideas in university labs, we use a little philanthropy in a completely no-strings-attached way. Two of our 20 companies in the first fund came directly out of a grant.
How much of that $350 million is going into companies you’re spinning up yourselves versus companies you’re joining?
About a third goes into companies we’re making ourselves — either our own ideas or ones we build alongside academics, at places like Yale, Berkeley, and Stanford. That takes a lot of time and energy, which is why it’s only a third. The rest goes into companies other people made that we want to join. Separately, 2.5% of the fund’s [assets under management] goes into a donor-advised fund — that’s completely no-strings-attached grant money, plus $1 million a year from our management fees.
It’s early days, but what’s the case you make to prospective LPs on performance relative to other life science VC firms?
It’s extremely early for us, but Yosemite has the ability to create new areas of medicine before other firms get there. My team has pioneered a couple of these: epigenetic gene editing [technology that changes how strongly a gene is expressed, rather than altering the underlying DNA sequence itself], and safe delivery of gene editing to specific cells — a bottleneck for the whole field for the better part of a decade. If you want to be first, and you want to help discover new areas, that’s what we’re going to be best at.
Earlier on, you were worried about how conservative biotech investors had become. Has that changed?
It has, actually. When I launched Yosemite in 2023, the XBI [ETF/index] was still down massively from its 2021 highs and pharma hadn’t gotten acquisitive yet. What’s changed in the last three years: interest rates are better, and pharma is entering its largest patent cliff in history while sitting on record cash reserves from the pandemic. That’s added up to an acquisitive spree over the last eight months or so. We’ve seen huge exits, like Eli Lilly buying Kelonia for $7 billion, and massive wins in antibody drug conjugates. One high-profile one: Revolution Medicines, going after KRAS [one of the most commonly mutated cancer-driving genes, long considered nearly impossible to target with drugs] in pancreatic cancer, has doubled the survival rate for [the most common form of pancreatic cancer] — from 12 to 24 months. That’s only happened in the last year.
Last year you talked publicly about your concerns over proposed NIH cuts.
Unfortunately, there’s still pressure from the federal government, but it’s less of a long-term threat than it was. Last year, for the first time in history, an administration asked for a cut of up to 40% of the NIH budget. For context, the biggest cut that ever happened was 1% in 2009, in response to the global financial crisis, and that cost 7,000 NIH scientists their jobs. Gratefully, the Senate and House — this is extremely bipartisan — totally rejected the 40% cut. This year they came back asking for 12%, still the biggest cut of all time by an order of magnitude, and I expect the same rejection. NIH funding has more than 90% approval. Personally, I think we should go on offense — I’d increase it to something like $100 billion. On a dollar basis, it hasn’t grown in about a decade, so relative to inflation, it’s actually shrunk.
Where is AI already changing healthcare delivery?
American hospitals are some of the most technologically naive places in the economy — there’s still a huge amount done on fax, on floppy disk. One example: call centers, like 911 triage, are expensive to keep open 24/7 and are ripe for AI. There’s also electronic health records, radiology, pathology. But where I get really interested is clinical trials — the biggest cost and time sink in drug development. A Phase 3 cancer trial costs about $260 million, and only one in three succeeds. The biggest cost is patient recruitment and retention. AI could help build a synthetic control arm [a computer-generated stand-in for the untreated comparison group, built from existing patient data], so instead of recruiting a full control group, you only recruit the active arm — that halves the patients you need and massively increases speed. The FDA is leaning into this right now.
What about AI in drug discovery — is it overhyped?
I think it’s a fantastic advancement, for democratizing science and for accelerating things. What AI is doing right now is accelerating a lot of grunt work — not necessarily doing it better, but doing it incredibly fast, with reproducible outcomes.
AI has [also] been great at finding pockets we’ve never been able to hit before. Historically we could only drug about 15% of the genome, because we couldn’t drug proteins interacting with other proteins — the chemistry was too hard. That’s changed in the last couple of years, hand in hand with AI. Take Revolution Medicines: they’re the first to drug KRAS, which for decades had no [natural dent or crevice on its surface for a drug molecule to latch onto and block] — it’s basically a smooth oval, a death star. About 10 years ago, scientists at Amgen found a weird cryptic pocket in it, leading to the first drug against it, Lumakras. It only worked for one specific mutation; what AI has done is find all the other variants we can now target and show creative new ways to block it.
SAN FRANCISCO, CALIFORNIA – SEPTEMBER 19: Yosemite Investor Reed Jobs speaks onstage during TechCrunch Disrupt 2023 at Moscone Center on September 19, 2023 in San Francisco, California. (Photo by Kimberly White/Getty Images for TechCrunch)Image Credits:Kimberly White / Getty Images
What undruggable targets are your companies going after?
The biggest one of all: p53. We’re going after it with three different companies and several strategies. It’s a tumor suppressor gene — famously, elephants don’t get cancer, and one theory is they have dozens of copies of p53, while humans have just one, which is easily taken out. p53 is the most frequently suppressed gene across human cancers; almost every cancer has to knock it out to exist in the first place. If we could turn it back on, or attack its mutated forms, that’s one of cancer’s Achilles’ heels, and it’s never been done. We think we found something to hit that exposed [marker] across all the different ways p53 gets mutated.
Tell me about Tune Therapeutics.
Tune has been the premier epigenetic editing company in clinical development for the last couple of years, targeting hepatitis B, which affects over 250 million people and is the primary driver of liver cancer. The technology lets us add or remove methyl groups [small chemical tags that attach to DNA and act like a dimmer switch, turning a gene’s activity up or down without changing the gene itself] at specific sites in the liver. Every cell in your body has the same DNA but expresses it differently — think of gray hair: melanin gets methylated and turned off, so your body still makes hair, just less robust. That’s the same process behind aging immune systems and slowing metabolism. Hepatitis B looks foreign to your body, so we’re aiming to methylate and silence the virus itself, the way about 1% of people who spontaneously clear the virus seem to do naturally.
Meanwhile, Histosonics is a device company, which seems unusual for Yosemite.
You’re right, we don’t usually do devices. It’s the first company using histotripsy at scale for liver tumor destruction, using noninvasive therapy — creating small air pockets, then collapsing them to destroy tissue in a very specific area, similar to an ultrasound rather than a CT scan. Their lead programs are in pancreatic and liver tumors — most pancreatic cancer metastasizes to the liver, so it’s a natural pairing. We think this becomes a huge part of therapy for both.
How many companies are in the portfolio now, and any failures yet?
Close to 25 across both funds. Two haven’t worked out for scientific reasons — we tranche these investments against scientific milestones, and since we’re so early, sometimes things fail on the science. That’s what we’d expect.
How do you advise founders weighing a big check from big pharma?You get the funding, but it cuts off other options.
Pharma is a key partner, but founders need to see it as a moving target — priorities shift a lot depending on leadership. After COVID, many pharma companies lost money in infectious disease and moved out of the space entirely — Pfizer, for instance. Staying attuned to who’s actually active in your area is probably the most important thing.
How can founders who want to get in front of you do this?
We have an open door. When we look at grants and companies, we take people’s CVs out of it — I don’t want to know whose idea it is or what title someone holds. We’ve funded Nobel laureate labs and first-time grant recipients, and I’m equally happy with either outcome. We look at every modality — small molecules, radiopharmaceuticals, gene therapy, immunotherapy, AI, digital health. Please email us. Any idea that can affect cancer patients, we want to know about it.
Does storytelling matter as much for biotech founders as in other industries?
Unfortunately, yes — I’ve seen companies with great science fail because of bad storytelling from the CEO. But usually the founder and CEO aren’t the same person. The founder is often the academic — the chief scientist or chief medical officer — and the CEO is a professionalized operator whose job includes raising capital and telling the story. That division of labor works well.
Three years into running Yosemite, what’s been the biggest surprise?
We now have the first trillion-dollar pharmaceutical company, Eli Lilly, because of GLP-1s — the best-selling drug class in the world. We’re also seeing early signs GLP-1s may be protective against neurodegenerative disease and cancer, unrelated to weight loss, because obesity is one of only two “pan-disease” risk factors — the other being smoking — that raise your risk across nearly every disease category. That’s made people look with fresh eyes, fresh ambition, and real capital at huge disease areas that had gone cold. Genes like KRAS, Myc, beta-catenin, and p53 — the pantheon of oncogenes that have evaded us for decades — are now, we think, within reach. I didn’t expect Yosemite to be moving this fast. This time is more important than I realized, which is both scarier and more empowering.
Before you go, what do you make of the longevity industry?
I don’t want to die anytime soon, and longevity is important to me personally. But I don’t think we — or anyone — really knows what we’re talking about yet. Ask a geneticist and they’ll tell you about telomeres; ask an immunologist and they’ll tell you about T cells losing efficacy; ask a metabolomicist and you’ll get a different answer still. There’s no grand unified theory of aging the way there is in physics. I don’t think you “have” a longevity problem — I think your body ages differently across different cell types, and the interaction of all that is what we call aging. Optimizing that per person is exactly what healthcare should be doing, but I don’t know how you turn longevity into a one-size-fits-all business.
When you purchase through links in our articles, we may earn a small commission. This doesn’t affect our editorial independence.
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