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The Bio Report podcast, hosted by award-winning journalist Daniel Levine, focuses on the intersection of biotechnology with business, science, and policy.
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The genomics revolution promised to unravel diseases and lead to treatments that addressed their root causes. In reality, says Mo Jain, your zip code remains a better predictor for how healthy you will be over the course of your life than your genetic code does. That’s because, except for monogenic diseases, etiology tends to be far more complex than the identification of a single gene. Sapient is using its AI-driven, multi-omics platform to advance the discovery and development of precision medicines. We spoke to Jain, chief scientific officer of Sapient, about how its technology bridges the gap from discovery to clinical development, accelerates drug development timelines, and expands opportunities to drug previously undruggable targets.
The enzyme GSK3β, in healthy cells, is involved in glucose metabolism. In cancer cells, though, it serves as a master regulator of tumor growth, progression, and cell survival. While GSK3β has long been an attractive target in cancer therapy, it has been difficult to inhibit due to the poor pharmaceutical characteristics and adverse effects of therapeutic candidates. Actuate Therapeutics’ experimental therapy elraglusib has shown early promise. Results suggest it not only suppresses tumor growth but also activates the immune system to combat cancer. We spoke to Dan Schmitt, president and CEO of Actuate Therapeutics, about elraglusib’s potential to overcome chemoresistance, its recent clinical successes in metastatic pancreatic cancer, and the drug’s unique multimodal mechanism.
Hub-and-spoke business models—the use of a central core of business functions with pipeline assets spun out into subsidiary companies—have gained traction for the benefits they can provide in terms of capital efficiency, diversification of risks, and improved access to capital. Eyexora is applying that business model to accelerate the development of therapies for ophthalmic indications. We spoke to Theresa Heah, CEO of Eyexora, about why the hub-and-spoke model is well-suited for the development of ophthalmic therapies, its initial assets in-licensed from the Singapore Eye Research Institute, and how it identifies early-stage candidates with high potential.
OpenFold, an open-source, collaborative initiative founded in 2022 to address the challenges of protein structure prediction and design using artificial intelligence, emerged as a response to the restricted commercial access to DeepMind’s AlphaFold platform. Leveraging public datasets and using a pre-competitive consortium model, OpenFold seeks to democratize cutting-edge protein engineering tools for both industry and academia. We spoke to Brian Weitzner, director of computational and structural biology at Outpace Bio and co-founder of OpenFold, about the creation of the collaborative effort, how its open licensing model ensures broad accessibility, and how it stacks up against AlphaFold.
Transcription factors control the genetic programs that maintain cellular balance, but while they have been seen as compelling targets for aging-related disease, they have long been considered “undruggable.” Junevity’s RESET platform leverages large-scale human omics data and AI models to pinpoint key transcriptional drivers of disease and to design siRNA therapies that restore healthy gene expression. We spoke to John Hoekman, co-founder and CEO of Junevity, about the role of transcription factors in healthy biology and aging-related disease, the company’s AI-driven platform for identifying dysregulated transcription factors, and its lead programs targeting type 2 diabetes and obesity.
Ovarian cancer remains one of the deadliest cancers affecting women, and it is expected to claim nearly 13,000 lives in the United States in 2025. Despite progress in survival rates, nearly 80 percent of patients are still diagnosed at advanced stages, when the disease has already spread and is difficult to treat. Imunon’s experimental DNA-mediated immunotherapy is designed to deliver interleukin-12 directly into the tumor. A phase 2 study demonstrated that the experimental therapy, when combined with the standard of care, provided a 13-month survival benefit compared to women receiving only the standard of care. We spoke to Stacy Lindborg, CEO of Imunon, about the company’s DNA-mediated immunotherapy, how it avoids the systemic toxicities that undermined earlier IL-12 approaches, and how it could change the treatment landscape for the disease.
China’s emergence as a biotech superpower may have appeared to happen suddenly, but it reflected a long-term vision and policies over many years that enabled its success. As biotechnology transforms not only medicine but also industries such as food, fuel, and materials, the competition between China and the United States to shape the future bioeconomy is intensifying. We spoke to Drew Endy, associate professor of bioengineering and senior fellow of the Hoover Institution at Stanford University, about China’s all-of-nation strategy, how the United States has misallocated research dollars, and why a cultural embrace of biotechnology will be critical for the success of either country.
The ARC Virtual Cell Atlas uses high-throughput single-cell genomics, artificial intelligence, and open science to understand the complexities of cellular behavior. Developed through a partnership between the ARC Institute, 10x Genomics, and Ultima Genomics, the public domain resource integrates data from hundreds of millions of cells. By curating and harmonizing vast amounts of single-cell measurements, the Atlas paves the way for virtual cell simulations that can predict how cells respond to genetic or chemical changes. These models hold the promise for transforming drug discovery by accelerating target identification, optimizing candidate compounds, and reducing the cost of drug development. We spoke to Arc Institute’s Core Investigator Hani Goodarzi, Ultima Genomics CEO Gilad Almogy, and 10X Genomics CEO Serge Saxonov, about how the Atlas will serve academic and industry researchers developing therapies, how it will help unravel disease mechanisms at a cellular level, and provide broad access to advanced cellular analytics.
Bronchopulmonary dysplasia is a condition that affects preterm infants, especially those born with underdeveloped lungs who require prolonged oxygen therapy or mechanical ventilation to help them breathe after birth. It is characterized by damage and abnormal development of the lung tissue and airways, often resulting from life-saving interventions necessary for babies born very prematurely. Airway Therapeutics is developing a new class of biologics for respiratory and inflammatory diseases, starting with bronchopulmonary dysplasia. We spoke to Marc Salzberg, CEO of Airway Therapeutics, about the company’s experimental therapy zelpultide alfa, why it’s a pipeline-in-a-product, and its development path forward.
MASH, a chronic and progressive form of fatty liver disease that until recently was known as NASH, affects millions of people in the United States, and its incidence continues to rise. In fact, MASH is now among the leading causes of liver transplantation in the United States. 89bio is developing an experimental therapy to target multiple disease mechanisms of the condition. We spoke to Rohan Palekar, CEO of 89bio, about what’s driving the prevalence of MASH, the limits of existing medicines, and how its experimental therapy targets both liver fibrosis and the underlying metabolic dysfunctions of the disease. Since recording this interview, Roche announced it would acquire 89bio for $14.50 a share and a contingent value right of $6 per share for up to a total of $3.5 billion.
The average kidney transplant recipient experiences kidney failure within 10 to 12 years after a transplant, putting them on a cycle that ends with kidney failure and a need for a new transplant. This cycle adds to strains on transplant recipients, payers, providers, and the healthcare system and taxes the limited supply of organs for transplantation. Eledon Pharmaceuticals is seeking to extend the functional life of transplanted organs while reducing the side effects of current immunosuppressive treatments with its experimental, first-in-class immunosuppressive therapy, Tegoprubart. We spoke to Steve Perrin, president and chief scientific officer of Eledon Pharmaceuticals, about the need for innovative approaches to immunosuppression in organ transplantation, how its experimental therapy works, and why it may also have benefits in autoimmune and neurodegenerative diseases as well.
Antimicrobial resistance is projected to kill up to 10 million people a year by 2050. One particular area of concern is drug-resistant gonorrhea, where existing therapies are being exhausted. Taxis Pharmaceuticals is developing therapies to combat evolving superbugs by targeting their cellular infrastructure and disrupting the mechanisms that fuel antimicrobial resistance. We spoke to Greg Mario, president and CEO of Taxis, about the public health threat posed by drug-resistant gonorrhea, the approaches it’s taking to develop new antimicrobial treatments, and the need for new funding models to bring new therapies to market.
Brain tumors are difficult to treat in part because of the blood-brain barrier, the need to protect healthy and sensitive tissue surrounding tumors, and the limits of existing therapies. While there have been great advances in other types of cancer, there’s been relatively little progress in treating these CNS tumors. Plus Therapeutics is developing targeted radiotherapies that provide high doses of radiation directly into the tumor with a catheter. The approach enables the delivery of higher doses of radiation while minimizing exposure to healthy brain cells. We spoke to Marc Hedrick, president and CEO of Plus Therapeutics, about the challenges of treating brain tumors, the limitations of current therapies, and why the company’s targeted radiotherapies have the potential to create better outcomes for patients.
Macrocycles are complex compounds that can interact with targets that are often unreachable with traditional small molecules. Orbis Medicines is addressing the challenge with its nCycles, synthetic macrocycle drugs that are orally available but hit targets that would otherwise require biologic therapies. We spoke to Morten Graugaard, CEO of Orbis Medicines, about its class of synthetic macrocycles called nCycles, its platform technology to generate and screen these therapies, and how they can offer an orally-delivered alternative to biologics.
Animal testing for experimental therapies is slow, expensive, and an imperfect predictor for how a drug will act in humans. The Foundation for the National Institutes of Health in July announced a program to advance innovative laboratory technologies that model human biology, enabling faster, less expensive testing. We spoke to Stacey Adam, vice president of scientific partnerships for the FNIH and leader of the public-private partnership, about the new program, the technologies being explored, and what it will take to transform biomedical research with better disease models.
Many cancer patients are prescribed opioids to manage pain associated with their disease, but studies have shown that the use of these pain killers naturally mutes the immune response and can reduce the efficacy of immunotherapies. Glycyx Therapeutics is developing a drug it believes can allow opioids to relieve pain while preventing them from working against immunotherapies. We spoke to Lorin Johnson, chief scientific officer of Glycyx Therapeutics, about the effect of opioids on the immune system, the company’s experimental therapy designed to mitigate the negative effects of opioids in cancer patients being treated with checkpoint inhibitors, and why its drug in development may promote gut health in these patients more broadly.
When Takeda in 2023 paid Nimbus Therapeutics $4 billion upfront and the potential for two additional $1 billion milestone payments for its experimental TYK2 inhibitor, the deal was an eye-popping validation of Nimbus’ approach. The company, an early innovator in a computational chemistry, has now integrated AI into its approach to drug discovery. And though it’s been an innovator in technology, it’s also been an innovator in its portfolio approach as an early example of an effective use of a hub-and-spoke business model. We spoke to Abbas Kazimi, CEO of Nimbus, about computational chemistry, how the company’s drug discovery approach has evolved with AI, and how its business model provides liquidity to investors and while making it easier to structure deals.
Despite the successes of immunotherapies to date, about 75 to 80 percent of cancer patients don’t respond to current immunotherapy treatments. Faron Pharmaceuticals is hoping to help change that with its experimental therapy bexmarilimab, which is in development to treat myelodysplastic syndrome. Bexmarilimab targets CLEVER-1, a checkpoint inhibitor found on macrophages, a type of myeloid cell that plays an essential role in the immune system. We spoke to Juho Jalkanen, founder and CEO of Faron, about how the tumor microenvironment can suppress macrophages, how the company’s macrophage checkpoint inhibitor works, and the challenges a Finland-based company faces accessing the capital markets.
There’s been a stunning lack of innovation around male contraceptives when it comes to the area of male contraceptives. Men have the choice between a vasectomy, a procedure innovated in the 19th century, or condoms, which date back to at least King Minos in Crete in 3000 BCE. Next Life Sciences is hoping to change that with its Plan A, an experimental hydrogel that is injected into the vas deferens and provides a barrier that prevents sperm from passing. Plan A, which is regulated as a medical device, is expected to be easily reversible. We spoke to Darlene Walley, CEO of Next Life Sciences, about Plan A, the need it is addressing, and why she expects men and women to see it as a welcome alternative to current choices.
There have been great advances in the treatment of hepatitis C with the advent of curative therapies, but hepatitis B has proven far more elusive. That’s due to differences in the way the virus replicates and how it creates a reservoir of viral DNA in the cells in the liver. nChroma Bio, the result of a merger between Chroma Medicine and Nvelop Therapeutics, thinks it has an answer. It’s developing a one-and-done epigenetic editing therapy that silences hepatitis B viral transcription. We spoke to nChroma Bio chief development officer Jenny Marlowe and chief scientific officer Melissa Bonner, about its experimental epigenetic editor for hepatitis B, the merger that brought together the two companies, and how it plans to leverage Chroma’s epigenetic editing platform with Nvelop’s programmable non-viral delivery technologies in future therapies.
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