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Harvard University hosts the world’s largest conference dedicated to longevity biotechnology

The 13th Aging Research & Drug Discovery (ARDD) Meeting, the world’s largest conference dedicated to longevity biotechnology, will take place from October 1–3, 2026, at the David Rubenstein Treehouse at Harvard University. Marking the high-profile launch of Boston Longevity Week, this landmark event is officially organized by Insilico Medicine, which also anchors the conference as a Tier 1 sponsor alongside Eli Lilly.

As longevity science rapidly transitions from theoretical concepts to multi-billion-dollar therapeutic pipelines, ARDD 2026 stands as the premier global nexus connecting basic science, clinical research, big pharma, and institutional investors. Moving the conference to Boston-the global epicenter of biomedical innovation-reflects the field’s evolution into mainstream medicine.

Building on the massive momentum of previous years-including ARDD 2025 in Copenhagen, where leadership from Eli Lilly and Novo Nordisk discussed the profound longevity potential of GLP-1 receptor agonists in Nature Biotechnology-the 2026 conference solidifies aging research as a core pillar of healthcare. Top-tier pharmaceutical companies are now actively developing commercial programs targeting fibrosis, immunology, CNS, cardiometabolic diseases, anti-muscle wasting, and cellular rejuvenation.

Inhibiting protein to treat myeloproliferative neoplasms shows preclinical promise

Inhibiting menin, a protein that supports leukemia growth and is already targeted to treat some forms of leukemia, also holds promise for treating myeloproliferative neoplasms. A new study from scientists at St. Jude Children’s Research Hospital showed that inhibiting menin significantly extended survival and reversed multiple disease features in preclinical models. The findings were published today in Cancer Cell.

Menin is best known as a therapeutic vulnerability in certain types of acute leukemia, including those with KMT2A gene rearrangements or NPM1 mutations. Menin inhibitors, such as revumenib, have greatly improved treatment for these cancers and are approved by the Food and Drug Administration (FDA). However, menin inhibition can reduce megakaryocytes (normal platelet-forming cells) and decrease platelet counts. Producing too many megakaryocytes is a hallmark of diseases called myeloproliferative neoplasms, which are slow-developing, rare blood cancers.

John Crispino, Ph.D., MBA, St. Jude Division of Experimental Hematology director and Department of Hematology member, tested whether inhibiting menin could be a viable therapeutic strategy for myeloproliferative neoplasms.

Can Mushrooms Reduce LDL? 53-Test Analysis

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Engineers develop AI tool to design peptides that turn signals on or off

To develop new and better peptides, the short amino acid strings behind medicines like GLP-1 drugs, researchers have used AI to generate candidates and to predict their properties.

However, merging these capabilities into a system that generates peptides likely to activate or block specific targets has proven difficult. In part, this is due to the vast number of possible peptides, but also because predicting how readily a peptide will bind to a target—like G protein-coupled receptors (GPCRs), a family of cell-surface proteins targeted by about one-third of approved drugs—is easier than simultaneously forecasting what effect that binding will have.

Now, researchers at the University of Pennsylvania and The Chinese University of Hong Kong have created TD3B, an AI framework that guides peptide generation toward candidates predicted to have a desired effect. The results, which focus on GPCRs, are described in a paper presented as a Spotlight at the 2026 International Conference on Machine Learning.

When back pain won’t quit: A large clinical trial points to the power of self-management

Almost everyone will deal with back pain at some point in their lives. Most recover quickly—but for about 20% of people, acute pain becomes a chronic condition that interferes with daily life and keeps them out of the workforce.

Low back pain is one of the leading causes of disability worldwide, and more money is spent managing it in the United States than any other health condition. Despite that, the most effective way to prevent a short-term episode from becoming a long-term problem has not been clear—especially for people who are most at risk.

“Chronic low back pain prevention is a public health issue,” said Michael Schneider, D.C., Ph.D., professor in the School of Health and Rehabilitation Sciences at the University of Pittsburgh and co-principal investigator of the Pitt arm of the study. “The 20% of patients who turn chronic account for 80% of the costs and the suffering. This paper shows that helping people self-manage their pain through a properly trained physical therapist or chiropractor is a great way to mitigate this public health problem.”

Experimental drug reverses severe fatty liver disease by repairing the gut

An experimental drug developed at Michigan Medicine has shown the ability to reverse severe fatty liver disease in animal studies by restoring gut health. The findings, published in The Journal of Clinical Investigation, suggest that targeting the connection between the gut and liver could offer a promising new approach for treating metabolic dysfunction-associated steatohepatitis (MASH).

MASH is a serious form of fatty liver disease that affects about 7% of people worldwide. It can progress to cirrhosis, liver cancer, and liver failure, yet effective treatment options remain limited.

The investigational compound, known as DT-109, is a glycine-based tripeptide. Researchers found that it reversed MASH in animal models by interrupting a harmful biological process linking the gut and liver.

How studying oral inflammatory diseases can help researchers understand other human diseases

A team of researchers from VCU Massey Comprehensive Cancer Center, the VCU School of Dentistry and the University of Pennsylvania recently published a study in Nature Communications examining why some oral inflammatory diseases progress much more rapidly than others.

The study was co-led by Kang I. Ko, D.D.S., Ph.D., of the University of Pennsylvania; Jinze Liu, Ph.D., of VCU; and Kevin Matthew Byrd, D.D.S., Ph.D., of VCU, with co-first authors Quinn T. Easter, Ph.D., and Khoa L.A. Huynh, Ph.D. The findings identified previously unrecognized changes in blood vessels that may help researchers better understand tissue destruction in oral disease and provide insights relevant to other inflammatory conditions, including cancer.

To conduct this study, the research team used and expanded a tool they created, the Human Periodontal Atlas—the leading periodontal atlas in the world—as part of the wider Human Cell Atlas, a single-cell atlas built from existing publicly available data sets, to examine RNA patterns across different cell types.

Dr. David Sinclair: The First Human Trial of an Age-Reversal Therapy #podcast #lifespan #longevity

Harvard geneticist David Sinclair returns to explain how his lab’s age-reversal technology has moved from mice and primates into FDA-cleared human trials — starting with an attempt to reverse vision loss from glaucoma, a condition considered permanent. Sinclair breaks down the science of Yamanaka factors, why using three genes instead of four sidesteps the cancer risk, and his core thesis: make the body young enough and it can cure its own diseases.

He and James also go deep on the practical longevity playbook: NMN, NAD and Sirtuins, metformin and berberine, testosterone and muscle mass, sleep, diet, and how to separate real science from longevity misinformation. Sinclair shares his own protocol at 56, his 86-year-old father’s results, and teases a next-generation \.

Combining Senolytics and Stem Cells Shows Promise in Mice

A new study associated with Immorta Bio suggests that combining a senolytic vaccine with mesenchymal stem cells might create a synergistic impact. However, the findings rest on acute, artificially induced injury models rather than natural aging [1].

Clearing out senescent cells to help stem cells work

Mesenchymal stem cell (MSC) therapies have largely underperformed in the clinic. MSCs are connective-tissue stem cells that help mostly not by becoming new tissue but by secreting repair-promoting factors. Despite strong preclinical promise, clinical MSC trials in fibrosis, inflammation, and organ failure have shown only modest benefits [2].

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