Molecule restores strength in old mice
A single protein is a master regulator of mouse muscle function during aging, a Stanford study finds. Blocking this protein increased muscle strength and endurance in old animals. It may play a role in age-related muscle weakening in humans.
Method to regrow cartilage
In laboratory studies, Stanford School of Medicine researchers have found a way to regenerate the cartilage that eases movement between bones.
How pathogens put the brakes on immune response
Researchers at the Stanford School of Medicine have discovered that cells infected by viruses or bacteria send out a “don’t eat me” signal to avoid attack by the body’s immune system.
Potential treatment for lung fibrosis
New research suggests that lung fibrosis develops when scar tissue cells escape immune surveillance, suggesting potential therapy.
Roeland Nusse receives Gairdner award
The Stanford developmental biologist was honored for a lifetime of work on the Wnt signaling pathway, which plays an important role in normal development and in cancer.
Old human cells rejuvenated
Old human cells can become more youthful by coaxing them to briefly express proteins used to make induced pluripotent cells, Stanford researchers and their colleagues have found. The finding may have implications for aging research.
Single number IDs deadly cancer cells
Stanford data scientists have shown that figuring out a single number can help them find the most dangerous cancer cells.
Omega-3s, fat stems cells linked
A new finding by Stanford researchers represents a missing link between two worlds — that of dietary science, and that of molecular and cellular biology.
Irving Weissman honored for stem cell, cancer work
Weissman and Johns Hopkins’ Bert Vogelstein will share the 2019 Albany Medical Center Prize in Medicine and Biomedical Research for discoveries in stem cell and cancer biology.
Overcoming transplant rejection in mice
If the antibody treatment is eventually found to be viable in humans, it could increase the numbers of people who benefit from hematopoietic stem transplants, Stanford researchers said.
Toward radiation-free stem cell transplants
Researchers at Stanford and the University of Tokyo may have cracked the code to doing stem cell transplants and gene therapy without radiation and chemotherapy.
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