Whitehead's David Sabatini discusses mTOR, a protein connecting metabolism, nutrition, and disease and the current research in his lab investigating the mTOR pathway and its role in cancer, diabetes, and aging.
Whitehead Member David Sabatini has identified the methionine sensor in the mTOR pathway, which is a crucial metabolic pathway in cells. His work provides interesting data suggesting that the anti-aging and anti-diabetes effects of low methionine and mTOR inhibition may be connected.
Whitehead Member Piyush Gupta has identified a protein stuck in the cell membrane that plays an important role in a cellular pathway crucial for cancer metastasis. The protein is a potential new target for breast cancer therapy that targets the cancer cells' metastatic behavior.
A team of scientists led by Whitehead Institute has uncovered a surprising molecular link that connects how cells regulate growth with how they sense and make available the nutrients required for growth. The researchers’ findings also implicate a new protein, SLC38A9, as a potential drug target in pancreatic cancer.
For more than a century, the link between thyroid hormone and red blood cell production has remained elusive. Now, Whitehead scientists have teased about the mechanism that connects them, which could help scientists identify new therapies for specific types of anemia.
The transition from an egg to a developing embryo is one of life’s most remarkable transformations. Now Whitehead Institute researchers have used fruit flies to decipher how one aspect—control of the translation of messenger RNAs (mRNAs) into proteins—shifts as the egg becomes an the embryo. This type of switch could tell scientists more about how human cells work and embryos develop.
Rhogerry “Gerry” Deshycka, a graduating senior working in the lab of Whitehead Institute Founding Member Harvey Lodish, has received one of MIT’s two Randolph G. Wei Undergraduate Research Opportunities Program (UROP) awards for 2017 and MIT’s 2017 John L. Asinari Award.
