Latest News from: Whitehead Institute for Biomedical Research

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19-Sep-2019 9:00 AM EDT
Ruth Lehmann Elected as Director of Whitehead Institute
Whitehead Institute for Biomedical Research

Lehmann, a world renowned developmental and cell biology researcher, as the Institute’s fifth Director

Released: 19-Oct-2017 1:05 PM EDT
Study Reveals Key Molecular Link in Major Cell Growth Pathway
Whitehead Institute for Biomedical Research

A team of scientists has uncovered a surprising molecular link connecting how cells regulate growth with how they sense and make available nutrients. The findings also implicate a new protein as a potential drug target in pancreatic cancer.

Released: 6-Oct-2017 3:05 PM EDT
Genetic Body/Brain Connection Identified in Genomic Region Linked to Autism
Whitehead Institute for Biomedical Research

For the first time, scientists have directly linked deletions in two genes in zebrafish and traits, such as seizures, hyperactivity, large head size, and increased fat content. Both genes are in a genome region linked to autism spectrum disorder, developmental delays, seizures, and obesity in humans

Released: 5-Sep-2017 12:05 PM EDT
Mystery Solved: How Thyroid Hormone Prods Red Blood Cell Production
Whitehead Institute for Biomedical Research

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.

Released: 17-Aug-2017 11:05 AM EDT
Whitehead Member David Sabatini Awarded Dickson Prize in Medicine
Whitehead Institute for Biomedical Research

Whitehead Institute Member David Sabatini will be this year’s recipient of the Dickson Prize in Medicine. The annual award is the University of Pittsburgh School of Medicine’s highest honor and recognizes “an American biomedical researcher who has made significant, progressive contributions to medicine”.

Released: 14-Jun-2017 5:10 PM EDT
Elegant Switch Controls Translation in Transition From Egg to Embryo
Whitehead Institute for Biomedical Research

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.

Released: 8-Jun-2017 10:00 AM EDT
Whitehead’s Weng Receives Grant From Family Larsson-Rosenquist Foundation to Study Herbs That May Boost Mothers’ Milk
Whitehead Institute for Biomedical Research

Many cultures traditionally use herbs believed to increase milk supply – so called galactagogues – although scientific data are lacking. Now Whitehead Institute Member Jing-Ke Weng and the Family Larsson-Rosenquist Foundation are teaming up to explore the effects of galactagogues on milk production.

3-Apr-2017 10:05 AM EDT
Biomarker Identified for Likely Aggressive, Early Stage Breast Cancer
Whitehead Institute for Biomedical Research

Whitehead Institute scientists have identified a gene that could help clinicians discern which patients have aggressive forms of early stage breast cancer, which could prevent hundreds of thousands of women from undergoing unnecessary treatment and save millions of dollars.

6-Mar-2017 2:05 PM EST
Cargo-Carrying Red Blood Cells Alleviate Autoimmune Diseases in Mice
Whitehead Institute for Biomedical Research

Using red blood cells modified to carry disease-specific antigens, scientists from Whitehead Institute and Boston Children’s Hospital have prevented and alleviated two autoimmune diseases—multiple sclerosis (MS) and type 1 diabetes—in early stage mouse models.

23-Feb-2017 10:00 AM EST
Researchers Uncover a Role for HSP90 in Gene-Environment Interactions in Humans
Whitehead Institute for Biomedical Research

Researchers at Whitehead Institute have now uncovered a role for the protein-folding chaperone HSP90 in humans, not only as a modifier of the effects of mutations, but as a mediator of the impact of the environment on the function of mutant proteins. And these effects of HSP90 can alter the course of human diseases.

23-Jan-2017 1:30 PM EST
New Clues on the Base of Parkinson’s Disease and Other “Synucleinopathies”
Whitehead Institute for Biomedical Research

Parkinson’s disease (PD) and other “synucleinopathies” are known to be linked to the misfolding of alpha-synuclein protein in neurons. Less clear is how this misfolding relates to the growing number of genes implicated in PD through analysis of human genetics. Researchers affiliated with Whitehead Institute and Massachusetts Institute of Technology (MIT) explain how they used a suite of novel biological and computational methods to shed light on the question.

   
Released: 29-Dec-2016 2:05 PM EST
Scientists Engineer Gene Pathway to Grow Brain Organoids with Surface Folding
Whitehead Institute for Biomedical Research

Whitehead Institute researchers provide insight into a specific gene pathway that appears to regulate the growth, structure, and organization of the human cortex. They also demonstrate that 3D human cerebral organoids can be effective in modeling the molecular, cellular, and anatomical processes of human brain development.

   
26-Dec-2016 3:00 PM EST
Naturally Occurring Mechanism of Cancer Drug-Resistance May Itself Be a Treatment Target
Whitehead Institute for Biomedical Research

The use of proteasome inhibitors to treat cancer has been greatly limited by the ability of cancer cells to develop resistance to these drugs. But Whitehead Institute researchers have found a mechanism underlying this resistance—a mechanism that naturally occurs in many diverse cancer types and that may expose vulnerabilities to drugs that spur the natural cell-death process.

   
16-Dec-2016 10:00 AM EST
CRISPR Screening Identifies Potential HIV Treatment Targets
Whitehead Institute for Biomedical Research

Targeting human genes required for HIV infection but not T cell survival may avoid inducing treatment resistance

Released: 16-Nov-2016 10:05 AM EST
Johnson & Johnson Endows Professorship Honoring Susan Lindquist, Role Model for Women in Science
Whitehead Institute for Biomedical Research

The Susan Lindquist Chair for Women in Science will advance the work of women who are leaders in biomedical research and role models for emerging female scientists. It honors a singular scientist who blazed a path—for women and men alike—into new realms of discovery.

Released: 13-Nov-2016 4:05 PM EST
Heat Shock Regulator Controlled by on/Off Switch and Phosphorylation
Whitehead Institute for Biomedical Research

Whitehead Institute researchers have determined how the master transcriptional regulator of the heat shock response, known as heat shock factor 1 (HSF1), is controlled in yeast. Understanding how HSF1 works, how it is regulated, and how to fine tune it in a cell-type specific way could lead to therapies for cancer and neurodegenerative diseases.

31-Oct-2016 9:30 AM EDT
Insight on Rett Syndrome Neurophysiology Finds Mechanisms Underlying its Functional Deficits—and Shows They Are Reversible
Whitehead Institute for Biomedical Research

Researchers using a mouse model of Rett Syndrome find that cortical pyramidal neurons have faults in excitatory and inhibitory signaling; and demonstrate why recombinant human Insulin Like Growth Factor 1 has had therapeutic effects for RTT patients in clinical trials.

Released: 28-Oct-2016 11:05 AM EDT
Susan Lindquist, Accomplished and Beloved Scientist, Has Died at Age 67
Whitehead Institute for Biomedical Research

“Sue has meant so much to Whitehead as an institution of science, and as a community of scientists, and her passing leaves us diminished in so many ways,” reflects David C. Page, M.D., Director of Whitehead Institute

Released: 4-Oct-2016 3:05 PM EDT
Revising the Meaning of “Prion”
Whitehead Institute for Biomedical Research

Using an unbiased screen in yeast, a team of Whitehead Institute and Stanford University scientists have identified dozens of prion-like proteins that could change the defining characteristics of these unusual proteins.

19-Sep-2016 10:05 AM EDT
Inherited Parental Methylation Shifts Over Time, May Have Functional Effects in the Brain and Other Tissues
Whitehead Institute for Biomedical Research

Inherited methylation—a form of epigenetic regulation passed down from parents to offspring—is far more dynamic than previously thought and may contribute to changes in the brain and other tissues over time. This finding by Whitehead Institute scientists challenges current understandings of gene regulation via methylation, from development through adulthood.



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