Whitehead Institute
Whitehead Institute for Biomedical Research is a non-profit research institute located in Cambridge, Massachusetts, United States that is dedicated to improving human health through basic biomedical research. It was founded as a fiscally independent entity from the Massachusetts Institute of Technology, where its 17 members all hold faculty appointments in the MIT Department of Biology or the MIT Department of Bioengineering. Two members are National Medal of Science recipients; ten have been elected to the National Academy of Sciences; and four have been elected to the National Academy of Medicine; four are Howard Hughes Medical Institute Investigators.
On September 2019, Ruth Lehmann was announced as the new Director of the Whitehead Institute for Biomedical Research, commencing July 2020 and succeeding David Page.
History
Whitehead Institute was founded in 1982 by industrialist and philanthropist Edwin C. “Jack” Whitehead, who sought to establish a research institute dedicated to improving human health through basic biomedical science". Whitehead believed that while such an institution should be closely affiliated with an academic institution, it should remain wholly independent and self-governing. In David Baltimore, Whitehead found a partner who agreed that this approach would create an "optimum environment for basic research". As Whitehead Institute's Founding Director, Baltimore handpicked Harvey Lodish, and Robert Weinberg from MIT, Gerald Fink from Cornell University, and Rudolf Jaenisch from University of Hamburg, Germany, to be Whitehead Institute's Founding Members. This group then identified promising younger scientists to be the first generation of Whitehead Members; and they established the Whitehead Fellows Program as a vehicle for accelerating the careers of highly promising young investigators.Less than a decade after its founding, the Institute for Scientific Information in Philadelphia identified Whitehead as the top research institution in the world in molecular biology and genetics, based on the impact of its scientific publications. Whitehead Institute's Center for Genome Research became the single largest contributor to the Human Genome Project, and reportedly contributed one-third of the human genome sequence announced in June 2000.
In the early 2000s, the CGR formed the independent Broad Institute of MIT and Harvard, of which then-Whitehead Member Eric Lander was named Founding Director and President.
Whitehead Institute's influence continues. Over a 10-year period, papers published by Whitehead scientists had more impact in molecular biology and genetics than those from any of the 15 leading research universities and life sciences institutes in the United States. Training and education is integral to Whitehead Institute's mission and approximately 300 undergraduates, graduate students, post-doctoral researchers, and visiting scientists are integrally engaged in its research programs. Four times since 2009, the Whitehead Institute has been ranked first as the Best Place to Work for Postdocs in USA by The Scientist magazine.
Today, Whitehead scientists run research programs in cancer biology, developmental biology, genetics and genomics, metabolism, neurodevelopment and neurodegenerative disease, and regenerative medicine. In addition, numerous biotech companies have been launched by Whitehead Members or based on intellectual property developed at the Institute, such as Alnylam Pharmaceuticals, Sanofi Genzyme, Ironwood Pharmaceuticals, Rubius Therapeutics, and Verastem.
In 2019, according to the NACUBO report, Institute had an endowment of $527.9 million.
Faculty
The Whitehead faculty currently comprises 17 members whose laboratories focus on biology's most fundamental questions. The Members, who are all also MIT faculty members, are:- David Bartel – co-discovered the abundance of microRNAs and has since played a leading role in defining these short RNAs and how they act to regulate genes in plants and animals
- Iain Cheeseman – studies the kinetochore, the group of proteins that assemble at the centromere and that are required for chromosome segregation and cell division; defining the roles of the different components of the kinetochore may enhance understanding of mechanisms underlying a variety of diseases
- Gerald R. Fink – developed baker's yeast as a model for studying the fundamental biology. His use of classical genetics, biochemistry, and molecular biology has yielded numerous important findingsr regarding how fungal pathogens invade the body, evade the immune system, and establish an infection
- Mary Gehring – studies how gene expression in plants is modulated by epigenetics
- Rudolf Jaenisch – investigates the genetic and epigenetic basis of diseases including Parkinson's, autism, and Rett and Fragile X syndrome. He has used patient-derived induced pluripotent stem cells to develop sophisticated models of conditions such as Alzheimer's and diabetes. Jaenisch created the first transgenic animal model and was the first to demonstrate therapeutic cloning in mice
- Ankur Jain – studies how biomolecules in a cell self-organize; in particular, the form and function of membrane-free cellular compartments such as RNA granules. His lab develops new biochemical and biophysical techniques to investigate these compartments and to understand their dysfunction in human disease
- Pulin Li – investigates how networks of interacting genes within individual cells help those cells organize into complex tissues and other multicellular functions
- Harvey F. Lodish – studies red blood cell formation and diseases associated with this process. He is recognized for pioneering work on erythropoietin, the hormone controlling red blood cell formation, as well as for studies of the formation of fat cells and their role in diseases such as obesity and diabetes
- Sebastian Lourido – investigates the biology of apicomplexan parasites, which include the etiologic agents of many common human diseases, such as toxoplasmosis, cryptosporidiosis, and malaria. His lab uses Toxoplasma to model conserved aspects of apicomplexan biology, and recently used CRISPR-based genetic screens to identify parasite genes that contribute to infection
- David C. Page – is the director of Whitehead Institute and studies genomics of sex chromosomes; he has made pioneering discoveries about the Y chromosome, is investigating the differential impact of XX and XY chromosomes on cellular function throughout the body, and is elucidating the resulting sex-biased effects on health and disease
- Peter W. Reddien – studies how regenerative organisms regrow body parts. Using the flatworm planaria, he has identified important components of the molecular and developmental programs specifying the body parts to be replaced, and shown that they require pluripotent stem cells called neoblasts, as well as expression of position control genes and signals from the muscle
- David M. Sabatini – discovered and studies the mTOR protein. The mTOR pathway has proven broadly important in cell metabolism, and Sabatini's ongoing efforts to define the mTOR pathway's effects on cell growth are leading to potential treatments for medical conditions ranging from tuberous sclerosis complex to many forms of cancer
- Hazel L. Sive – studies development of the vertebrate embryo, in particular how the face forms, the nervous system is patterned, and the brain develops its normal structure, as well as the mechanisms underlying neurodevelopmental disorders, including autism, mental health disorders and 16p11.2 deletion syndrome
- Robert A. Weinberg – studies the molecular and genetic basis of human cancer, cancer stem cells, and the factors involved in cancer metastasis. Having discovered the first human oncogene and the first tumor suppressor gene, he is studying how cancer stem cells contribute to tumor invasion and metastasis
- Jing-Ke Weng – focuses on understanding the origin and evolution of specialized metabolic systems in plants; he is particularly interested in developing new therapeutics inspired by traditional herbal medicines of the world
- Richard A. Young – studies factors that influence gene expression in healthy and diseased cells. His work is helping to define basic mechanisms of gene expression and inform how its dysregulation in certain diseases, including cancer, could be targeted therapeutically
Fellows Program
Past Whitehead Fellows include George Q. Daley, Dean of Harvard Medical School; Angelika Amon, MIT professor and cancer researcher; Eric Lander, President and Founding Director of Broad Institute; Kathleen Rubins, NASA astronaut and space biologist; David C. Page, Whitehead Institute Director; and Peter S. Kim, former President of Merck Research Laboratories.