Stuart Schreiber (born February 6, 1956) is an American chemist who is the Morris Loeb Research Professor at Harvard University, a co-founder of the Broad Institute, Howard Hughes Medical Institute Investigator, Emeritus, and a member of the National Academy of Sciences and National Academy of Medicine. He currently leads Arena BioWorks. His work integrates chemical biology and human biology to advance the science of therapeutics. Key advances include the discovery that small molecules can function as “molecular glues” that promote protein–protein interactions, the co-discovery of mTOR and its role in nutrient-response signaling, the discovery of histone deacetylases and (with Michael Grunstein and David Allis) the demonstration that chromatin marks regulate gene expression, the development and application of diversity-oriented synthesis to microbial therapeutics, and the discovery of vulnerabilities of cancer cells linked to genetic, lineage and cell-state features, including ferroptotic vulnerabilities. His awards include the Wolf Prize in Chemistry and the Arthur Cope Award. His approach to discovering new therapeutics guided many biotechnology companies that he founded, including Vertex Pharmaceuticals and Ariad Pharmaceuticals. He has founded or co-founded 14 biotechnology companies, which have developed 16 first-in-human approved drugs or advanced clinical candidates.

Early life

Schreiber was born on February 6, 1956, in Eatontown, New Jersey, to Mary Geraldine Schreiber and Thomas Sewell Schreiber. From the ages of one to four he lived with his family in Villennes-sur-Seine, a small village in France, where his father was a battalion commander at

Supreme Headquarters Allied Powers Europe The Supreme Headquarters Allied Powers Europe (SHAPE) is the military headquarters of the North Atlantic Treaty Organization's (NATO) Allied Command Operations (ACO) that commands all NATO operations worldwide. SHAPE is situated in the villag ...

. Shortly after returning to New Jersey, they moved to Fairfax, VA, where Tom Schreiber worked as an applied mathematician and physicist at Signal Corp on Fort Monmouth. At age 61, Schreiber discovered that Tom Schreiber was not his biological father. Schreiber attended Luther Jackson Junior High School in Falls Church, VA and graduated from Oakton High School in Fairfax, VA in 1973 after completing a 3-year work study program that prepared him for work in the construction field.

Education and training

Schreiber obtained a Bachelor of Science degree in chemistry from the

University of Virginia The University of Virginia (UVA) is a Public university#United States, public research university in Charlottesville, Virginia, United States. It was founded in 1819 by Thomas Jefferson and contains his The Lawn, Academical Village, a World H ...

in 1977, after which he entered Harvard University as a graduate student in chemistry. He joined the research group of

Robert B. Woodward Robert Burns Woodward (April 10, 1917 – July 8, 1979) was an American Organic chemistry, organic chemist. He is considered by many to be the preeminent synthetic organic chemist of the twentieth century, having made many key contributions ...

and after Woodward's death continued his studies under the supervision of Yoshito Kishi. In 1980, he joined the faculty of

Yale University Yale University is a Private university, private Ivy League research university in New Haven, Connecticut, United States. Founded in 1701, Yale is the List of Colonial Colleges, third-oldest institution of higher education in the United Stat ...

as an assistant professor in chemistry, and in 1988 he moved to Harvard University as the Morris Loeb Professor.

Career

Schreiber started his research work in organic synthesis, focusing on concepts such as the use of + 2photocycloadditions to establish

stereochemistry Stereochemistry, a subdiscipline of chemistry, studies the spatial arrangement of atoms that form the structure of molecules and their manipulation. The study of stereochemistry focuses on the relationships between stereoisomers, which are defined ...

in complex molecules, the fragmentation of hydroperoxides to produce

macrolides Macrolides are a class of mostly natural products with a large macrocycle, macrocyclic lactone ring to which one or more deoxy sugars, usually cladinose and desosamine, may be attached. Macrolides belong to the polyketide class of natural prod ...

, ancillary stereocontrol, group selectivity and two-directional synthesis. Notable accomplishments include the total syntheses of complex natural products such as periplanone B, talaromycin B, asteltoxin, avenaciolide, gloeosporone, hikizimicin, mycoticin A, epoxydictymene and the immunosuppressant FK-506. Following his work on the FK506-binding protein FKBP12 in 1988, Schreiber reported that the small molecules FK506 and cyclosporin inhibit the activity of the phosphatase

calcineurin Calcineurin (CaN) is a calcium and calmodulin dependent serine/threonine protein phosphatase (also known as protein phosphatase 3, and calcium-dependent serine-threonine phosphatase). It activates the T cells of the immune system and can be block ...

by forming the ternary complexes FKBP12-FK506-calcineurin and cyclophilin-ciclosporin-calcineurin. This work, together with work by Gerald Crabtree at

Stanford University Leland Stanford Junior University, commonly referred to as Stanford University, is a Private university, private research university in Stanford, California, United States. It was founded in 1885 by railroad magnate Leland Stanford (the eighth ...

concerning the

NFAT Nuclear factor of activated T-cells (NFAT) is a family of transcription factors shown to be important in immune response. One or more members of the NFAT family is expressed in most cells of the immune system. NFAT is also involved in the developme ...

proteins, led to the elucidation of the calcium-

signaling pathway. The Ras-Raf-MAPK pathway was not elucidated for another year. In 1993, Schreiber and Crabtree developed bifunctional molecules or “chemical inducers of proximity” (CIPs), which provide small-molecule activation over numerous signaling molecules and pathways (e.g., the Fas, insulin, TGFβ and T-cell receptors) through proximity effects. Schreiber and Crabtree demonstrated that small molecules could activate a signaling pathway in an animal with temporal and spatial control."Functional Analysis of Fas Signaling in vivo Using Synthetic Dimerizers" David Spencer, Pete Belshaw, Lei Chen, Steffan Ho, Filippo Randazzo, Gerald R. Crabtree, Stuart L. Schreiber ''Curr. Biol''. 1996, 6, 839–848. Dimerizer kits have been distributed freely resulting in many peer-reviewed publications. Its promise in gene therapy has been highlighted by the ability of a small molecule to activate a small-molecule regulated EPO receptor and to induce

erythropoiesis Erythropoiesis (from Greek ''erythro'', meaning ''red'' and ''poiesis'', meaning ''to make'') is the process which produces red blood cells (erythrocytes), which is the development from erythropoietic stem cell to mature red blood cell. It is s ...

( Ariad Pharmaceuticals, Inc.), and more recently in human clinical trials for treatment of graft-vs-host disease. In 1994, Schreiber and co-workers investigated (independently with David Sabitini) the master regulator of nutrient sensing, mTOR. They found that the small molecule

rapamycin Sirolimus, also known as rapamycin and sold under the brand name Rapamune among others, is a macrolide compound that is used to coat coronary stents, prevent organ rejection, organ transplant rejection, treat a rare lung disease called lymphang ...

simultaneously binds FKBP12 and mTOR (originally named FKBP12-rapamycin binding protein, FRAP). Using diversity-oriented synthesis and small-molecule screening, Schreiber illuminated the nutrient-response signaling network involving TOR proteins in yeast and mTOR in mammalian cells. Small molecules such as uretupamine"Dissection of a glucose-sensitive pathway of the nutrient-response network using diversity-oriented synthesis and small molecule microarrays" Finny G. Kuruvilla, Alykhan F. Shamji, Scott M. Sternson, Paul J. Hergenrother, Stuart L. Schreiber, ''Nature'', 2002, 416, 653–656. and rapamycin were shown to be particularly effective in revealing the ability of proteins such as mTOR, Tor1p, Tor2p, and Ure2p to receive multiple inputs and to process them appropriately towards multiple outputs (in analogy to multi-channel processors). Several pharmaceutical companies are now targeting the nutrient-signaling network for the treatment of several forms of cancer, including solid tumors. In 1995, Schreiber and co-workers found that the small molecule lactacystin binds and inhibits specific catalytic subunits of the

proteasome Proteasomes are essential protein complexes responsible for the degradation of proteins by proteolysis, a chemical reaction that breaks peptide bonds. Enzymes that help such reactions are called proteases. Proteasomes are found inside all e ...

, a protein complex responsible for the bulk of proteolysis in the cell, as well as proteolytic activation of certain protein substrates. As a non-peptidic proteasome inhibitor lactacysin has proven useful in the study of proteasome function. Lactacystin modifies the amino-terminal threonine of specific proteasome subunits. This work helped to establish the proteasome as a mechanistically novel class of protease: an amino-terminal threonine protease. The work led to the use of bortezomib to treat

multiple myeloma Multiple myeloma (MM), also known as plasma cell myeloma and simply myeloma, is a cancer of plasma cells, a type of white blood cell that normally produces antibody, antibodies. Often, no symptoms are noticed initially. As it progresses, bone ...

. In 1996, Schreiber and co-workers used the small molecules trapoxin and depudecin to investigate the histone deacetylases (HDACs). Prior to Schreiber's work in this area, the HDAC proteins had not been isolated. Coincident with the HDAC work, Charles David Allis and colleagues reported work on the

histone acetyltransferase Histone acetyltransferases (HATs) are enzymes that acetylation, acetylate conserved lysine amino acids on histone proteins by transferring an acetyl group from acetyl-CoA to form ε-N-acetyllysine, ε-''N''-acetyllysine. DNA is wrapped around his ...

s (HATs). These two contributions catalyzed much research in this area, eventually leading to the characterization of numerous histone-modifying enzymes, their resulting histone “marks”, and numerous proteins that bind to these marks. By taking a global approach to understanding chromatin function, Schreiber proposed a “signaling network model” of chromatin and compared it to an alternative view, the “histone code hypothesis” presented by Brian D. Strahl and Charles David Allis. These studies shined a bright light on

chromatin Chromatin is a complex of DNA and protein found in eukaryote, eukaryotic cells. The primary function is to package long DNA molecules into more compact, denser structures. This prevents the strands from becoming tangled and also plays important r ...

as a key gene expression regulatory element rather than simply a structural element used for DNA compaction.

Diversity-oriented synthesis

Schreiber applied small molecules to biology through the development of diversity-oriented synthesis (DOS),(a) (b) (c) chemical genetics,"The small-molecule approach to biology: Chemical genetics and diversity-oriented organic synthesis make possible the systematic exploration of biology”, S L Schreiber, ''C&E News'', 2003, 81, 51–61. and ChemBank. Schreiber has shown that DOS can produce small molecules distributed in defined ways in chemical space by virtue of their different skeletons and stereochemistry, and that it can provide chemical handles on products anticipating the need for follow-up chemistry using, for example, combinatorial synthesis and the so-called Build/Couple/Pair strategy of modular chemical synthesis. DOS pathways and new techniques for small-molecule screening "Printing Small Molecules as Microarrays and Detecting Protein-Ligand Interactions en Masse" Gavin MacBeath, Angela N. Koehler, Stuart L. Schreiber ''J. Am. Chem. Soc.'' 1999, 121, 7967–7968. provided many new, potentially disruptive insights into biology. Small-molecule probes of histone and tubulin deacetylases, transcription factors, cytoplasmic anchoring proteins, developmental signaling proteins (e.g., histacin, tubacin, haptamide, uretupamine, concentramide, and calmodulophilin), among many others, have been uncovered in the Schreiber lab using diversity-oriented synthesis and chemical genetics. Multidimensional screening was introduced in 2002 and has provided insights into tumorigenesis, cell polarity, and chemical space, among others. Using diversity-oriented synthesis, the Schreiber Lab and collaborators discovered numerous novel antimicrobial compounds including the bicyclic azetidine BRD7929 that could both cure and prevent the transmission of malaria in mice, targeting multiple steps in the life cycle of ''Plasmodium falciparum''. They found another synthetic azetidine derivative, BRD4592, which kills ''Mycobacterium tuberculosis'' through allosteric inhibition of its tryptophan synthase. High throughput screens further uncovered compounds that inhibit replication of ''Trypanosoma cruzi'' and Hepatitis C virus, and inhibit ''Toxoplasma gondii'' growth.

Other research

Schreiber also contributed to more conventional small molecule discovery projects. He collaborated with Tim Mitchison to discover monastrol – the first small-molecule inhibitor of

mitosis Mitosis () is a part of the cell cycle in eukaryote, eukaryotic cells in which replicated chromosomes are separated into two new Cell nucleus, nuclei. Cell division by mitosis is an equational division which gives rise to genetically identic ...

that does not target

tubulin Tubulin in molecular biology can refer either to the tubulin protein superfamily of globular proteins, or one of the member proteins of that superfamily. α- and β-tubulins polymerize into microtubules, a major component of the eukaryotic cytosk ...

. Monastrol was shown to inhibit kinesin-5, a motor protein and was used to gain new insights into the functions of kinesin-5. This work led pharmaceutical company Merck, among others, to pursue anti-cancer drugs that target human kinesin-5. Schrieber and

McManus McManus is an Irish surname. It is derived from the Irish Gaelic "Mac Mághnais", in modern Irish "McMaghnuis" which means "Son of Magnus". Its earlier origin is from the Latin "magnus", meaning "great". The Normans used it to honour Charlemagne ...

discovered that when certain aggressive cancer cells become resistant to drug treatments, they also become vulnerable to ferroptosis—a natural cellular self-destruction mechanism triggered by peroxide and iron ions undergoing the Fenton reaction. Free radicals unleash a chain reaction turning normal lipids in the cell membrane into toxic radical species. They found that drug-resistant cancer cells that have acquired this new vulnerability rely on an enzyme called GPX4 for survival. GPX4 stops the chain reaction leading to ferroptosis by converting the dangerous lipid peroxides to benign alcohols. They further showed that a small molecule inhibitor of GPX4 kills cancer cells by increasing their vulnerability to ferroptosis.

Impact on chemical biology

Schreiber has used small molecules to study three specific areas of biology, and then through the more general application of small molecules in biomedical research. Academic screening centers have been created that emulate the Harvard Institute of Chemistry and Cell Biology and the Broad Institute; in the U.S., there has been a nationwide effort to expand this capability via the government-sponsored NIH Road Map. Chemistry departments have changed their names to include the term chemical biology and new journals have been introduced (Cell Chemical Biology, ChemBioChem, Nature Chemical Biology, ACS Chemical Biology]) to cover the field. Schreiber has been involved in the founding of numerous biopharmaceutical companies whose research relies on chemical biology: Vertex Pharmaceuticals, Inc. (VRTX), Ariad Pharmaceuticals, Inc. (ARIA), Infinity Pharmaceuticals, Inc (INFI), Forma Therapeutics, H3 Biomedicine, Jnana Therapeutics, and Kojin Therapeutics. These companies have produced new therapeutics in several disease areas, including

cystic fibrosis Cystic fibrosis (CF) is a genetic disorder inherited in an autosomal recessive manner that impairs the normal clearance of Sputum, mucus from the lungs, which facilitates the colonization and infection of the lungs by bacteria, notably ''Staphy ...

and cancer.

Selected awards

* ACS Award in Pure Chemistry (1989) * Ciba-Geigy Drew Award for Biomedical Research: Molecular Basis for Immune Regulation (1992) * Leo Hendrik Baekeland Award, North Jersey Section of ACS (1993) * Eli Lilly Award in Biological Chemistry, ACS (1993) * American Chemical Society Award in Synthetic Organic Chemistry (1994) * George Ledlie Prize (Harvard University) (1994) *

Paul Karrer Gold Medal The Paul Karrer Gold Medal and Lecture is awarded annually or biennially by the University of Zurich to an outstanding researcher in the field of chemistry. It was established in 1959 by a group of leading companies, including CIBA AG, J.R. Gei ...

(1994) at the

University of Zurich The University of Zurich (UZH, ) is a public university, public research university in Zurich, Switzerland. It is the largest university in Switzerland, with its 28,000 enrolled students. It was founded in 1833 from the existing colleges of the ...

. * Harrison Howe Award (1995) * Warren Triennial Award (shared with Leland Hartwell) (1995) * Tetrahedron Prize for Creativity in Organic Chemistry (1997) * ACS Award for Bioorganic Chemistry (2000) * William H. Nichols Medal (2001) * Chiron Corporation Biotechnology Research Award, American Academy of Microbiology (2001) * Society for Biomolecular Screening Achievement Award (2004) * American Association of Cancer Institutes (2004) * Arthur C. Cope Award (2014) * Nagoya Gold Medal (2015) *

Wolf Prize The Wolf Prize is an international award granted in Israel, that has been presented most years since 1978 to living scientists and artists for "achievements in the interest of mankind and friendly relations among people ... irrespective of natio ...

(2016) *

National Academy of Medicine The National Academy of Medicine (NAM), known as the Institute of Medicine (IoM) until 2015, is an American nonprofit, non-governmental organization. The National Academy of Medicine is a part of the National Academies of Sciences, Engineerin ...

, elected 2018

Notes and references

External links

Broad Institute of Harvard and MIT, Chemical Biology Program

ChemBank
{{DEFAULTSORT:Schreiber, Stuart 1956 births Living people 21st-century American chemists University of Virginia alumni Harvard University alumni Yale University faculty Massachusetts Institute of Technology faculty Harvard University faculty Members of the United States National Academy of Sciences Howard Hughes Medical Investigators Place of birth missing (living people) Wolf Prize in Chemistry laureates Members of the National Academy of Medicine Searle Scholars Program recipients Chemical biology