Picture of Phil Cole

Philip A. Cole, M.D., Ph.D.

Professor of Medicine and Biological Chemistry and Molecular Pharmacology

Our research involves the chemical biology of protein post-translational modifcations (PTMs) in the context of signaling, epigenetics, and cancer.  We develop and apply chemical approaches including protein semisynthesis and small molecule probes to the study of protein phosphorylation, acetylation, ubiquitination, and other PTMs in enzymes and cellular networks. 

Phil Cole graduated from Yale University with a B.S. in Chemistry in 1984 and then spent a year as a Churchill Scholar at the University of Cambridge.  Cole went on to obtain M.D. and Ph.D. degrees from Johns Hopkins where he pursued research in bioorganic chemistry in 1991.  Cole then entered clinical and post-doctoral training at Brigham and Women's Hospital and Harvard Medical School prior to joining Rockefeller University in 1996 as a junior lab head.  In 1999, Cole returned to Johns Hopkins as professor and director of pharmacology where he served until 2017, when he moved to Harvard Medical School and Brigham and Women's Hospital as professor of medicine and biological chemistry and molecular pharmacology.  His research interests are in the area of chemical biology, protein post-translational modifications, cell signaling, and epigenetics.

Research:

Our research involves the chemical biology of protein post-translational modifcations (PTMs) in the context of signaling, epigenetics, and cancer.  We develop and apply chemical approaches including protein semisynthesis and small molecule probes to the study of protein phosphorylation, acetylation, ubiquitination, and other PTMs in enzymes and cellular networks.  We are currently investigating the functions, regulation, and mechanisms of PTEN lipid phosphatase, Akt protein kinase, NEDD4 ubiquitin ligases, LSD1 histone demethylase, HDAC1 deacetylase, the CoREST complex, and p300/CBP acetyltransferase.  We strive to translate our findings in signaling and epigenetics to identify novel therapeutic opportunities for the treatment of cancer and other diseases.

Address: 

New Research Building

77 Avenue Louis Pasteur

Room 168C

Boston, MA 02115

Publications View
TRRAP and GCN5 are used by c-Myc to activate RNA polymerase III transcription.
Authors: Authors: Kenneth NS, Ramsbottom BA, Gomez-Roman N, Marshall L, Cole PA, White RJ.
Proc Natl Acad Sci U S A
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A lock on phosphotyrosine signaling.
Authors: Authors: Muratore KE, Cole PA.
ACS Chem Biol
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Multiple roles for acetylation in the interaction of p300 HAT with ATF-2.
Authors: Authors: Karanam B, Wang L, Wang D, Liu X, Marmorstein R, Cotter R, Cole PA.
Biochemistry
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Structural basis for the inhibition of the LSD1 histone demethylase by the antidepressant trans-2-phenylcyclopropylamine.
Authors: Authors: Yang M, Culhane JC, Szewczuk LM, Jalili P, Ball HL, Machius M, Cole PA, Yu H.
Biochemistry
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Regulation of c-Src nonreceptor tyrosine kinase activity by bengamide A through inhibition of methionine aminopeptidases.
Authors: Authors: Hu X, Dang Y, Tenney K, Crews P, Tsai CW, Sixt KM, Cole PA, Liu JO.
Chem Biol
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Mechanistic analysis of a suicide inactivator of histone demethylase LSD1.
Authors: Authors: Szewczuk LM, Culhane JC, Yang M, Majumdar A, Yu H, Cole PA.
Biochemistry
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Structural basis of histone demethylation by LSD1 revealed by suicide inactivation.
Authors: Authors: Yang M, Culhane JC, Szewczuk LM, Gocke CB, Brautigam CA, Tomchick DR, Machius M, Cole PA, Yu H.
Nat Struct Mol Biol
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Enzymatic and cellular study of a serotonin N-acetyltransferase phosphopantetheine-based prodrug.
Authors: Authors: Hwang Y, Ganguly S, Ho AK, Klein DC, Cole PA.
Bioorg Med Chem
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A selective chemical probe for coenzyme A-requiring enzymes.
Authors: Authors: Hwang Y, Thompson PR, Wang L, Jiang L, Kelleher NL, Cole PA.
Angew Chem Int Ed Engl
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Kinetic and mass spectrometric analysis of p300 histone acetyltransferase domain autoacetylation.
Authors: Authors: Karanam B, Jiang L, Wang L, Kelleher NL, Cole PA.
J Biol Chem
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