Picture of Kevin Struhl

Kevin Struhl, Ph.D.

David Wesley Gaiser Professor of Biological Chemistry and Molecular Pharmacology

We combine genetic, molecular, biochemical, genomic, and evolutionary approaches to study the mechanistic relationship between chromatin structure and transcriptional regulation and its implications for epigenetic inheritance of heterochromatin.  In addition, we combine functional genomic and mechanistic approaches to elucidate the transcriptional regulatory circuits involved in the process of cellular transformation and formation of cancer stem cells, and the use of metformin as an anti-cancer drug in combination with chemotherapy.

Research:

Transcriptional regulation in response to environmental and developmental cues is mediated by the combinatorial and synergistic action of specific DNA-binding activators and repressors on components of the general transcription machinery and chromatin modifying activities, and it also involves microRNAs.  We combine genetic, molecular, genomic, and evolutionary approaches to address fundamental questions about transcriptional regulatory mechanisms, mRNA stability, and 3’ end formation in yeast, as well as elucidating the transcriptional regulatory circuits that mediate the process of cellular transformation and formation of cancer stem cells.

Relationship between transcriptional regulatory mechanisms and chromatin structure in yeast: Current projects include 1) how co-activators, chromatin-modifying complexes, repressors, and components of the basic transcription machinery are recruited to promoters in vivo under genetically and environmentally defined conditions, 2) intrinsic and dynamic aspects of chromatin structure, and mechanisms of epigenetic inheritance of heterochromatic and euchromatic states, 3) distinguishing between biological function and biological noise using evolutionarily related yeast species and other approaches.

mRNA stability and 3’ end formation in yeast:  Current projects include 1) selection of polyadenylation sites, 2) mechanism of mRNA decay including the identification of stabilizing and destabilizing sequences and the role of secondary structure, 3) regulation of 3’ end formation and mRNA stability under different environmental conditions by RNA-binding proteins

Transcriptional regulatory circuits during the process of cellular transformation in human cells:  Current projects include 1) an epigenetic switch from non-transformed to transformed cells in response to a transient inflammatory signal, 2) molecular pathways required for the formation of cancer stem cells, 3) defining an inflammatory index to type human cancers, 4) phenotypic screening methods for personalized therapy for human cancer patients, 5) testing metformin as a potential anti-cancer drug.

Address: 

Room C-351A

240 Longwood Ave.

Boston, MA 02115

Publications View
MiR-27b targets PPAR? to inhibit growth, tumor progression and the inflammatory response in neuroblastoma cells.
Authors: Authors: Lee JJ, Drakaki A, Iliopoulos D, Struhl K.
Oncogene
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SIRT7 links H3K18 deacetylation to maintenance of oncogenic transformation.
Authors: Authors: Barber MF, Michishita-Kioi E, Xi Y, Tasselli L, Kioi M, Moqtaderi Z, Tennen RI, Paredes S, Young NL, Chen K, Struhl K, Garcia BA, Gozani O, Li W, Chua KF.
Nature
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Histone H3R2 symmetric dimethylation and histone H3K4 trimethylation are tightly correlated in eukaryotic genomes.
Authors: Authors: Yuan CC, Matthews AG, Jin Y, Chen CF, Chapman BA, Ohsumi TK, Glass KC, Kutateladze TG, Borowsky ML, Struhl K, Oettinger MA.
Cell Rep
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An HNF4a-miRNA inflammatory feedback circuit regulates hepatocellular oncogenesis.
Authors: Authors: Hatziapostolou M, Polytarchou C, Aggelidou E, Drakaki A, Poultsides GA, Jaeger SA, Ogata H, Karin M, Struhl K, Hadzopoulou-Cladaras M, Iliopoulos D.
Cell
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The Cyc8-Tup1 complex inhibits transcription primarily by masking the activation domain of the recruiting protein.
Authors: Authors: Wong KH, Struhl K.
Genes Dev
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SAGA and ATAC histone acetyl transferase complexes regulate distinct sets of genes and ATAC defines a class of p300-independent enhancers.
Authors: Authors: Krebs AR, Karmodiya K, Lindahl-Allen M, Struhl K, Tora L.
Mol Cell
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JNK1 phosphorylation of Cdt1 inhibits recruitment of HBO1 histone acetylase and blocks replication licensing in response to stress.
Authors: Authors: Miotto B, Struhl K.
Mol Cell
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Extensive divergence of yeast stress responses through transitions between induced and constitutive activation.
Authors: Authors: Tirosh I, Wong KH, Barkai N, Struhl K.
Proc Natl Acad Sci U S A
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Inhibition of miR-193a expression by Max and RXRa activates K-Ras and PLAU to mediate distinct aspects of cellular transformation.
Authors: Authors: Iliopoulos D, Rotem A, Struhl K.
Cancer Res
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Akt2 regulates all Akt isoforms and promotes resistance to hypoxia through induction of miR-21 upon oxygen deprivation.
Authors: Authors: Polytarchou C, Iliopoulos D, Hatziapostolou M, Kottakis F, Maroulakou I, Struhl K, Tsichlis PN.
Cancer Res
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