H. Uemit Kaniskan scite author profile

Protein arginine methyltransferases (PRMTs) play a crucial role in a variety of biological processes. Overexpression of PRMTs has been implicated in various human diseases including cancer. Consequently, selective small-molecule inhibitors of PRMTs have been pursued by both academia and pharmaceutical industry as chemical tools for testing biological and therapeutic hypotheses. PRMTs are divided into three categories: type I PRMTs which catalyze mono- and asymmetric dimethylation of arginine residues, type II PRMTs which catalyze mono- and symmetric dimethylation of arginine residues, and type III PRMT which catalyzes only monomethylation of arginine residues. Here, we report the discovery of a potent, selective and cell-active inhibitor of human type I PRMTs, MS023, and characterization of this inhibitor in a battery of biochemical, biophysical and cellular assays. MS023 displayed high potency for type I PRMTs including PRMT1, 3, 4, 6 and 8, but was completely inactive against type II and type III PRMTs, protein lysine methyltransferases and DNA methyltransferases. A crystal structure of PRMT6 in complex with MS023 revealed that MS023 binds the substrate binding site. MS023 potently decreased cellular levels of histone arginine asymmetric dimethylation. It also reduced global levels of arginine asymmetric dimethylation and concurrently increased levels of arginine monomethylation and symmetric dimethylation in cells. We also developed MS094, a close analog of MS023, which was inactive in biochemical and cellular assays, as a negative control for chemical biology studies. MS023 and MS094 are useful chemical tools for investigating the role of type I PRMTs in health and disease.

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Design and synthesis of selective, small molecule inhibitors of coactivator-associated arginine methyltransferase 1 (CARM1)

Kaniskan

Eram

Liu

et al. 2016

Med. Chem. Commun.

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Coactivator-associated arginine methyltransferase 1 (CARM1) is a type I protein arginine methyltransferase (PRMT) that catalyzes the conversion of arginine into monomethylarginine (MMA) and further into asymmetric dimethylarginine (ADMA). CARM1 methylates histone 3 arginines 17 and 26, as well as numerous non-histone proteins including CBP/p300, SRC-3, NCOA2, PABP1, and SAP49, while also functioning as a coactivator for various proteins that have been linked to cancer such as p53, NF-κβ, β-catenin, E2F1 and steroid hormone receptor ERα. As a result, CARM1 is involved in transcriptional activation, cellular differentiation, cell cycle progression, RNA splicing and DNA damage response. It has been associated with several human cancers including breast, colon, prostate and lung cancers and thus, is a potential oncological target. Herein, we present the design and synthesis of a series of CARM1 inhibitors. Based on a fragment hit, we discovered compound 9 as a potent inhibitor that displayed selectivity for CARM1 over other PRMTs.

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Asymmetric Multicomponent [C + NC + CC] Synthesis of Highly Functionalized Pyrrolidines Catalyzed by Silver(I).

Garner

Kaniskan

et al. 2006

ChemInform

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Synthesis of Highly Functionalized Pyrrolidines via a Mild One‐Pot, Three‐Component 1,3‐Dipolar Cycloaddition Process.

Garner

Kaniskan

2006

ChemInform

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Synthesis of 3‐Azabicyclo[3.3.0]octane Framework (V) and a Novel Tricyclicaminoether (VI).

Kaniskan

Doğan

2004

ChemInform

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H. Uemit Kaniskan

A Potent, Selective, and Cell-Active Inhibitor of Human Type I Protein Arginine Methyltransferases

Design and synthesis of selective, small molecule inhibitors of coactivator-associated arginine methyltransferase 1 (CARM1)

Asymmetric Multicomponent [C + NC + CC] Synthesis of Highly Functionalized Pyrrolidines Catalyzed by Silver(I).

Synthesis of Highly Functionalized Pyrrolidines via a Mild One‐Pot, Three‐Component 1,3‐Dipolar Cycloaddition Process.

Synthesis of 3‐Azabicyclo[3.3.0]octane Framework (V) and a Novel Tricyclicaminoether (VI).

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