Author
Listed:
- Sebastian Scheer
(Monash University)
- Suzanne Ackloo
(University of Toronto)
- Tiago S. Medina
(University Health Network)
- Matthieu Schapira
(University of Toronto
University of Toronto)
- Fengling Li
(University of Toronto)
- Jennifer A. Ward
(University of Oxford
University of Oxford)
- Andrew M. Lewis
(University of Oxford
University of Oxford)
- Jeffrey P. Northrop
(Monash University)
- Paul L. Richardson
(AbbVie Inc., 1 North Waukegan Rd)
- H. Ümit Kaniskan
(Icahn School of Medicine at Mount Sinai)
- Yudao Shen
(Icahn School of Medicine at Mount Sinai)
- Jing Liu
(Icahn School of Medicine at Mount Sinai)
- David Smil
(University of Toronto)
- David McLeod
(Ontario Institute for Cancer Research)
- Carlos A. Zepeda-Velazquez
(Ontario Institute for Cancer Research)
- Minkui Luo
(Memorial Sloan Kettering Cancer Center
Weill Cornell Medical College of Cornell University)
- Jian Jin
(Icahn School of Medicine at Mount Sinai)
- Dalia Barsyte-Lovejoy
(University of Toronto)
- Kilian V. M. Huber
(University of Oxford
University of Oxford)
- Daniel D. Carvalho
(University Health Network
University of Toronto)
- Masoud Vedadi
(University of Toronto
University of Toronto)
- Colby Zaph
(Monash University)
- Peter J. Brown
(University of Toronto)
- Cheryl H. Arrowsmith
(University of Toronto
University Health Network
University of Toronto)
Abstract
Protein methyltransferases (PMTs) comprise a major class of epigenetic regulatory enzymes with therapeutic relevance. Here we present a collection of chemical probes and associated reagents and data to elucidate the function of human and murine PMTs in cellular studies. Our collection provides inhibitors and antagonists that together modulate most of the key regulatory methylation marks on histones H3 and H4, providing an important resource for modulating cellular epigenomes. We describe a comprehensive and comparative characterization of the probe collection with respect to their potency, selectivity, and mode of inhibition. We demonstrate the utility of this collection in CD4+ T cell differentiation assays revealing the potential of individual probes to alter multiple T cell subpopulations which may have implications for T cell-mediated processes such as inflammation and immuno-oncology. In particular, we demonstrate a role for DOT1L in limiting Th1 cell differentiation and maintaining lineage integrity. This chemical probe collection and associated data form a resource for the study of methylation-mediated signaling in epigenetics, inflammation and beyond.
Suggested Citation
Sebastian Scheer & Suzanne Ackloo & Tiago S. Medina & Matthieu Schapira & Fengling Li & Jennifer A. Ward & Andrew M. Lewis & Jeffrey P. Northrop & Paul L. Richardson & H. Ümit Kaniskan & Yudao Shen & , 2019.
"A chemical biology toolbox to study protein methyltransferases and epigenetic signaling,"
Nature Communications, Nature, vol. 10(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-018-07905-4
DOI: 10.1038/s41467-018-07905-4
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Cited by:
- Joseph Walton & Angel S. N. Ng & Karen Arevalo & Anthony Apostoli & Jalna Meens & Christina Karamboulas & Jonathan St-Germain & Panagiotis Prinos & Julia Dmytryshyn & Eric Chen & Cheryl H. Arrowsmith , 2024.
"PRMT1 inhibition perturbs RNA metabolism and induces DNA damage in clear cell renal cell carcinoma,"
Nature Communications, Nature, vol. 15(1), pages 1-21, December.
- Kate M. MacDonald & Shirony Nicholson-Puthenveedu & Maha M. Tageldein & Sarika Khasnis & Cheryl H. Arrowsmith & Shane M. Harding, 2023.
"Antecedent chromatin organization determines cGAS recruitment to ruptured micronuclei,"
Nature Communications, Nature, vol. 14(1), pages 1-15, December.
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