Michael D. Perron scite author profile

Michael D. Perron

2Publications

55Citation Statements Received

95Citation Statements Given

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Affiliations

Jewish General Hospital, McGill University, Biotechnology Research Institute

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Allosteric Noncompetitive Small Molecule Selective Inhibitors of CD45 Tyrosine Phosphatase Suppress T-Cell Receptor Signals and Inflammation In Vivo

et al. 2014

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CD45 is a receptor-like member of the protein tyrosine phosphatase (PTP) family. We screened in silico for small molecules binding at a predicted allosteric pocket unique to the CD45 intracellular domain, and validated inhibitors by in vitro phosphatase assays. Compound 211 exhibited a CD45 IC 50 value of 200 nM and had .100-fold selectivity over six related PTPs. The relevance of the allosteric pocket was verified through site-directed mutagenesis. Compound 211 has a noncompetitive mechanism of action, and it is extremely effective at preventing dephosphorylation of substrate Lck phosphotyrosine (pY)-505 versus preventing dephosphorylation of Lck pY-393. In cultured primary T cells, compound 211 prevents T-cell receptor-mediated activation of Lck, Zap-70, and mitogen-activated protein kinase, and interleukin-2 production. In a delayed-type hypersensitivity reaction in vivo, compound 211 abolished inflammation. This work demonstrates a novel approach to develop effective allosteric inhibitors that can be expanded to target the corresponding allosteric domains of other receptor PTPs.

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Inhibition of CD45 Phosphatase Activity Induces Cell Cycle Arrest and Apoptosis of CD45⁺ Lymphoid Tumors Ex Vivo and In Vivo

Perron

Saragovi

2018

Mol Pharmacol

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Src-family kinases (SFK) govern cellular proliferation of bone marrow-derived cells. SFKs are regulated by the protein tyrosine phosphatase enzymatic activity of CD45. All lymphoid cells express CD45, but only proliferating cells are dependent on CD45 activity. We postulated that compound 211 (2-[(4-acetylphenyl)amino]-3-chloronaphthoquinone), a selective inhibitor of CD45 phosphatase activity, could preferentially affect actively proliferating cells but spare resting lymphoid cells. Compound 211 inhibited CD45 and induced inappropriate SFK signaling, leading to a G2/M cell cycle arrest and apoptotic cell death. CD45 cell lines were sensitive to compound 211 cytotoxicity at low micromolar LD while control CD45 cell lines and CD45 resting primary T cells were spared any toxicity. In two syngeneic tumor models in vivo, compound 211 delayed the growth of established primary tumors and reduced tumor metastasis without causing depletion of resting T cells. This work validates targeting CD45 phosphatase enzymatic activity, which may be a druggable target for cancer therapy.

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Michael D. Perron

Allosteric Noncompetitive Small Molecule Selective Inhibitors of CD45 Tyrosine Phosphatase Suppress T-Cell Receptor Signals and Inflammation In Vivo

Inhibition of CD45 Phosphatase Activity Induces Cell Cycle Arrest and Apoptosis of CD45⁺ Lymphoid Tumors Ex Vivo and In Vivo

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Michael D. Perron

Allosteric Noncompetitive Small Molecule Selective Inhibitors of CD45 Tyrosine Phosphatase Suppress T-Cell Receptor Signals and Inflammation In Vivo

Inhibition of CD45 Phosphatase Activity Induces Cell Cycle Arrest and Apoptosis of CD45+ Lymphoid Tumors Ex Vivo and In Vivo

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Inhibition of CD45 Phosphatase Activity Induces Cell Cycle Arrest and Apoptosis of CD45⁺ Lymphoid Tumors Ex Vivo and In Vivo