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Next-Generation Cell-Active Inhibitors of the Undrugged Oncogenic PTP4A3 Phosphatase. | LitMetric

Next-Generation Cell-Active Inhibitors of the Undrugged Oncogenic PTP4A3 Phosphatase.

J Pharmacol Exp Ther

Departments of Pharmacology (J.S.L., I.K.B., S.R.G., D.J.H., E.R.S.) and Chemistry (J.S.L., R.L.M., K.-L.H.), University of Virginia, Charlottesville, Virginia; and Department of Chemistry (N.R.T., E.J.R., J.C.B., P.W.), University of Pittsburgh, Pittsburgh, Pennsylvania.

Published: December 2019

AI Article Synopsis

  • Oncogenic protein tyrosine phosphatases (PTPs) are overexpressed in various cancers, making them important targets for treatment, particularly the PTP4A family involved in key cancer processes.
  • JMS-053 is a newly developed, selective inhibitor of PTP4A which has shown strong inhibition in lab studies, particularly against PTP4A3, though its exact mechanism and effectiveness against mutations are still under investigation.
  • Both JMS-053 and its analog NRT-870-59 demonstrated cytotoxic effects on cancer cells without generating significant oxidative stress, suggesting potential for targeted cancer therapies with minimized side effects from reactive oxygen species.

Article Abstract

Oncogenic protein tyrosine phosphatases (PTPs) are overexpressed in numerous human cancers but they have been challenging pharmacological targets. The emblematic oncogenic PTP4A tyrosine phosphatase family regulates many fundamental malignant processes. 7-Imino-2-phenylthieno[3,2-]pyridine-4,6(5,7)-dione (JMS-053) is a novel, potent, and selective PTP4A inhibitor but its mechanism of action has not been fully elucidated, nor has the chemotype been fully investigated. Because tyrosine phosphatases are notoriously susceptible to oxidation, we interrogated JMS-053 and three newly synthesized analogs with specific attention on the role of oxidation. JMS-053 and its three analogs were potent in vitro PTP4A3 inhibitors, but 7-imino-5-methyl-2-phenylthieno[3,2-]pyridine-4,6(5,7)-dione (NRT-870-59) appeared unique among the thienopyridinediones with respect to its inhibitory specificity for PTP4A3 versus both a PTP4A3 A111S mutant and an oncogenic dual specificity tyrosine phosphatase, CDC25B. Like JMS-053, NRT-870-59 was a reversible PTP4A3 inhibitor. All of the thienopyridinediones retained cytotoxicity against human ovarian and breast cancer cells grown as pathologically relevant three-dimensional spheroids. Inhibition of cancer cell colony formation by NRT-870-59, like JMS-053, required PTP4A3 expression. JMS-053 failed to generate significant detectable reactive oxygen species in vitro or in cancer cells. Mass spectrometry results indicated no disulfide bond formation or oxidation of the catalytic Cys104 after in vitro incubation of PTP4A3 with JMS-053 or NRT-870-59. Gene expression profiling of cancer cells exposed to JMS-053 phenocopied many of the changes seen with the loss of PTP4A3 and did not indicate oxidative stress. These data demonstrate that PTP4A phosphatases can be selectively targeted with small molecules that lack prominent reactive oxygen species generation and encourage further studies of this chemotype. SIGNIFICANCE STATEMENT: Protein tyrosine phosphatases are emerging as important contributors to human cancers. We report on a new class of reversible protein phosphatase small molecule inhibitors that are cytotoxic to human ovarian and breast cancer cells, do not generate significant reactive oxygen species in vitro and in cells, and could be valuable lead molecules for future studies of PTP4A phosphatases.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6856870PMC
http://dx.doi.org/10.1124/jpet.119.262188DOI Listing

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