Mount Sinai researchers develop engineered molecule that may disrupt enzyme in many cancers

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Mount Sinai researchers have developed a therapeutic agent that shows high effectiveness in vitro at disrupting a biological pathway that helps cancer survive, according to a paper published in Cancer Discovery, a journal of the American Association for Cancer Research, in July.

The therapy is an engineered molecule, named MS21, that causes the degradation of AKT, an enzyme that is overly active in many cancers. This study laid out evidence that pharmacological degradation of AKT is a viable treatment for cancers with mutations in certain genes.

“Our study lays a solid foundation for the clinical development of an AKT degrader for the treatment of human cancers with certain gene mutations,” Ramon Parsons, director of The Tisch Cancer Institute and Ward-Coleman Chair in Cancer Research and chair of oncological sciences at the Icahn School of Medicine at Mount Sinai, said in a statement. “Examination of 44,000 human cancers identified that 19 percent of tumors have at least one of these mutations, suggesting that a large population of cancer patients could benefit from therapy with an AKT degrader such as MS21.”

MS21 was tested in human cancer-derived cell lines, which are models used in laboratories to study the efficacy of cancer therapies. Mount Sinai is looking to develop MS21 with an industry partner to open clinical trials for patients.

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