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New drug candidate blocks resistance to cancer therapies

by Medical Xpress
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MTX-531 is a potent and selective inhibitor of EGFR and PI3K in vitro. Credit: Nature Cancer (2024). DOI: 10.1038/s43018-024-00781-6

A team of researchers at the University of Michigan Health Rogel Cancer Center has designed a molecule that impairs signaling mediated by two key drivers of cancer therapy resistance. The design and preclinical evaluation of the inhibitor, MTX-531, was published in Nature Cancer.

Researchers, led by Judith Sebolt-Leopold, Ph.D., discovered MTX-531, a with the ability to selectively block both (EGFR) and phosphatidylinositol 3-OH kinase (PI3K).

“By dual targeting of EGFR and PI3K, MTX-531 acts to shut down the escape mechanisms that tumors use to resist treatment. In certain cancers, such as head and neck , each of these kinases is known to mediate resistance to inhibition of the other,” said Sebolt-Leopold, research professor of radiology and pharmacology at Michigan Medicine and co-leader of Rogel’s developmental therapeutics program.”

The study shows that in mouse models, MTX-531 led to tumor regressions in multiple head and neck cancer models and was well-tolerated. Furthermore, MTX-531, in combination with drugs targeting the RAS pathway, was shown to be highly effective against KRAS-mutated gastrointestinal tumors originating in the colon or pancreas.

Other PI3K inhibitors are associated with hyperglycemia, which can be severe enough that treatment must be stopped. MTX-531 does not lead to this side effect, indicating it could become a less-toxic treatment option.

The innovative design of MTX-531 was achieved through a computational chemistry approach, led by Sebolt-Leopold and Christopher Whitehead, Ph.D., a former member of the Leopold laboratory team, and currently chief operating officer of MEKanistic Therapeutics, Inc. The teamwork of Whitehead and Sebolt-Leopold began more than 20 years ago when both scientists collaborated on Pfizer’s MEK inhibitor program.

Sebolt-Leopold says that MTX-531 is a demonstration of their continued commitment to advancing by discovering and advancing first-in-class therapeutics.

“In drug company laboratories, one often does not have the opportunity to model clinical applications of lead candidates in detail,” said Sebolt-Leopold. “At Michigan Medicine, I have the unique opportunity to extend my research on molecular targeted agents to a more translational level.”

Advanced development activities are underway to support the clinical evaluation of MTX-531. Researchers are hopeful that these studies will ultimately lead to initiation of clinical trials in patients.

Additional authors are Christopher Whitehead, Elizabeth Ziemke, Christy Frankowski-McGregor, Rachel Mumby, June Chung, Jinju Li, Nathaniel Osher, Oluwadara Coker, Veerabhadran Baladandayuthapani, Scott Kopetz, and Judith Sebolt-Leopold.

More information:
Christopher E. Whitehead et al, A first-in-class selective inhibitor of EGFR and PI3K offers a single-molecule approach to targeting adaptive resistance, Nature Cancer (2024). DOI: 10.1038/s43018-024-00781-6

Citation:
New drug candidate blocks resistance to cancer therapies (2024, July 29)
retrieved 29 July 2024
from https://medicalxpress.com/news/2024-07-drug-candidate-blocks-resistance-cancer.html

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