New investigational inhibitor JQEZ5 can block specific molecular malfunctions driving cancer

In a step forward in the push for targeted treatments that can block the specific molecular malfunctions driving cancer, University of North Carolina Lineberger Comprehensive Cancer Center researchers have demonstrated how a genetic mutation can drive the most common type of lymphoma as well as melanoma, the deadliest form of skin cancer.

The researchers report in Nature Medicine the description of new laboratory models of B-cell lymphoma and melanoma featuring a specific mutation of EZH2, a gene known to regulate cell fate. The authors also report a new investigational inhibitor, JQEZ5, that blocks the function of the protein made by the EZH2 gene, and show this compound is highly active in EZH2-driven cancer models.

"We have shown that the biology of tumors driven by this mutation are distinct from other types of lymphoma and melanoma, and that these tumors require persistent malfunction of EZH2 for growth," said Norman Sharpless, MD, director of UNC Lineberger and the Wellcome Distinguished Professor of Cancer Research. "And with our collaborators, we have shown that a potential new drug designed to target EZH2 mutations in such cancers is very active in our laboratory models."

The specific mutation of EZH2 studied by the Sharpless lab is a relatively common event in diverse cancers, occurring in approximately 20 percent of B-cell lymphomas, 5 percent of melanoma and at lower frequency in a variety of other cancers, Sharpless said. This analysis suggests thousands of people in the United States develop cancer driven by this mutation annually.

The researchers determined that a mutation in the EZH2 gene alone is sufficient to drive B-cell lymphoma, whereas in melanoma, the EZH2 mutation occurs in combination with mutations of the BRAF gene, which occurs in about half of melanoma patients.

These findings have important implications for both treatment and further drug development, said the study's first author George P. Souroullas, PhD, a research scientist at UNC Lineberger and in the UNC School of Medicine Department of Genetics, as they indicate which combinations of drugs could be therapeutically beneficial.

Specifically, their findings in melanoma suggest that inhibitors of the protein created by the EZH2 gene - like JQEZ5 -might work well in combination with inhibitors of BRAF, which are already approved by the U.S. Food and Drug Administration as melanoma therapy.

And their findings suggest that EZH2 inhibitors could be an effective strategy in some patients with melanoma or B-cell lymphoma, he said.

The researchers treated the newly developed laboratory models of melanoma and lymphoma with the specific EZH2 mutation with a variety of therapies, including different compounds designed to inhibit EZH2. The authors found that JQEZ5, a molecule recently developed by Jun Qi, PhD, of the Dana-Farber Cancer Institute, and James E. Bradner, MD, formerly of the Dana-Farber Cancer Institute and now president of the Novartis Institutes for BioMedical Research, was highly potent in animal models of EZH2-mutant cancer. The authors showed that JQEZ5 had drug-like properties and minimal toxicity, suggesting such approaches may be of value in human patients with EZH2 mutant cancers.

"This paper showcases the centrality of genome structure in the pathogenesis of cancer," said Bradner. The findings are important as new treatments are needed for lymphoma and metastatic melanoma, Sharpless said.

"While there has been significant progress in recent years against cancers such as lymphoma and melanoma, many patients still fail these newer therapies and need further options for therapy," Sharpless said. "Given that EZH2 malfunction is a common event in many types of cancer beyond lymphoma and melanoma, we are hopeful that well-tolerated inhibitors of this enzyme will benefit a large group of patients with cancer."

Comments

  1. Petr Ermakov Petr Ermakov Ukraine says:

    When cancer viruses affect the nerves going to the nucleus of cells and increase the electrical resistance of the nerves. As a result, the cell does not accept commands from the nervous system and is independent image reproduction, sharp increase in the division of cancer cells. For treatment it is necessary to suppress the virus and nerve fibers are recovered fairly quickly, within 3 days. viral suppression carried food natural food that is safe, fast and convenient. This technology is used for treating cancer for over 5 years been very successful in the treatment of cancer
    Ermakov P, professor

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News Medical.
Post a new comment
Post

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.

You might also like...
Study shows cannabis as a genotoxic substance with cancer risks