News Release

First-in-class drug ONC201 shows potential for some blood cancers

Peer-Reviewed Publication

University of Texas M. D. Anderson Cancer Center

Michael Andreeff, MD Anderson Cancer Center

image: This is Michael Andreeff, M.D., Ph.D. view more 

Credit: MD Anderson Cancer Center

ONC201, an anti-cancer drug that triggers cell death in various tumor types, may have clinical potential for some blood cancers including mantel cell lymphoma (MCL) and acute myeloid leukemia (AML), according to a recent clinical study.

A research team led by Michael Andreeff, M.D., Ph.D., professor of Leukemia at The University of Texas MD Anderson Cancer Center, found that ONC201, which is in early clinical trials, caused cell death even when a crucial protein known as p53 is mutated or deleted entirely. This dysfunction occurs in more than half of malignancies and can promote malignant characteristics of cancers as well as resistance to standard chemotherapy, raising an urgent need for novel therapeutic solutions.

The study results are published in the Feb. 16 online issue of Science Signaling.

ONC201 is a first-in-class drug being clinically developed by Oncoceutics Inc. and MD Anderson through an alliance formed in January 2015. The drug is of interest due to its ability to kill cancer cells without harming healthy cells. Previously, Andreeff and others conducted extensive pre-clinical studies of ONC201.

"The clinical challenge posed by p53 abnormalities in blood malignancies is that therapeutic strategies other than standard chemotherapies are required," said Andreeff. "We found that ONC201 caused p53-independent cell death and cell cycle arrest in cell lines and in lymphoma and acute leukemia patient samples."

The patient samples included those that demonstrated genetic abnormalities linked to a poor prognosis or cells that developed resistance to the drugs ibrutinib and bortezomib commonly used for lymphoma and multiple myeloma patients. Additionally, mice studies revealed that ONC201 caused cell death in AML and leukemia stem cells but appeared to spare normal bone marrow cells.

ONC201 increased the translation of the stress-induced protein ATF4 through stress signals which are similar to those caused by cellular responses known as UPR (unfolded protein response) and ISR (integrated stress response). Every cellular protein must be properly folded for cells to survive. UPR is the major response against unfolded proteins, and prolonged or excess UCR can eventually cause cell death. Using similar mechanisms, nutrient deprivation and viral infection can cause ISR. ATF4 is commonly induced in these responses and by ONCO201 treatment. ATF4 has the ability to turn specific genetic instructions on and off.

"This increase in ATF4 in ONC201-treated hematopoietic cells promoted cell death," said Andreeff. "However, unlike with UPR and ISR, the increase in ATF4 in ONC201-treated cells promoted was not regulated by standard molecular signaling, indicating a novel mechanism of stressing cancer cell to death regardless of p53 status. There is clear evidence that ONC201 has clinical potential in hematological malignancies. Clinical trials in leukemia and lymphoma patients have recently been initiated at MD Anderson."

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MD Anderson research team members included Jo Ishizawa, M.D., Ph.D., Kensuke Kojima, M.D., Ph.D., Dhruv Chachad, Peter Ruvolo, Ph.D., Vivian Ruvolo, Rodrigo Jacamo, Ph.D., Gautam Borthakur, M.D., Hong Mu, Ph.D., Zhihong Zeng, Ph.D., Yoko Tabe, M.D., Ph.D., Marina Konopleva, M.D., Ph.D., and Hagop Kantarjian, M.D., all of Leukemia; Zhiqiang Wang, Ph.D., Wencai Ma, Ph.D., Hans Lee, M.D., Robert Orlowski, M.D., Ph.D., Sattva Neelapu, M.D., Michael Wang, M.D., and Eric Davis, M.D., all of Lymphoma/Myeloma; Dos Sarbassov, Ph.D., Molecular and Cellular Oncology; Philip Lorenzi, Ph.D., Bioinformatics and Computational Biology; Xuelin Huang, Ph.D., Biostatistics; and Timothy McDonnell, M.D., Ph.D. and Roberto Miranda, M.D., Hematopathlogy.

Other participating institutions included Juntendo University School of Medicine, Tokyo and Oncoceutics Inc., Hummelstown, Pa.

The study was funded by the National Institutes of Health (CA49639, CA100632, CA136411 and CA16672), Cancer Prevention Research Institute of Texas (RP130397), the Japan Society for the Promotion of Science, the Ministry of Education, Culture, Sports, Science and Technology in Japan, the Princess Takamatsu Cancer Research Fund (14-24610), the Osaka Cancer Research Foundation, and the Paul and Mary Haas Chair in Genetics. Andreef is a stockholder of Oncoceutics and serves on its board and scientific advisory board.


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