Findings may have far-reaching implications for the responsiveness of cancers to epigenetic therapies Peer-Reviewed Publication
BOSTON UNIVERSITY SCHOOL OF MEDICINE
(Boston)—One of the major challenges in cancer research and clinical care is understanding the molecular basis for therapeutic resistance as a major cause of long term treatment failures. In cases of melanoma, the main targeted therapeutic strategy is directed against the mitogen-activated protein kinase (MAPK) pathway. Unfortunately, in the vast majority of these patients, resistance to MAPK inhibitor therapies develops within one year of treatment.
In a new study from Boston University Chobanian & Avedisian School of Medicine, researchers have identified a specific epigenetic pathway involved in the development of therapy resistance in melanoma and have identified a promising chemical reagent which can successfully resensitize therapy-resistant cancers to targeted therapies.
“Although the cancer research community has been very successful in developing specific targeted therapies for the genetic events driving many cancers, most patients are unable to be cured of their cancers due to acquired resistance mechanisms. We are excited about the broader implications this study has for the potential treatment of patients with acquired resistance to cancer therapies” said co-corresponding author Rhoda Alani, MD, the Herbert Mescon Chair of Dermatology at the school.
In collaboration with investigators from Brigham and Women’s Hospital and Harvard Medical School, the researchers used both cancer cell lines grown in the lab and human melanoma tumors grown in experimental models to evaluate the epigenetic influences associated with melanoma progression, and their response to targeted therapies. They determined that a significant resistance mechanism for melanoma involves the epigenetic mediator, CoREST, and that this treatment resistance can be targeted by corin, a recently designed dual-functioning small molecule inhibitor of CoREST. The study provides the molecular rationale for how CoREST complex targeting can be harnessed for an important therapeutic goal in a broad range of epigenetic contexts, including melanoma.
Alani expects the clinical implications for this research to be significant as it is likely that similar epigenetic events are associated with treatment resistance in other cancers and that the development of novel high-specificity epigenetic inhibitors like corin may allow for the resensitization of these tumors to effective targeted therapies and possible disease remission.
The researchers hope this study will lead to the development of more specific targeted epigenetic therapies for cancer and the other diseases with minimal side effects. “We also expect that these studies will result in the improved efficacy of anticancer targeted drugs while limiting the development of drug resistance in cancers through the combined use of targeted epigenetic therapies,” added Alani who also is who also is chief of dermatology at Boston Medical Center.
In addition to Alani, the other corresponding author is Philip Cole, MD, PhD, (Brigham and Women’s Hospital and Harvard Medical School).
These findings appear online in the Journal of Clinical Investigation.
M.W. was supported by a Karin Grunebaum Cancer Foundation Research Award. P.C. is supported by NIH R35GM149229. R.A. was supported by a Melanoma Research Alliance Established Investigator Award (MRA 622586).
Note to editors:
P.A.C. is a co-founder of Acylin Therapeutics and a consultant for Abbvie regarding p300 acetyltransferase inhibitors. He also is a co-inventor on a U.S. patent application for corin (US #11,565,994). R.M.A. is a co-founder of Acylin Therapeutics.
JOURNAL
Journal of Clinical Investigation
DOI
10.1172/JCI171063
METHOD OF RESEARCH
Experimental study
SUBJECT OF RESEARCH
Human tissue samples
ARTICLE TITLE
The CoREST Repressor Complex Mediates Phenotype Switching and Therapy Resistance in Melanoma
ARTICLE PUBLICATION DATE
1-Feb-2024
COI STATEMENT
P.A.C. is a co-founder of Acylin Therapeutics and a consultant for Abbvie regarding p300 acetyltransferase inhibitors. He also is a co-inventor on a U.S. patent application for corin (US #11,565,994). R.M.A. is a co-founder of Acylin Therapeutics.
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