Jennifer E Yeh1, Patricia A Toniolo, David A Frank. 1. aDepartment of Medical Oncology, Dana-Farber Cancer Institute, and Departments of Medicine, Brigham and Women's Hospital and Harvard Medical School, Boston, Massachusetts, USA bDepartment of Immunology, Institute of Biomedical Science, University of Sao Paulo, Sao Paulo, Brazil.
Abstract
PURPOSE OF REVIEW: A lack of effective treatments for advanced cancer remains a major challenge in oncology. Because cancer is a disease associated with aberrant gene expression patterns, transcription factors, which serve as the convergence points of oncogenic signaling and are functionally altered in many cancers, hold great therapeutic promise. RECENT FINDINGS: Many human cancers are dependent on the inappropriate activity of oncogenic transcription factors. By contrast, normal cells can often tolerate disruption of these proteins with little toxicity. Direct inhibition of transcription factor expression (e.g., with RNA interference or microRNAs) and DNA binding (e.g., with oligodeoxynucleotide decoys or pyrrole-imidazole polyamides) has demonstrated antitumor responses with minimal side-effects. New strategies of targeting transcription factors include disrupting critical protein-protein interactions, and restricting binding at the epigenetic level by modulating chromatin accessibility. Moreover, targeting transcription factors in tumor-associated immune cells has the potential to overcome tumor immunoresistance. SUMMARY: Transcription factors are an important target for cancer therapy, both through direct anticancer effects and immunomodulatory actions. Newly developed delivery systems that specifically target tumor cells also create opportunities for successes in targeting transcription in cancer.
PURPOSE OF REVIEW: A lack of effective treatments for advanced cancer remains a major challenge in oncology. Because cancer is a disease associated with aberrant gene expression patterns, transcription factors, which serve as the convergence points of oncogenic signaling and are functionally altered in many cancers, hold great therapeutic promise. RECENT FINDINGS: Many humancancers are dependent on the inappropriate activity of oncogenic transcription factors. By contrast, normal cells can often tolerate disruption of these proteins with little toxicity. Direct inhibition of transcription factor expression (e.g., with RNA interference or microRNAs) and DNA binding (e.g., with oligodeoxynucleotide decoys or pyrrole-imidazole polyamides) has demonstrated antitumor responses with minimal side-effects. New strategies of targeting transcription factors include disrupting critical protein-protein interactions, and restricting binding at the epigenetic level by modulating chromatin accessibility. Moreover, targeting transcription factors in tumor-associated immune cells has the potential to overcome tumor immunoresistance. SUMMARY: Transcription factors are an important target for cancer therapy, both through direct anticancer effects and immunomodulatory actions. Newly developed delivery systems that specifically target tumor cells also create opportunities for successes in targeting transcription in cancer.
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