Title:PRAME/EZH2-Mediated Regulation of TRAIL: A New Target for Cancer Therapy
Volume: 13
Issue: 2
Author(s): D. D. De Carvalho, B. P. Mello, W. O. Pereira and G. P. Amarante-Mendes
Affiliation:
Keywords:
Apoptosis, cancer, EZH2, polycomb genes, PRAME, TRAIL, tumor necrosis factor, chromosome, natural killer cell, inflammation, autoimmune diseases, macrophages, metalloproteases, osteoprotegerin, conformational modification.
Abstract: The tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) exerts a cancer cell-specific
pro-apoptotic activity. This property made the TRAIL associated pathway one of the most promising strategies
aimed at inducing tumor-selective death. In fact, several approaches have been considered to explore this
pathway for cancer therapy, such as recombinant TRAIL, agonist antibodies for TRAIL receptors, and
adenoviral TRAIL. However, all of these approaches have certain disadvantages that limit their clinical use.
Our recent discovery that the complex PRAME/EZH2 is able to repress TRAIL expression, in a cancer-specific
manner, suggests an alternative approach for combined cancer therapy. A genetic or pharmacological
inhibition of TRAIL repressors in cancer cells could restore endogenous TRAIL expression, thereby
overcoming some of the limitations of and/or cooperating with previous approaches.