PLX288701

GSE132053: Epigenetic Pathways of HDAC Inhibitor Resistance in Cutaneous T Cell Lymphoma

• Organsim human
• Type RNASEQ
• Target gene
• Project ARCHS4

Epigenetic changes deregulate gene expression to drive oncogenesis. The reversible nature of these changes enables therapeutic targeting, as in cutaneous T-cell lymphoma (MF/SS), Histone deacetylase inhibitors (HDACi), which alter epigenetic modifications, are effective in ~30% of MF/SS patients. However, there are no markers that predict MF/SS progression or therapy resistance. We hypothesized that epigenetic alterations drive MF/SS progression and promote HDACi drug resistance. Therefore, we profiled the epigenomes and transcriptomes of malignant T cell purified from skin biopsies and peripheral blood from MF/SS patients (N=21) before and after treatment with HDACi, as well as in vitro HDACi-treated CD4+ T cells from healthy donors. Here we report for the first time the epigenome-wide map of acetylation changes in MF/SS patients treated with HDACi, and define the significant differences in regulatory element activity and corresponding transcriptional changes in HDACi-sensitive versus resistant tumors. Our studies identified genes not previously associated with MF/SS, nor with disease progression or HDACi resistance, and were enriched in pathways that regulate apoptosis (BIRC5), cell cycle (RRM2), and chromosome cohesion (CENPH). We also identified a striking number of genes whose products are involved in cell adhesion and migration, including CCR6, LAIR2, VCAM1, and EPCAM. The mRNA of LAIR2, which encodes a receptor protein secreted by activated T cells that binds collagen and prevents binding of the inhibitory receptor LAIR1, was significantly upregulated in MF/SS tumors that were resistant to HDACi therapy and manifested in both skin and peripheral blood. We also detected elevated levels of LAIR2 protein in the plasma of MF/SS patients with progressive disease. Taken together, these studies defined the first epigenome-wide acetylation landscape of HDACi responsive and resistant MF/SS tumors, identified significantly altered patterns of epigenetic regulation and corresponding gene expression in HDACi resistant MF/SS tumors, and connected them to novel pathways of disease progression, particularly in cell adhesion and migration. These findings may represent novel predictive markers for MF/SS progression that are also targets for future therapeutic development. SOURCE: Jared Andrews (jared.andrews@wustl.edu) - Payton Lab Washington University in St. Louis