c-MYC (hereafter MYC) overexpression has been recognized in aggressive B-cell lymphomas and linked to adverse prognosis. MYC activation results in widespread repression of miRNA expression and associated lymphoma aggressive progression. Our recent study identified a MYC-miRNAs-EZH2 feed-forward loop linking over-expression of MYC, EZH2, and miRNA repression. Here, using a novel small-molecule BET bromodomain inhibitor, JQ1 and the EZH2 inhibitor, DZNep, we demonstrated that combined treatment of JQ1 and DZNep cooperatively disrupted MYC activation, resulting in a greater restoration of miR-26a expression and synergistically suppressed lymphoma growth and clonogenicity in aggressive lymphoma cells. Furthermore, CHIP assay demonstrated that MYC recruited EZH2 to miR-26a promoter and cooperatively repressed miR-26a expression in aggressive lymphoma cell lines as well as primary lymphoma cells. Loss or gain-of-function approaches revealed that miR-26a functioned as a tumor suppressor miRNA and mediated the combinatorial effects of JQ1 and DZNep. These findings represent a novel promising approach for silencing MYC-miRNA-EZH2 amplification loop for combinatorial therapy of aggressive B-cell lymphomas.
A dynamic interaction occurs between the lymphoma cell and its microenvironment, with each profoundly influencing the behavior of the other. Here, using a clonogenic coculture growth system and a xenograft mouse model, we demonstrated that adhesion of mantle cell lymphoma (MCL) and other non-Hodgkin lymphoma cells to lymphoma stromal cells confers drug resistance, clonogenicity, and induction of histone deacetylase 6 (HDAC6). Furthermore, stroma triggered a c-Myc/miR-548m feed-forward loop, linking sustained c-Myc activation, miR-548m downregulation, and subsequent HDAC6 upregulation and stroma-mediated cell survival and lymphoma progression in lymphoma cell lines, primary MCL and other B cell lymphoma cell lines. Treatment with an HDAC6-selective inhibitor alone or in synergy with a c-Myc inhibitor enhanced cell death, abolished cell adhesion-mediated drug resistance, and suppressed clonogenicity and lymphoma growth ex vivo and in vivo. Together, these data suggest that the lymphoma-stroma interaction in the lymphoma microenvironment directly impacts the biology of lymphoma through genetic and epigenetic regulation, with HDAC6 and c-Myc as potential therapeutic targets.
Bacteria sense environmental stressors and activate responses to improve their survival in harsh growth conditions. Neutrophils respond to the presence of bacteria by producing oxidative antibacterial species including hypochlorous acid (HOCl). However, the extent that bacteria detect activated neutrophils or HOCl has not been known. Here, we report that the opportunistic bacterial pathogen Pseudomonas aeruginosa responds to activated neutrophils by activating the fro system, which regulates the expression of antioxidative factors. We show that this response is specific to HOCl and that other oxidative factors including H2O2, do not trigger a fro response. The fro system has been previously shown to detect flow that is present in host vasculature, such as in animal circulatory systems. Our data thus suggest a model in which fro serves as an early host detection system in P. aeruginosa that improves its survival against neutrophil-mediated defenses, which could promote colonization in human tissue and increase pathogenicity.
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