Targeting Oncoprotein Translation with Rocaglates in MYC-Driven Lymphoma

Background: c-MYC (MYC) is commonly dysregulated in aggressive B cell lymphomas. MYC associated lymphoma, especially Double Hit lymphoma (DHL) and Double-Expression Lymphoma (DEL) which are characterized by MYC and BCL2 dual overexpression usually present with the inferior outcome as rapid disease progression and poor response to standard chemotherapy regimen. Nevertheless, MYC is considered as an "undruggable" target and targeting strategies such as suppressing MYC transcription by bromodomain (BRD)-4 inhibitors have been widely investigated in both preclinical models and clinical trials. However, increasing evidence has shown that lymphoma cells displayed a wide range of resistance to BRD-4 inhibition, due to transcription adaptation or kinome reprogramming. Hence, alternative approaches for suppressing MYC or its function are urgently needed. Strategies directed against oncoprotein translation may efficiently repress key oncoproteins regardless of the abundant MYC mRNA due to genetic aberrations and secondary transcription up-regulated by MYC. Rocaglate is a class of natural products derived from plants of the Aglaia genus that have been demonstrated to potently inhibit protein translation initiation via eIF4A. The use of rocaglates for anti-cancer treatment was limited due to the scarcity and instability of these natural products e.g. Silvestrol. Recent chemical modification and screening studies have unveiled a few synthetic rocaglates that are more potent than Silvestro...
Source: Blood - Category: Hematology Authors: Tags: 625. Lymphoma: Pre-Clinical-Chemotherapy and Biologic Agents: Specific Pathway Inhibitors Source Type: research