Abstract LB-290: Multiple distinct mechanisms disrupt let-7 miRNA biogenesis and function in neuroblastoma

The let-7 microRNA family are known tumor suppressors often deregulated in cancer, yet the underlying mechanisms of let-7 disruption remain poorly understood. Neuroblastoma, a neural crest derived tumor, is defined in part by poor prognosis associated with genetic amplification of MYCN, itself a let-7 target. The let-7 biogenesis inhibitor LIN28B has recently been implicated as a critical regulator of MYCN, but we have employed siRNA and CRISPR-mediated gene disruption to show that LIN28B is dispensable for both MYCN protein expression and growth of MYCN-amplified neuroblastoma cell lines despite robust de-repression of let-7, which prompted us to explore additional mechanisms for let-7 disruption. Consequently, we have found that amplified MYCN mRNA is a potent let-7 sponge that through exceptionally high expression defines a sub-class of self-sponging amplified-competing-endogenous-RNA (aceRNA), which reconciles the dispensability of LIN28B in NB cell lines. In addition, by analyzing a large cohort of tumor samples from patients, we observe frequent genomic loss of let-7 that inversely associates with MYCN-amplification, providing a functional explanation for the known MYCN-amplification-independent pattern of chromosome 3p and 11q loss, which harbor let-7g and let-7a2, respectively. We thus propose a model whereby let-7 disruption by genetic loss, LIN28B expression, or aceRNA sponging is a unifying mechanism of neuroblastoma pathogenesis. Indeed, our data show that the maj...
Source: Cancer Research - Category: Cancer & Oncology Authors: Tags: Molecular and Cellular Biology Source Type: research