Abstract
The deregulation of the MYC family of oncogenes, including c-MYC, MYCN and MYCL occurs in many types of cancers, and is frequently associated with a poor prognosis. The majority of functional studies have focused on c-MYC due to its broad expression profile in human cancers. The existence of highly conserved functional domains between MYCN and c-MYC suggests that MYCN participates in similar activities. MYC encodes a basic helix-loop-helix-leucine zipper (bHLH-LZ) transcription factor (TF) whose central oncogenic role in many human cancers makes it a highly desirable therapeutic target. Historically, as a TF, MYC has been regarded as “undruggable”. Thus, recent efforts focus on investigating methods to indirectly target MYC to achieve anti-tumor effects. This review will primarily summarize the recent progress in understanding the function of MYCN. It will explore efforts at targeting MYCN, including strategies aimed at suppression of MYCN transcription, destabilization of MYCN protein, inhibition of MYCN transcriptional activity, repression of MYCN targets and utilization of MYCN overexpression dependent synthetic lethality.
Highlights
Targeting MYCN in Pediatric and Adult CancersLaura Soucek, Vall d’Hebron Institute of Oncology (VHIO), Spain Jonathan R
MYCN is a member of the MYC family of oncogenes, which includes c-MYC and MYCL [1]
This study showed that BRD4 binds to superenhancers (SEs) and MYCN target genes, while OTX015 treatment disrupts BRD4 binding and transcription of MYCN as well as its target genes [98], which is consistent with the finding that bromodomain inhibitor treatment selectively inhibits oncogenes by disrupting their SEs [99]
Summary
Laura Soucek, Vall d’Hebron Institute of Oncology (VHIO), Spain Jonathan R. Vall d’Hebron Institute of Oncology (VHIO), Spain, in collaboration with reviewer LS. The majority of functional studies have focused on c-MYC due to its broad expression profile in human cancers. MYC encodes a basic helix-loop-helix-leucine zipper (bHLH-LZ) transcription factor (TF) whose central oncogenic role in many human cancers makes it a highly desirable therapeutic target. This review will primarily summarize the recent progress in understanding the function of MYCN. It will explore efforts at targeting MYCN, including strategies aimed at suppression of MYCN transcription, destabilization of MYCN protein, inhibition of MYCN transcriptional activity, repression of MYCN targets and utilization of MYCN overexpression dependent synthetic lethality
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