Can abnormal chromatin folding cause high-penetrance cancer predisposition?

Abstract

Sequencing cancer predisposing genes (CPGs) in evocative patients (i.e., patients with personal and family history of multiple/early-onset/unusual cancers) allows follow-up in their relatives to be adapted when a causative pathogenic variant is identified. Unfortunately, many evocative families remain unexplained. Part of this "missing heritability" could be due to CPG dysregulations caused by remote noncoding genomic alterations. Transcription levels are regulated through the ability of promoters to physically interact with their distant cis-regulatory elements. Three-dimensional chromatin contacts, mediated by a dynamic loop extrusion process, are uncovered by chromosome conformation capture (3C) and 3C-derived techniques, which have enabled the discovery of new pathological mechanisms in developmental diseases and cancers. High-penetrance cancer predisposition is caused by germline hereditary alterations otherwise found at the somatic level in sporadic cancers. Thus, data from both developmental diseases and cancers provide information about possible unknown cancer predisposition mechanisms. This mini-review aims to deduce from these data whether abnormal chromatin folding can cause high-penetrance cancer predisposition.