Germline Variants of CYBA and TRPM4 Predispose to Familial Colorectal Cancer.

Lizhen Zhu,Obul Reddy Bandapalli,Lara Sanoguera-Miralles,Kari Hemminki,Eladio A Velasco,Dagmara Dymerska,Ying Yuan,Matthias Schlesner,Beiping Miao,Elena Bueno-Martínez,Jan Lubinski,Asta Försti,Abhishek Kumar,Nagarajan Paramasivam,Magdalena Kuswik

doi:10.3390/cancers14030670

Abstract

Simple SummaryWhole-genome sequencing and bioinformatics analysis on unique colorectal cancer families revealed two attractive candidate predisposition genes, CYBA and TRPM4, each with a loss-of-function variant. Supported by our functional studies, we suggest that the two gene defects mechanistically involve intestinal barrier integrity through reactive oxygen species and mucus biology, which converges in chronic bowel inflammation, a known risk factor for colorectal cancer.Familial colorectal cancer (CRC) is only partially explained by known germline predisposing genes. We performed whole-genome sequencing in 15 Polish families of many affected individuals, without mutations in known CRC predisposing genes. We focused on loss-of-function variants and functionally characterized them. We identified a frameshift variant in the CYBA gene (c.246delC) in one family and a splice site variant in the TRPM4 gene (c.25–1 G > T) in another family. While both variants were absent or extremely rare in gene variant databases, we identified four additional Polish familial CRC cases and two healthy elderly individuals with the CYBA variant (odds ratio 2.46, 95% confidence interval 0.48–12.69). Both variants led to a premature stop codon and to a truncated protein. Functional characterization of the variants showed that knockdown of CYBA or TRPM4 depressed generation of reactive oxygen species (ROS) in LS174T and HT-29 cell lines. Knockdown of TRPM4 resulted in decreased MUC2 protein production. CYBA encodes a component in the NADPH oxidase system which generates ROS and controls, e.g., bacterial colonization in the gut. Germline CYBA variants are associated with early onset inflammatory bowel disease, supported with experimental evidence on loss of intestinal mucus barrier function due to ROS deficiency. TRPM4 encodes a calcium-activated ion channel, which, in a human colonic cancer cell line, controls calcium-mediated secretion of MUC2, a major component of intestinal mucus barrier. We suggest that the gene defects in CYBA and TRPM4 mechanistically involve intestinal barrier integrity through ROS and mucus biology, which converges in chronic bowel inflammation.

Highlights

Colorectal cancer (CRC) is the third most commonly diagnosed cancer and the second leading cause of death from cancer [1]
Persons with positive colorectal cancer (CRC) family history were invited to genetic outpatient clinics all over Poland, and their more detailed family histories were collected through face-to-face detailed interviews
The literature search indicated a role in inflammation and mucin homeostasis of the intestine for two genes, CYBA and TRPM4, that were mutated in two unrelated families (Figure 1); these were investigated further

Summary

Introduction

Colorectal cancer (CRC) is the third most commonly diagnosed cancer and the second leading cause of death from cancer [1]. Lynch-syndromerelated CRC, caused by germline mutations in mismatch repair (MMR) genes MLH1, MSH2, MSH6, PMS2 and EPCAM, accounts for the majority of hereditary CRC. These tumors are characterized by deficient MMR (dMMR). With the advancement of next-generation sequencing technologies, increasing number of genes have been reported to be possible candidates for CRC predisposition. These include POLE, POLD1, NTHL1, GERM1, GALNT12, RNF43, RPS20, MLH3 and MSH3 [3,6–9]

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