You are here

Genetic risk of cholangiocarcinoma is linked to the autophagy gene ATG7

Authors: 
Greer SU, Ogmundsdottir MH, Chen J, Lau BT, Delacruz RGC, Sandoval IT, Kristjansdottir S, Jones DA, Haslem DS, Romero R, Fulde G, Bell JM, Jonasson JG, Steingrimsson E, Ji HP, Nadauld LD
Citation: 
bioRxiv. 2019;[preprint] doi:10.1101/836767
Abstract: 
Cholangiocarcinoma is an aggressive cancer originating from the bile duct. Although cholangiocarcinoma does occur in families, to date no specific causative gene has been identified. We identified ATG7 as a cancer susceptibility gene using a joint genetic analysis of an extended pedigree with familial cholangiocarcinoma in combination with a population genetic association study. Affected family members had a germline mutation (c.2000C>T [p.Arg659*]) in the autophagy related gene, ATG7, and all of the affected individuals had cholangiocarcinoma tumors harboring somatic genomic deletions of ATG7. From a population genetic study, we identified a germline polymorphism of ATG7 (c.1591C>G [p.Asp522Glu]) associated with increased risk of cholangiocarcinoma. The autophagy substrate p62 demonstrated a higher accumulation in tumors of p.Asp522Glu carriers compared with non-carriers indicating defective autophagy. To determine whether the germline ATG7 mutation had functional consequences, we developed an ATG7-deficient cholangiocyte cell line, derived from human bile duct, to test for autophagy-mediated lipidation activity. The germline mutation from the familial cholangiocarcinoma demonstrated a lack of lipidation activity compared to the wildtype ATG7. Moreover, in zebrafish embryos depleted of atg7, a reproducible necrotic head phenotype was rescued by injection of wildtype ATG7 but not mutant ATG7. Our findings point to ATG7 as a causative genetic risk factor for cholangiocarcinoma and implicate autophagy as a novel cancer driver mechanism.
Epub: 
Not Epub
Organism or Cell Type: 
zebrafish
Delivery Method: 
microinjection