Autophagy-associated circRNA circATG7 facilitates autophagy and promotes pancreatic cancer progression

Dysregulation of autophagy and circular RNAs (circRNAs) are involved in the pancreatic cancer (PC) progression. However, the regulatory network between circRNAs, autophagy, and PC progression remains unknown. Herein, we demonstrated that autophagy-associated circRNA circ-autophagy related 7 (circATG7) was elevated in PC tissues compared to adjacent tissues, and in PC cells treated with EBSS and hypoxia. circATG7 expression was positively associated with tumor diameter and lymph node invasion in patients with PC. circATG7 overexpression promoted PC cell proliferation, mobility, and autophagy in vitro, while circATG7 knockdown induced the opposite effects. ATG7 inhibition attenuated the effects of circATG7 on the biological functions of PC cells. CircATG7 is located in the cell cytoplasm and nucleus. Cytoplasmic circATG7 sponged miR-766-5p and decreased its expression, and increased the expression of ATG7, a target gene of miR-766-5p. Nuclear circATG7 acted as a scaffold to increase the interaction between the human antigen R protein and ATG7 mRNA and enhanced ATG mRNA stability. Furthermore, we demonstrated that circATG7 regulates PC cell proliferation and metastasis in vivo via ATG7-dependent autophagy. In conclusion, our results demonstrated that circATG7 accelerates PC progression via miR-766-5p/ATG7 and that HUR/ATG7 depends on autophagic flux. Thus, circATG7 may be a potential therapeutic target for PC.

Automated summary

This study investigates the role of autophagy-associated circRNA circATG7 in the progression of pancreatic cancer. The results show that circATG7 is upregulated in pancreatic cancer tissues and cells, and its expression is associated with tumor diameter and lymph node invasion. CircATG7 promotes cancer cell proliferation, mobility, and autophagy, while its knockdown has the opposite effects. Furthermore, circATG7 regulates the cancer cells' biological functions through the miR-766-5p/ATG7 pathway and the HUR/ATG7 interaction, which is dependent on autophagy flux.