Genome-wide screening for regulators of degradation of insulin secretory granules with a fluorescent reporter.

Insulin is essential in controlling blood glucose levels, and its synthesis and secretion have been well investigated. In contrast, how insulin secretory granules (ISGs) are degraded in pancreatic beta cells remains largely unknown. To clarify the mechanism, we constructed a fluorescent reporter detecting ISG degradation, where EGFP and mCherry are tandemly conjugated to a cytoplasmic region of ZnT8, an ISG membrane-localized protein. Depletion of serum and amino acid stimulated lysosomal ISG degradation detected with the reporter. Next, with MIN6 cells expressing Cas9 and the reporter, we investigated the involvement of conventional Atg5/7-dependent autophagy to show that it is dispensable for the ISG degradation process. Finally, we performed genome-wide screening by enriching the cells lacking the ISG degradation and showed that pathways regulating autophagy are not identified. These results suggest that alternative degradation in lysosomes, instead of conventional autophagy, may be involved in ISG degradation. • ・How intracellular insulin secretory granules are degraded remains largely unknown. • ・We constructed a ZnT8-mCherry-EGFP reporter to monitor the degradation. • ・The essential regulators of conventional autophagy are dispensable for the process. • ・Genome-wide screening neither identified pathways related to conventional autophagy. [ABSTRACT FROM AUTHOR]