Abstract
Without zinc, pancreatic beta cells cannot either assemble insulin molecules or precipitate insulin crystals; thus, a lack of zinc concentration in the beta cells would result in a decreased insulin production. ZIP8 is one of the zinc uptake transporters involved in zinc influx into the cytosol of beta cells. Thus, if ZIP8 is down-regulated, a decreased insulin production would result. We assumed that intermittent hypoxic exposure to the beta cells may result in a decreased production of insulin due to a lack of zinc. To test this hypothesis we harvested pancreatic islets from the rats conditioned under intermittent hypoxia (IH) (fluctuating between 20.5% and 10% every 4 min for 1 h) and compared the results with those from control animals and islets. We also compared their insulin and glucose homeostasis using glucose tolerance tests (GTT) after 3 weeks. GTT results show a significant delay (P<0.05) in recovery of the blood glucose level in IH treated pups. ZIP8 expression in the beta cell membrane was down-regulated. The zinc concentration in the cell as well as insulin production was significantly decreased in the islets harvested from IH animals. However, mRNA for insulin and C-peptide/insulin protein levels in the total cell lysates remained the same as those of controls. When we treated the beta cells using siRNA mediated ZIP8, we observed the commensurate results from the IH-treated islets. We conclude that a transient IH exposure could knockdown ZIP8 transporters at mRNA as well as protein levels in the beta cells, which would decrease the level of blood insulin. However, the transcriptional activity of insulin remains the same. We conclude that the precipitation process of insulin crystal may be disturbed by a lack of zinc in the cytosol that is modulated by mainly ZIP8 after IH exposure.
Highlights
We confirmed that a 5 h intermittent hypoxic (IH) challenge to neonatal pups would result in diabetogenic effects such as an increased blood glucose level and a decreased blood insulin level without any significant morphological changes in pancreatic islets [1]
This result indicates that the average glucose level of 1 h IH treated pups sustains high for a longer time compared to the control pups
The level of blood insulin decreased approximately 29% and the level of C-peptide decreased approximately 37.6% after IH challenge compared to the controls
Summary
We confirmed that a 5 h intermittent hypoxic (IH) challenge to neonatal pups would result in diabetogenic effects such as an increased blood glucose level and a decreased blood insulin level without any significant morphological changes in pancreatic islets [1]. Considering the pandemic incidence of diabetes and comorbid sleep disordered breathing (SDB) during pregnancy [2,3], a report showing a cause-effect relationship between IH challenge and insulin deregulation via a disturbed zinc homeostasis is crucial. Of the two kinds of zinc transporters in pancreatic beta cells, the ZIP (Zrtand Irt-like protein from Slc39a genes) family takes zinc from extracellular spaces or from intracellular organelles, and transfers them into the cytosol [4,5]. Studies on the Slc39a8 gene for ZIP8 transporter in relation to diabetes are rare
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
