Zinc sulphate induces metallothionein in pancreatic islets of mice and protects against diabetes induced by multiple low doses of streptozotocin

Aims/hypothesis. Diabetes is induced by multiple low closes of streptozotoc in (MLD-STZ) in male mice of susceptible strains. In this model beta-cell i njury and T-cell-mediated inflammatory reactions are induced. probably reac tive oxygen species (ROS) participate in the destruction of beta cells. The effects of ROS can be counterbalanced by several antioxidant systems. One of these is metallothionein (MT), cytosolic proteins that are induced by zi nc ions (Zn2+) and scavenge hydroxyl radicals ((OH)-O-.). The effect of Zn2 + on MLD-STZ-diabetes was studied. Methods. We gave C57BL/6 and (C57BL/6 x SJL)F-1 hybrid mice either MLD-STZ or in addition Zn2+-enriched drinking water. We analysed metallothionein ex vivo in pancreatic islets for protein and mRNA concentration for the isofo rms 1 and 2. Pancreatic sections were examined by immunohistochemistry for metallothionein and histologically for insulitis. Results. In both strains, Zn2+-enriched drinking water significantly up-reg ulated metallothionein and prevented MLD-STZ-diabetes and loss of beta-cell function. In the F-1 hybrid mice a variant of MLD-STZ-diabetes was observe d. These mice developed hyperglycaemia 10 weeks after the first injection o f STZ (in contrast to 2 weeks observed in other mouse strains) and pronounc ed insulitis, The mRNA of the metallothionein isoforms 1 and 2 were constit utively expressed and slightly up-regulated by Zn2+-enriched drinking water , All islets cells stained for metallothionein. Conclusions/interpretations. Drinking water enriched with Zn2+ significantl y up-regulated metallothionein production in pancreatic islets of mice and prevented diabetes induced with MLD-STZ.