Dietary zinc supplementation inhibits NF kappa B activation and protects against chemically induced diabetes in CD1 mice

Zinc status in patients with Type I diabetes is significantly lower than he althy controls. Whether zinc supplementation can prevent the onset of Type I diabetes is unknown. Recent studies have suggested that the generation of reactive oxygen species (ROS) is a cause of beta cell death leading to Typ e I diabetes. In addition, we found that activation of NF kappaB (a ROS-sen sitive transcription factor that regulates immune responses) may be the key cellular process that bridges oxidative stress and the death of beta cells . Zinc is a known antioxidant in the immune system. Therefore, this study i s designed to test whether an increase in dietary zinc can prevent the onse t of Type I diabetes by blocking NF kappaB activation in the pancreas. The results show that high zinc intake significantly reduced the severity of Ty pe I diabetes (based on hyperglycemia, insulin level, and islet morphology) in alloxan and streptozotocin-induced diabetic models. Zinc supplementatio n also inhibited NF kappaB activation and decreased the expression of induc ible NO synthase, a downstream target gene of NF kappaB, It is concluded th at zinc supplementation can significantly inhibit the development of Type I diabetes. The ability of zinc to modulate NF kappaB activation in the diab etogenic pathway may be the key mechanism for zinc's protective effect. Inh ibition of the NF kappaB pathway may prove to be an important criterion for choosing nutritional strategies for Type I diabetes prevention.