Tissue Preservation, Life care and Biobanking (B2B & Networking)

Type-1 diabetes mellitus is a chronic autoimmune disorder in which genetic and epigenetic factors contributed equally to its pathogenesis. Histone deacetylase (HDAC) inhibitors such as sodium butyrate (NaB) had been reported to protect beta-cell damages and improve the glucose homeostasis by the modulation of p38/ ERK MAPK pathway. Th e aim of this work is to evaluate the role of NaB on ultrastructure of pancreatic beta- cells and PI3/Akt pathway. 30 juvenile male albino rats (5-6 weeks) were divided into 6 groups: Group I: Untreated control. GroupII: NaB control, received 500mg/kg/day NaB i.p. for 3 weeks. Group III: 3 days diabetic control received STZ (60mg/kg) i.p. Group IV: 3 weeks diabetic control received STZ (60mg/ kg) i.p .Group V: pre-treatment with NaB for 3 weeks prior to diabetes induction. Group VI: post-treatment with NaB for 3 weeks aft er diabetes induction. Plasma glucose, insulin levels, glucose tolerance were evaluated. Light, electron microscopy and immunohistochemistry was performed using ki67, caspase3, insulin and acetylated histone H3. NaB treatment resulted in a signifi cant improvement in plasma glucose level, plasma insulin level / expression and ameliorated the diabetes-induced histological alternations. Decrease in number of apoptotic cells had been demonstrated. Additionally, it inhibited the HDAC activity and increased the acetylation of histone H3 and expression of phosphorylated Akt.

Conclusion: Th ese fi ndings provide evidence that NaB might be useful for the treatment of juvenile diabetes.