Role of vitamin D in adipose tissue in obese rats programmed by early weaning and post diet calcium

Scope Early weaning (EW) is associated with an impairment of offspring development and leads to overweight and higher 25-hydroxyvitamin D (25(OH)D) levels in adulthood, which can be corrected by calcium supplementation, potentially via vitamin D regulation of adipogenesis. Methods and results We examined vitamin D status in adipose tissue in EW obese rats, treated with calcium. Dams were separated into: EW- dams were wrapped with a bandage to interrupt lactation (last 3 days), and C- pups with free access to milk. At PN120, EW pups were divided in: EW- standard diet, and EWCa- calcium supplementation (10 g of calcium carbonate/kg of chow). On PN21, EW group has hypocalcemia. On PN180, EW group showed lower intestinal calbidin, higher adiposity, and 25(OH)D. In adipose tissue, Cyp27b1/1alpha-Hydroxylase, C/EBPB, PPAR-γ, IL6, TNF-A, and MCP1 were increased, while VDR and IL10 were decreased. Calcium increased calbidin, VDR and prevented adipose tissue dysfunction. EW group has a long-term effect of vitamin D on adipocyte, contributing to pro-inflammatory status and obesity. Conclusion We propose that in obese rat adipocytes, 1,25(OH)2 D down-regulates VDR, resulting in vitamin D resistance, characterized by higher Cyp27b1/1α-Hydroxylase and adipogenesis. Calcium therapy appears to be an outstanding strategy for weight loss and improving endocrine metabolic disorders that are obesity associated.