Isolated pancreatic islet yield and quality is inversely related to organ donor age in rats.

Pancreatic islets consist of several endocrine cell types that maintain glucose homeostasis. Type 1 diabetes (T1D) results from autoimmune-mediated destruction of insulin producing beta cells in pancreatic islets. Islet transplantation is a treatment for certain individuals with T1D. Islet transplantation in rodents, as an experimental model of the clinical scenario, requires consistency of islet quantity and quality to obtain reproducible results. In this study, we investigated the yield and function of the isolated islets from rats of different ages. Pancreata were harvested from young (10-20 week-old), intermediate (21-40 week-old) and old (>41 week-old) male rats and islets were isolated using a standard protocol. Islet number, morphometry, viability, function, and metabolism were characterized. Islet yield, normalized to body weight, decreased as a function of increasing donor age. Islets from pancreata from young animals were larger and less fragmented compared to islets from organs from intermediate and older animals. Islet viability following overnight culture was the same for islets derived from young and intermediate aged donors but less for islets from old donors. Glucose-stimulated insulin secretion was decreased in islets from older donors. Islet metabolism following glucose challenge, as measured by oxygen consumption, revealed that islets from old donors were metabolically slower and lagged in response to glucose-stimuli. These data demonstrate that increasing donor age has a negative impact on isolated islet yield and quality.