R-spondin1 deficiency in mice improves glycaemic control in association with increased beta cell mass

The present study reveals an unexpected role for RSPO1 as a regulator of both beta cell proliferation and neogenesis in vivo, and reinforces the importance of cWNT signalling for the maintenance of normal pancreatic beta cell behaviour.

The effects of Rspo1 deficiency were assessed by determination of cWNT signalling, glucose tolerance and beta cell mass.

Rspo1 ( -/- ) mice demonstrated an 82% reduction in RSPO1 transcripts and a 61% reduction in the signal detected by an RSPO1 antibody, as well as a 47% decrease in islet cWNT signalling. Despite no differences in body and pancreatic weights or in fasting glycaemia and insulinaemia compared with Rspo1 (+/+) mice, Rspo1 ( -/- ) animals had improved glycaemic control after oral glucose challenge (p < 0.05), with no difference in insulin sensitivity, but an enhanced insulin response over 30 min (p < 0.05); glucagon responses were normal. Rspo1 deficiency also resulted in a twofold increase in beta cell mass (p < 0.05) in association with 2- and 12-fold increases in the number of beta cells positive for antigen identified by monoclonal antibody Ki67 (Ki67) (p < 0.01) and insulin-positive ductal cells (p < 0.05), respectively. No change in the number of TUNEL-positive beta cells was detected. Islets isolated from Rspo1 ( -/- ) animals displayed no differences in glucose-induced insulin secretion or in glucose suppression of glucagon. Conclusions/interpretation: The present study reveals an unexpected role for RSPO1 as a regulator of both beta cell proliferation and neogenesis in vivo, and reinforces the importance of cWNT signalling for the maintenance of normal pancreatic beta cell behaviour.