Regulation of insulin secretion, glucokinase gene transcription and beta cell proliferation by adipocyte-derived Wnt signalling molecules

Abstract: Aims/hypothesis Adipocytes secrete signalling molecules that elicit responses from target cells, including pancreatic beta cells. Wnt signalling molecules have recently been identified as novel adipocyte-derived factors. They also regulate insulin secretion in pancreatic beta cells and the cell cycle. The aim of this study was to investigate the effect of adipocyte-derived Wnt signalling molecules on insulin secretion and beta cell proliferation. Methods Human adipocytes were isolated to generate fat cell-cond… Show more

“…There is strong evidence that the Wnt signalling pathway regulates prenatal and postnatal beta cell development in mice as well as glucose sensing in pancreatic beta cells [27,28]. Also, the activation of Wnt signalling in beta cell lines or in isolated islets has been shown to enhance beta cell proliferation [10,[29][30][31]. Thus, increased β-catenin levels in islets caused an expansion of beta cell mass, whereas the depletion of TCF7L2 reduced proliferation in human islets [10,30].…”

Downregulation of Sfrp5 promotes beta cell proliferation during obesity in the rat

“…There is strong evidence that the Wnt signalling pathway regulates prenatal and postnatal beta cell development in mice as well as glucose sensing in pancreatic beta cells [27,28]. Also, the activation of Wnt signalling in beta cell lines or in isolated islets has been shown to enhance beta cell proliferation [10,[29][30][31]. Thus, increased β-catenin levels in islets caused an expansion of beta cell mass, whereas the depletion of TCF7L2 reduced proliferation in human islets [10,30].…”

Downregulation of Sfrp5 promotes beta cell proliferation during obesity in the rat

“…Subsequent studies implicated β-cell dysfunction as the underlying cause of diabetes in patients with the TCF7L2 risk variant [2][3][4][5] and have suggested that Wnt signalling plays an important role in both pancreatic development and in the function of mature pancreatic islets [6]. The activation of the canonical Wnt pathway, by ligands such as Wnt3a, has been of particular interest as it can increase β-cell proliferation, decrease apoptosis and improve glucose stimulated insulin secretion [6][7][8][9][10][11][12]. However there is now increasing evidence that non-canonical Wnt ligands such as Wnt4 can antagonise the signalling mediated by Wnt3a and may play an equally important role in β-cell function [13][14][15].…”

Wnt4 antagonises Wnt3a mediated increases in growth and glucose stimulated insulin secretion in the pancreatic beta-cell line, INS-1

“…The underlying defect is most probably impaired sensing of glucose by the affected beta cells [6]. In line with this, molecular studies indicate co-activation of the gene encoding glucokinase-a major regulator of glucose-sensing in beta-cells-by β-catenin [3]. In addition, knocking down the gene encoding TCF7L2 in adult murine and human islets in vitro reduces beta cell proliferation and insulin secretion [7], emphasising the importance of this transcription factor for beta cell function.…”

“…1a) [2]. WNT-signalling molecules are expressed on murine and human beta cells and WNT signalling has recently been identified as a regulator of beta cell proliferation and insulin secretion in vitro and in animal studies [3,4].…”

“…Krützfeldt and Stoffel suggest WNT4 might protect beta cells from canonical WNT activation by exogenous WNT ligands. Under in vitro conditions, adipocytes can activate WNT signalling in beta cells [3], but it is not proven whether such cross-talk is possible in vivo. Interestingly, WNT-signalling molecules have been detected in the systemic blood circulation in humans and there is evidence that the WNT antagonist dickkopf 1 (DKK-1), which is detectable in peripheral blood, derives from (among other tissues) adipocytes [10].…”

Wingless-type MMTV integration site family (WNT) signalling in pancreatic beta cells—more complex than expected