Numerous compounds stimulate rodent beta-cell proliferation; however, translating these findings to human beta-cells remains a challenge. To examine human beta-cell proliferation in response to such compounds, we developed a mediumthroughput in vitro method of quantifying adult human beta-cell proliferation markers. This method is based on high-content imaging of dispersed islet cells seeded in 384-well plates and automated cell counting that identifies fluorescently labeled beta-cells with high specificity using both nuclear and cytoplasmic markers. beta-Cells from each donor were assessed for their function and ability to enter the cell cycle by cotransduction with adenoviruses encoding cell cycle regulators cdk6 and cyclin D3. Using this approach, we tested 12 previously identified mitogens, including neurotransmitters, hormones, growth factors, and molecules, involved in adenosine and Tgf-1 beta signaling. Each compound was tested in a wide concentration range either in the presence of basal (5 mM) or high (11 mM) glucose. Treatment with the control compound harmine, a Dyrk1a inhibitor, led to a significant increase in Ki-67(+) beta-cells, whereas treatment with other compounds had limited to no effect on human beta-cell proliferation. This new scalable approach reduces the time and effort required for sensitive and specific evaluation of human beta-cell proliferation, thus allowing for increased testing of candidate human beta-cell mitogens.

• 出版日期2016-11-1