Serotonin Regulates Adult β-Cell Mass by Stimulating Perinatal β-Cell Proliferation.
Joon Ho MoonYeong Gi KimKyuho KimSho OsonoiShuang WangDiane C SaundersJuehu WangKatherine YangHyeongseok KimJunguee LeeJi-Seon JeongRonadip R BanerjeeSeung K KimYingjie WuHiroki MizukamiSimeon I TaylorMichael S GermanHail KimPublished in: Diabetes (2019)
A sufficient β-cell mass is crucial for preventing diabetes, and perinatal β-cell proliferation is important in determining the adult β-cell mass. However, it is not yet known how perinatal β-cell proliferation is regulated. Here, we report that serotonin regulates β-cell proliferation through serotonin receptor 2B (HTR2B) in an autocrine/paracrine manner during the perinatal period. In β-cell-specific Tph1 knockout (Tph1 βKO) mice, perinatal β-cell proliferation was reduced along with the loss of serotonin production in β-cells. Adult Tph1 βKO mice exhibited glucose intolerance with decreased β-cell mass. Disruption of Htr2b in β-cells also resulted in decreased perinatal β-cell proliferation and glucose intolerance in adulthood. Growth hormone (GH) was found to induce serotonin production in β-cells through activation of STAT5 during the perinatal period. Thus, our results indicate that GH-GH receptor-STAT5-serotonin-HTR2B signaling plays a critical role in determining the β-cell mass by regulating perinatal β-cell proliferation, and defects in this pathway affect metabolic phenotypes in adults.