Glucose-responsive (GR) neurons in the hypothalamus are thought to be critical in glucose homeostasis, but it is not known how they function in this context. Kir6.2 is the pore-forming subunit of K(ATP) channels in many cell types, including pancreatic beta-cells and heart. Here we show the complete absence of both functional ATP-sensitive K+ (K(ATP)) channels and glucose responsiveness in the neurons of the ventromedial hypothalamus (VMH) in Kir6.2-/- mice. Although pancreatic alpha-cells were functional in Kir6.2-/-, the mice exhibited a severe defect in glucagon secretion in response to systemic hypoglycemia. In addition, they showed a complete loss of glucagon secretion, together with reduced food intake in response to neuroglycopenia. Thus, our results demonstrate that KATP channels are important in glucose sensing in VMH GR neurons, and are essential for the maintenance of glucose homeostasis.
Polycomb-group (PcG) proteins are essential regulators of hematopoietic stem cells (HSCs). In contrast to Bmi1, a component of Polycomb repressive complex 1 (PRC1), the role of PRC2 and its components in hematopoiesis remains elusive. Here we show that Ezh2, a core component of PRC2, is essential for fetal, but not adult, HSCs. Ezh2-deficient embryos died of anemia because of insufficient expansion of HSCs/progenitor cells and defective erythropoiesis in fetal liver. Deletion of Ezh2 in adult BM, however, did not significantly compromise hematopoiesis, except for lymphopoiesis. Of note, Ezh2-deficient fetal liver cells showed a drastic reduction in trimethylation of histone H3 at lysine 27 (H3K27me3) accompanied by derepression of a large cohort of genes, whereas on homing to BM, they acquired a high level of H3K27me3 and long-term repopulating capacity. Quantitative RT-PCR revealed that Ezh1, the gene encoding a backup enzyme, is highly expressed in HSCs/progenitor cells in BM compared with those in fetal liver, whereas Ezh2 is ubiquitously expressed. These findings suggest that Ezh1 complements Ezh2 in the BM, but not in the fetal liver, and reveal that the reinforcement of PcG-mediated gene silencing occurs during the transition from proliferative fetal HSCs to quiescent adult HSCs.
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