Biology Department, Drew University, Madison, New Jersey, USA.
Infect Immun. 2012 May;80(5):1934-43. doi: 10.1128/IAI.06140-11. Epub 2012 Feb 13.
The adipocytokine leptin links nutritional status to immune function. Leptin signaling protects from amebiasis, but the molecular mechanism is not understood. We developed an in vitro model of ameba-host cell interaction to test the hypothesis that leptin prevents ameba-induced apoptosis in host epithelial cells. We demonstrated that activation of mammalian leptin signaling increased cellular resistance to amebic cytotoxicity, including caspase-3 activation. Exogenous expression of the leptin receptor conferred resistance in susceptible cells, and leptin stimulation enhanced protection. A series of leptin receptor signaling mutants showed that resistance to amebic cytotoxicity was dependent on activation of STAT3 but not the Src homology-2 domain-containing tyrosine phosphatase (SHP-2) or STAT5. A common polymorphism in the leptin receptor (Q223R) that increases susceptibility to amebiasis in humans and mice was found to increase susceptibility to amebic cytotoxicity in single cells. The Q223R polymorphism also decreased leptin-dependent STAT3 activation by 21% relative to that of the wild-type (WT) receptor (P = 0.035), consistent with a central role of STAT3 signaling in protection. A subset of genes uniquely regulated by STAT3 in response to leptin was identified. Most notable were the TRIB1 and suppressor of cytokine signaling 3 (SOCS3) genes, which have opposing roles in the regulation of apoptosis. Overall apoptotic genes were highly enriched in this gene set (P < 1E-05), supporting the hypothesis that leptin regulation of host apoptotic genes via STAT3 is responsible for protection. This is the first demonstration of a mammalian signaling pathway that restricts amebic pathogenesis and represents an important advance in our mechanistic understanding of how leptin links nutrition and susceptibility to infection.
脂肪细胞因子瘦素将营养状况与免疫功能联系起来。瘦素信号可预防阿米巴病,但分子机制尚不清楚。我们开发了一种阿米巴与宿主细胞相互作用的体外模型,以检验瘦素是否可防止阿米巴诱导宿主上皮细胞凋亡的假说。我们证明,激活哺乳动物瘦素信号可增加细胞对阿米巴细胞毒性的抵抗力,包括 caspase-3 的激活。易感细胞中瘦素受体的外源性表达赋予了其抗性,而瘦素刺激可增强保护作用。一系列瘦素受体信号转导突变体表明,对阿米巴细胞毒性的抵抗力依赖于 STAT3 的激活,而不依赖于 Src 同源-2 结构域酪氨酸磷酸酶(SHP-2)或 STAT5。在人类和小鼠中,瘦素受体(Q223R)的一个常见多态性增加了对阿米巴病的易感性,在单细胞中也发现其对阿米巴细胞毒性的易感性增加。与野生型(WT)受体相比,Q223R 多态性使瘦素依赖性 STAT3 激活降低了 21%(P = 0.035),这与 STAT3 信号在保护中的核心作用一致。确定了一组 STAT3 响应瘦素而唯一调节的基因。最值得注意的是 TRIB1 和细胞因子信号转导抑制物 3(SOCS3)基因,它们在调节细胞凋亡方面具有相反的作用。总体凋亡基因在该基因集中高度富集(P < 1E-05),支持瘦素通过 STAT3 调节宿主凋亡基因以发挥保护作用的假说。这是首次证明哺乳动物信号通路可限制阿米巴病的发病机制,代表了我们对瘦素如何将营养与感染易感性联系起来的机制理解的重要进展。