蛋白质修饰对Wnt信号通路的调控

Wnt信号通路与细胞的生长发育和分化等密切相关,是细胞中重要的信号转导途径,在 多种癌症中,都有该通路的异常改变.Wnt信号通路主要是通过一系列蛋白将Wnt信号传导至β连环蛋白（β-catenin,β-cat）,使后者入核并与转录因子T细胞因子/淋巴细胞增 强因子（T cell factor / lymphoid enhancer factor,TCF/LEF）结合,从而促进下游基因的转录,进而调控细胞的多种生理过程.在该通路中,涉及轴蛋白（Axin）、结肠腺瘤样息 肉病蛋白(adenomatous polyposis coli,APC)、糖原合酶激酶3β (glycogen synthase kinase-3β, GSK-3β)、β连环蛋白和酪蛋白激酶I (casein kinase I,CKI)等众多调节因子,这些因子能发生多种化学修饰,如磷酸化、泛素化（ubiquitylation）、苏素化 (small ubiquitin related moditier,SUMO)和乙酰化等,从而影响β连环蛋白、T细胞因子的稳定性、细胞定位以及活性,最终起到调节Wnt信号通路的作用.     

Both Wnt and mTOR signaling pathways are involved in insulin-stimulated proto-oncogene expression in intestinal cells

Subjects with Type II diabetes mellitus are more vulnerable in developing colorectal tumors, suggesting that hyperinsulinemia may stimulate proto-oncogene expression, and the existence of crosstalk between insulin signaling and pathways that are involved in colorectal tumor formation. We show here that insulin stimulates cell proliferation and c-Myc expression in colon cancer cell lines HT29 and Caco-2, intestinal non-cancer cell line IEC-6, and primary fetal rat intestinal cell (FRIC) cultures. The effect of insulin was blocked by phosphoinositide-3 Kinase (PI3K) inhibition, but only partially attenuated by inhibition of Protein kinase B (PKB), indicating the existence of both PKB-dependent and -independent mechanisms. The PKB-dependent mechanism of insulin-stimulated c-Myc expression in HT29 cells was shown to involve the activation of mTOR in c-Myc translation. In the investigation of the PKB-independent mechanism, we found that insulin-induced nuclear translocation of beta-catenin (beta-cat), an effector of Wnt signaling. Furthermore, insulin stimulated the expression of TopFlash, a Wnt-responsive reporter gene. Finally, chromatin immunoprecipitation (ChIP) detected significant increases in the binding of beta-cat to two TCF binding sites of the human c-Myc promoter following insulin treatment. Our observations support the existence of crosstalk between insulin and Wnt signaling pathways, and suggest that the crosstalk involves a PKB-independent mechanism.     

Wnt信号通路与前体脂肪细胞

Wnt蛋白是一类分泌型蛋白生长因子,通过自分泌和旁分泌作用调节多种细胞的发生和发育.新近研究表明,Wnt信号通路在前体脂肪细胞的增殖分化中发挥着重要作用.Wnt蛋白的配基通过与细胞膜上的特异性受体Frizzled1/2/5及辅助受体LRP5/6结合,激活经典或非经典的Wnt信号通路,影响下游靶基因产物的磷酸化作用,进而抑制C/EBPα、PPARγ等脂肪细胞关键转录因子,使细胞保持未分化状态,从而抑制脂肪的形成.本文就Wnt信号通路的研究史和主要分支、作用方式及其抑制脂肪细胞的机制方面进行了综述,并对今后的研究方向和应用作了展望.