Kim Ji-Sun, Seo Ji-Hui, Kang Sa-Ouk
Biochim Biophys Acta. 2014 Mar;1843(3):664-74. doi: 10.1016/j.bbamcr.2013.12.014.
Reduced glutathione (GSH) is an essential metabolite that performs multiple indispensable roles during the development of Dictyostelium. We show here that disruption of the gene (gcsA-) encoding y-glutamylcysteine synthetase, an essential enzyme in GSH biosynthesis, inhibited aggregation, and that this developmental defect was rescued by exogenous GSH, but not by other thiols or antioxidants. In GSH-depleted gcsA- cells, the expression ofa growth-stage-specific gene (cprD) was not inhibited, and we did not detect the expression of genes that encode proteins required for early development (cAMP receptor, carA/cAR1; adenylyl cyclase, acaA/ACA; and the catalytic subunit of protein kinase A, pkaC/PKA-C). The defects in gcsA cells were not restored by cAMP stimulation or by cAR1 expression. Further, the expression of yakA, which initiates development and induces the expression of PKA-C, ACA, and cAR1, was regulated by the intracellular concentration of GSH. Constitutive expression of YakA in gcsA- cells (YakA(OE)/gcsA-) rescued the defects in developmental initiation and the expression of early developmental genes in the absence of GSH. Taken together, these findings suggest that GSH plays an essential role in the transition from growth to development by modulating the expression of the genes encoding YakA as well as components thatact downstream in the YakA signaling pathway.
还原型谷胱甘肽(GSH)是一种必需的代谢产物,在盘基网柄菌的发育过程中发挥着多种不可或缺的作用。我们在此表明,编码γ-谷氨酰半胱氨酸合成酶(GSH生物合成中的一种必需酶)的基因(gcsA-)的破坏会抑制聚集,并且这种发育缺陷可通过外源性GSH挽救,但不能通过其他硫醇或抗氧化剂挽救。在GSH耗尽的gcsA-细胞中,生长阶段特异性基因(cprD)的表达未受抑制,并且我们未检测到编码早期发育所需蛋白质的基因(cAMP受体,carA/cAR1;腺苷酸环化酶,acaA/ACA;以及蛋白激酶A的催化亚基,pkaC/PKA-C)的表达。gcsA细胞中的缺陷不能通过cAMP刺激或cAR1表达来恢复。此外,启动发育并诱导PKA-C、ACA和cAR1表达的yakA的表达受细胞内GSH浓度的调节。在gcsA-细胞中组成型表达YakA(YakA(OE)/gcsA-)可在没有GSH的情况下挽救发育起始缺陷和早期发育基因的表达。综上所述,这些发现表明GSH通过调节编码YakA的基因以及在YakA信号通路中起下游作用的成分的表达,在从生长到发育的转变中发挥着重要作用。
