Laboratory of Biochemistry, Department of Chemistry, Aristotle University of Thessaloniki, Thessaloniki, GR-54124, Greece.
Cell Signal. 2011 Aug;23(8):1327-37. doi: 10.1016/j.cellsig.2011.03.015. Epub 2011 Apr 3.
AtoSC two-component system participates in many indispensable processes of Escherichia coli. We report here that the AtoSC signal transduction is inhibited by established histidine kinase inhibitors. Closantel, RWJ-49815 and TNP-ATP belonging to different chemical classes of inhibitors, abrogated the in vitro AtoS kinase autophosphorylation. However, when AtoS was embedded in the membrane fractions, higher inhibitor concentrations were required for total inhibition. When AtoS interacted with AtoC forming complex, the intrinsic histidine kinase was protected by the response regulator, requiring increased inhibitors concentrations for partially AtoS autophosphorylation reduction. The inhibitors exerted an additional function on AtoSC, blocking the phosphotransfer from AtoS to AtoC, without however, affecting AtoC~P dephosphorylation. Their in vivo consequences through the AtoSC inhibition were elucidated on atoDAEB operon expression, which was inhibited only in AtoSC-expressing bacteria where AtoSC was induced by acetoacetate or spermidine. The inhibitor effects were extended on the AtoSC regulatory role on cPHB [complexed poly-(R)-3-hydroxybutyrate] biosynthesis. cPHB was decreased upon the blockers only in acetoacetate-induced AtoSC-expressing cells. Increased ATP amounts during bacterial growth reversed the inhibitory TNP-ATP-mediated effect on cPHB. The alteration of pivotal E. coli processes as an outcome of AtoSC inhibition, establish this system as a target of two-component systems inhibitors.
AtoSC 双组分系统参与了大肠杆菌许多不可或缺的过程。我们在这里报告,AtoSC 信号转导受到已建立的组氨酸激酶抑制剂的抑制。氯硝柳胺、RWJ-49815 和 TNP-ATP 属于不同化学类别的抑制剂,它们抑制了体外 AtoS 激酶的自磷酸化。然而,当 AtoS 嵌入膜部分时,需要更高的抑制剂浓度才能完全抑制。当 AtoS 与 AtoC 形成复合物时,固有组氨酸激酶被响应调节剂保护,需要增加抑制剂浓度才能部分减少 AtoS 的自磷酸化。抑制剂对 AtoSC 具有额外的功能,阻断了从 AtoS 到 AtoC 的磷酸转移,但不影响 AtoC~P 的去磷酸化。通过 AtoSC 抑制,它们在 atoDAEB 操纵子表达方面的体内后果得到了阐明,只有在 AtoSC 被乙酰乙酸盐或亚精胺诱导表达的细菌中,该操纵子才受到抑制。抑制剂的作用还扩展到了 AtoSC 对 cPHB[复合聚(R)-3-羟基丁酸酯]生物合成的调节作用。只有在乙酰乙酸盐诱导的 AtoSC 表达细胞中,cPHB 才会在阻断剂的作用下减少。在细菌生长过程中增加 ATP 量会逆转 TNP-ATP 介导的对 cPHB 的抑制作用。AtoSC 抑制的结果改变了关键的大肠杆菌过程,这使得该系统成为双组分系统抑制剂的靶点。
