Regulation of Aerobic Succinate Transporter dctA of E. coli by cAMP-CRP, DcuS-DcuR, and EIIAGlc: Succinate as a Carbon Substrate and Signaling Molecule.

Pub Date : 2024-01-01 Epub Date: 2024-03-01 DOI:10.1159/000538095
Christopher Schubert, Gottfried Unden
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Abstract

Introduction: C4-dicarboxylates (C4-DC) have emerged as significant growth substrates and signaling molecules for various Enterobacteriaceae during their colonization of mammalian hosts. Particularly noteworthy is the essential role of fumarate respiration during colonization of pathogenic bacteria. To investigate the regulation of aerobic C4-DC metabolism, the study explored the transcriptional control of the main aerobic C4-DC transporter, dctA, under different carbohydrate conditions. In addition, mutants related to carbon catabolite repression (CCR) and C4-DC regulation (DcuS-DcuR) were examined to better understand the regulatory integration of aerobic C4-DC metabolism into CCR. For initial insight into posttranslational regulation, the interaction between the aerobic C4-DC transporter DctA and EIIAGlc from the glucose-specific phosphotransferase system was investigated.

Methods: The expression of dctA was characterized in the presence of various carbohydrates and regulatory mutants affecting CCR. This was accomplished by fusing the dctA promoter (PdctA) to the lacZ reporter gene. Additionally, the interaction between DctA and EIIAGlc of the glucose-specific phosphotransferase system was examined in vivo using a bacterial two-hybrid system.

Results: The dctA promoter region contains a class I cAMP-CRP-binding site at position -81.5 and a DcuR-binding site at position -105.5. DcuR, the response regulator of the C4-DC-activated DcuS-DcuR two-component system, and cAMP-CRP stimulate dctA expression. The expression of dctA is subject to the influence of various carbohydrates via cAMP-CRP, which differently modulate cAMP levels. Here we show that EIIAGlc of the glucose-specific phosphotransferase system strongly interacts with DctA, potentially resulting in the exclusion of C4-DCs when preferred carbon substrates, such as sugars, are present. In contrast to the classical inducer exclusion known for lactose permease LacY, inhibition of C4-DC uptake into the cytoplasm affects only its role as a substrate, but not as an inducer since DcuS detects C4-DCs in the periplasmic space ("substrate exclusion"). The work shows an interplay between cAMP-CRP and the DcuS-DcuR regulatory system for the regulation of dctA at both transcriptional and posttranslational levels.

Conclusion: The study highlights a hierarchical interplay between global (cAMP-CRP) and specific (DcuS-DcuR) regulation of dctA at the transcriptional and posttranslational levels. The integration of global and specific transcriptional regulation of dctA, along with the influence of EIIAGlc on DctA, fine-tunes C4-DC catabolism in response to the availability of other preferred carbon sources. It attributes DctA a central role in the control of aerobic C4-DC catabolism and suggests a new role to EIIAGlc on transporters (control of substrate uptake by substrate exclusion).

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cAMP-CRP、DcuS-DcuR 和 EIIAGlc 对大肠杆菌有氧琥珀酸转运体 dctA 的调控:作为碳底物和信号分子的琥珀酸。
引言 C4-二羧酸盐(C4-DC)在哺乳动物宿主的定殖过程中成为肠杆菌科细菌的重要生长底物和信号分子。本研究探讨了主要需氧 C4-DC 转运体 dctA 在不同碳水化合物条件下的转录控制。研究还考察了与碳代谢抑制(CCR)和 C4-DC 调控(DcuS-DcuR)相关的突变体,以更好地了解它们在需氧 C4-DC 代谢中的调控整合。此外,还研究了有氧 C4-DC 转运体 DctA 与葡萄糖特异性磷酸转移酶系统中的 EIIAGlc 之间的相互作用。方法 在存在各种碳水化合物和调控突变体的情况下对 dctA 的表达进行了表征。这是通过将 dctA 启动子(PdctA)与 lacZ 报告基因融合实现的。利用细菌双杂交系统对 DctA 和 EIIAGlc 之间的相互作用进行了活体检测。结果 dctA 启动子区域在 -81.5 位包含一个 I 类 cAMP-CRP 结合位点,在 -105.5 位包含一个 DcuR 结合位点。DcuR是DcuS-DcuR的反应调节因子,cAMP-CRP刺激dctA的表达。dctA 的表达受各种碳水化合物通过 cAMP-CRP 的影响,cAMP-CRP 可调节 cAMP 水平。在这里,我们发现 EIIAGlc 与 DctA 有很强的相互作用,当存在糖类等首选碳底物时,可能导致 C4-DCs 被排除。与乳糖渗透酶 LacY 的经典诱导物排斥作用不同,抑制 C4-DC 吸收到细胞质中只会影响其作为底物的作用,而不会影响其作为诱导物的作用,因为 DcuS 会检测细胞质周围空间中的 C4-DC("底物排斥")。研究结果表明,cAMP-CRP 和 DcuS-DcuR 调节系统在转录和翻译后水平上对 dctA 起着相互作用。结论 该研究强调了 dctA 在转录和翻译后水平上的全局(cAMP-CRP)和特异(DcuS-DcuR)调控之间的分层相互作用。全局调控和特异性转录调控的整合,以及 EIIAGlc 对 DctA 的影响,根据首选碳源的可用性对 C4-DC 分解代谢进行了微调。该研究认为 DctA 在控制有氧 C4-DC 分解代谢中发挥了核心作用,并提出了 EIIAGlc 在转运体上的新作用(通过底物排斥控制底物吸收)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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