Instituto Nacional de Ciência e Tecnologia em Tuberculose (INCT-TB), Centro de Pesquisas em Biologia Molecular e Funcional (CPBMF), Pontifícia Universidade Católica do Rio Grande do Sul (PUCRS), Partenon, Porto Alegre, Brazil.
Programa de Pós-Graduação em Biologia Celular e Molecular, PUCRS, Partenon, Porto Alegre, Brazil.
Microbiol Spectr. 2021 Dec 22;9(3):e0000921. doi: 10.1128/Spectrum.00009-21.
The epidemiological importance of mycobacterial species is indisputable, and the necessity to find new molecules that can inhibit their growth is urgent. The shikimate pathway, required for the synthesis of important bacterial metabolites, represents a set of targets for inhibitors of Mycobacterium tuberculosis growth. The -encoded 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) enzyme catalyzes the sixth step of the shikimate pathway. In this study, we combined gene disruption, gene knockdown, point mutations (D61W, R134A, E321N), and kinetic analysis to evaluate gene essentiality and vulnerability of its protein product, EPSPS, from () (EPSPS). We demonstrate that -deficient cells are auxotrophic for aromatic amino acids (AroAAs) and that the growth impairment observed for -knockdown cells grown on defined medium can be rescued by AroAA supplementation. We also evaluated the essentiality of selected EPSPS residues in bacterial cells grown without AroAA supplementation. We found that the catalytic residues R134 and E321 are essential, while D61, presumably important for protein dynamics and suggested to have an indirect role in catalysis, is not essential under the growth conditions evaluated. We have also determined the catalytic efficiencies (/) of recombinant wild-type (WT) and mutated versions of EPSPS (D61W, R134A, E321N). Our results suggest that drug development efforts toward EPSPS inhibition may be ineffective if bacilli have access to external sources of AroAAs in the context of infection, which should be evaluated further. In the absence of AroAA supplementation, from M. smegmatis is essential, its essentiality is dependent on EPSPS activity, and EPSPS is vulnerable. We found that cells from Mycobacterium smegmatis, a model organism safer and easier to study than the disease-causing mycobacterial species, when depleted of an enzyme from the shikimate pathway, are auxotrophic for the three aromatic amino acids (AroAAs) that serve as building blocks of cellular proteins: l-tryptophan, l-phenylalanine, and l-tyrosine. That supplementation with only AroAAs is sufficient to rescue viable cells with the shikimate pathway inactivated was unexpected, since this pathway produces an end product, chorismate, that is the starting compound of essential pathways other than the ones that produce AroAAs. The depleted enzyme, the 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS), catalyzes the sixth step of shikimate pathway. Depletion of this enzyme inside cells was performed by disrupting or silencing the EPSPS-encoding gene. Finally, we evaluated the essentiality of specific residues from EPSPS that are important for its catalytic activity, determined with experiments of enzyme kinetics using recombinant EPSPS mutants.
分枝杆菌物种的流行病学重要性是不可争议的,迫切需要寻找能够抑制其生长的新分子。用于合成重要细菌代谢物的莽草酸途径代表了结核分枝杆菌生长抑制剂的一组靶标。编码的 5-烯醇丙酮酰莽草酸-3-磷酸合酶(EPSPS)酶催化莽草酸途径的第六步。在这项研究中,我们结合基因敲除、基因敲低、点突变(D61W、R134A、E321N)和动力学分析来评估来自 () (EPSPS)的 基因的必需性和其蛋白质产物 EPSPS 的脆弱性。我们证明 - 缺陷细胞是芳香族氨基酸(AroAAs)的营养缺陷型,并且在限定培养基上生长的 - 敲低细胞观察到的生长受损可以通过 AroAA 补充来挽救。我们还评估了在没有 AroAA 补充的情况下细菌细胞中选定的 EPSPS 残基的必需性。我们发现催化残基 R134 和 E321 是必需的,而 D61 可能对蛋白质动力学很重要,并被建议在评估的生长条件下具有间接催化作用,不是必需的。我们还确定了重组野生型(WT)和突变版本的 EPSPS(D61W、R134A、E321N)的催化效率(/)。我们的结果表明,如果在感染背景下分枝杆菌可以获得外部芳香族氨基酸(AroAAs)来源,那么针对 EPSPS 抑制的药物开发工作可能无效,这需要进一步评估。在没有 AroAA 补充的情况下,来自分枝杆菌属的 是必需的,其必需性取决于 EPSPS 的活性,并且 EPSPS 是脆弱的。我们发现,当从莽草酸途径中耗尽一种酶时,分枝杆菌属的模式生物分枝杆菌属的细胞是芳香族氨基酸(AroAAs)的营养缺陷型,AroAAs 是作为细胞蛋白构建块的三种芳香族氨基酸:l-色氨酸、l-苯丙氨酸和 l-酪氨酸。出乎意料的是,仅用 AroAAs 补充足以挽救失活的莽草酸途径的活细胞,因为该途径产生一种终产物,即磷酸烯醇丙酮酸莽草酸-3-磷酸合酶(EPSPS),催化莽草酸途径的第六步。该酶的消耗,5-烯醇丙酮酰莽草酸-3-磷酸合酶(EPSPS),催化莽草酸途径的第六步。通过破坏或沉默 EPSPS 编码基因在细胞内消耗该酶。最后,我们使用重组 EPSPS 突变体的酶动力学实验评估了 EPSPS 中对其催化活性很重要的特定残基的必需性。
