Marple Amanda C, Shannon Blake A, Rishi Aanchal, Estafanos Lana, Armstrong Brent D, Guariglia-Oropeza Veronica, Tuffs Stephen W, McCormick John K
Department of Microbiology and Immunology, University of Western Ontario, London, Ontario, Canada.
J Bacteriol. 2025 Apr 17;207(4):e0049224. doi: 10.1128/jb.00492-24. Epub 2025 Mar 26.
is a human-adapted pathogen that can cause multiple diseases, including pharyngitis and skin infections. Although this bacterium produces many virulence factors, how competes with the host microbiota is not well understood. Here, we detected antimicrobial activity from MGAS8232 that prevented the growth of . This activity was produced when cells were grown in 5% CO in M17 media supplemented with galactose; however, the addition of alternative sugars coupled with genome sequencing experiments revealed that the antimicrobial phenotype was not related to classical bacteriocins. To further determine genes involved in the production of this activity, a transposon mutant library in MGAS8232 identified the mannose phosphotransferase system (Man-PTS), a major sugar transporter, as important for the antimicrobial phenotype. Loss-of-function transposon mutants linked to the antimicrobial activity were identified to also be involved in alternative sugar utilization, and additionally, the Man-PTS was further identified from an inadvertent secondary mutation in a bacteriocin operon mutant. Sugar utilization in the Man-PTS mutants demonstrated that galactose, mannose, and N-acetylglucosamine utilization was impaired. RNA-seq experiments in high and low glucose concentrations further characterized the Man-PTS as a glucose transporter; however, transcriptional regulators or virulence factors were not affected with the loss of the Man-PTS. Deletion of Man-PTS demonstrated defects in a mouse model of nasopharyngeal infection but not skin infection. This work suggests that the ability of to utilize alternative sugars presented by glycans may play a role in acute infection and interactions with the endogenous microbial population existing in the nasopharynx.IMPORTANCE is responsible for over 500,000 deaths per year primarily due to invasive infections and post-infection sequelae, although the most common manifestations include pharyngitis and impetigo. can adapt to its environment through alternative sugar metabolism. Here, we identified an antimicrobial phenotype that was not bacteriocin-related but a by-product of alternative sugar metabolism. The mannose phosphotransferase system was involved in the production of the antimicrobial and was also important for to utilize alternative sugars and establish nasopharyngeal infection but not skin infection. Overall, this study identified potential strategies used by for interactions with the endogenous microbiota and further elucidated the importance of sugar metabolism in acute upper respiratory tract infection.
是一种适应人类的病原体,可导致多种疾病,包括咽炎和皮肤感染。尽管这种细菌产生许多毒力因子,但它如何与宿主微生物群竞争尚不清楚。在这里,我们检测到来自MGAS8232的抗菌活性,该活性可阻止[某种细菌]的生长。当细胞在补充了半乳糖的M17培养基中于5%二氧化碳环境下生长时产生这种活性;然而,添加替代糖并结合基因组测序实验表明,抗菌表型与经典细菌素无关。为了进一步确定参与产生这种活性的基因,MGAS8232中的一个转座子突变文库确定了甘露糖磷酸转移酶系统(Man-PTS),一种主要的糖转运体,对抗菌表型很重要。与抗菌活性相关的功能丧失转座子突变体也被确定参与替代糖的利用,此外,从细菌素操纵子突变体中的一个意外的二次突变中进一步鉴定出了Man-PTS。Man-PTS突变体中的糖利用表明半乳糖、甘露糖和N-乙酰葡糖胺的利用受损。在高糖和低糖浓度下的RNA测序实验进一步将Man-PTS表征为一种葡萄糖转运体;然而,转录调节因子或毒力因子不受Man-PTS缺失的影响。Man-PTS的缺失在鼻咽感染小鼠模型中表现出缺陷,但在皮肤感染模型中没有。这项工作表明,[该病原体]利用聚糖呈现的替代糖的能力可能在急性感染以及与鼻咽中存在的内源性微生物群体的相互作用中发挥作用。重要性[该病原体]每年导致超过50万人死亡,主要是由于侵袭性感染和感染后后遗症,尽管最常见的表现包括咽炎和脓疱病。[该病原体]可以通过替代糖代谢适应其环境。在这里,我们鉴定出一种与细菌素无关但为替代糖代谢副产物的抗菌表型。甘露糖磷酸转移酶系统参与抗菌的产生,并且对于[该病原体]利用替代糖和建立鼻咽感染但不包括皮肤感染也很重要。总体而言,这项研究确定了[该病原体]与内源性微生物群相互作用所使用的潜在策略,并进一步阐明了糖代谢在急性上呼吸道感染中的重要性。
