Cell shape and division septa positioning in filamentous Streptomyces require a functional cell wall glycopolymer ligase CglA.

IF 5.1 1区 生物学 Q1 MICROBIOLOGY
mBio Pub Date : 2024-10-16 Epub Date: 2024-09-09 DOI:10.1128/mbio.01492-24
Sukanya Bhowmick, Ruth P Viveros, Andreas Latoscha, Fabian M Commichau, Christoph Wrede, Mahmoud M Al-Bassam, Natalia Tschowri
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引用次数: 0

Abstract

The cell wall of monoderm bacteria consists of peptidoglycan and glycopolymers in roughly equal proportions and is crucial for cellular integrity, cell shape, and bacterial vitality. Despite the immense value of Streptomyces in biotechnology and medicine as antibiotic producers, we know very little about their cell wall biogenesis, composition, and functions. Here, we have identified the LCP-LytR_C domain protein CglA (Vnz_13690) as a key glycopolymer ligase, which specifically localizes in zones of cell wall biosynthesis in S. venezuelae. Reduced amount of glycopolymers in the cglA mutant results in enlarged vegetative hyphae and failures in FtsZ-rings formation and positioning. Consequently, division septa are misplaced leading to the formation of aberrant cell compartments, misshaped spores, and reduced cell vitality. In addition, we report our discovery that c-di-AMP signaling and decoration of the cell wall with glycopolymers are physiologically linked in Streptomyces since the deletion of cglA restores growth of the S. venezuelae disA mutant at high salt. Altogether, we have identified and characterized CglA as a novel component of cell wall biogenesis in Streptomyces, which is required for cell shape maintenance and cellular vitality in filamentous, multicellular bacteria.IMPORTANCEStreptomyces are our key producers of antibitiotics and other bioactive molecules and are, therefore, of high value for medicine and biotechnology. They proliferate by apical extension and branching of hyphae and undergo complex cell differentiation from filaments to spores during their life cycle. For both, growth and sporulation, coordinated cell wall biogenesis is crucial. However, our knowledge about cell wall biosynthesis, functions, and architecture in Streptomyces and in other Actinomycetota is still very limited. Here, we identify CglA as the key enzyme needed for the attachment of glycopolymers to the cell wall of S. venezuelae. We demonstrate that defects in the cell wall glycopolymer content result in loss of cell shape in these filamentous bacteria and show that division-competent FtsZ-rings cannot assemble properly and fail to be positioned correctly. As a consequence, cell septa placement is disturbed leading to the formation of misshaped spores with reduced viability.

丝状链霉菌的细胞形状和分裂隔定位需要功能性细胞壁糖聚合物连接酶 CglA。
单真菌的细胞壁由肽聚糖和糖聚糖组成,两者的比例大致相同,对细胞的完整性、细胞形状和细菌的活力至关重要。尽管链霉菌作为抗生素生产者在生物技术和医药领域具有巨大价值,但我们对其细胞壁的生物发生、组成和功能知之甚少。在这里,我们发现 LCP-LytR_C 结构域蛋白 CglA(Vnz_13690)是一种关键的糖聚体连接酶,它特异性地定位在委内瑞拉链霉菌细胞壁生物合成区。cglA 突变体中糖聚合体的数量减少导致无性菌丝增大,FtsZ 环的形成和定位失败。因此,分裂隔膜的错位导致了异常细胞区的形成、孢子形状的改变以及细胞活力的降低。此外,我们还报告了发现 c-di-AMP 信号传导和细胞壁的糖聚合物装饰在链霉菌中存在生理联系的发现,因为删除 cglA 可使 S. venezuelae disA 突变体在高盐条件下恢复生长。总之,我们发现并鉴定了 CglA,它是链霉菌细胞壁生物发生的一种新成分,是丝状多细胞细菌维持细胞形状和细胞活力所必需的。它们通过顶端延伸和菌丝分枝进行增殖,并在其生命周期中经历从菌丝到孢子的复杂细胞分化。对于生长和孢子,协调的细胞壁生物生成至关重要。然而,我们对链霉菌和其他放线菌群的细胞壁生物合成、功能和结构的了解仍然非常有限。在这里,我们发现 CglA 是将糖聚合物附着到委内瑞拉链霉菌细胞壁上所需的关键酶。我们证明细胞壁糖聚物含量的缺陷会导致这些丝状细菌细胞形状的丧失,并表明分裂能力正常的 FtsZ 环不能正常组装,也不能正确定位。因此,细胞隔膜的位置受到干扰,导致形成形状不规则的孢子,并降低了存活率。
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来源期刊
mBio
mBio MICROBIOLOGY-
CiteScore
10.50
自引率
3.10%
发文量
762
审稿时长
1 months
期刊介绍: mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.
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