Short-range C-signaling restricts cheating behavior during Myxococcus xanthus development.

IF 5.1 1区 生物学 Q1 MICROBIOLOGY mBio Pub Date : 2024-11-13 Epub Date: 2024-10-18 DOI:10.1128/mbio.02440-24
Y Hoang, Joshua Franklin, Yann S Dufour, Lee Kroos
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Abstract

Myxococcus xanthus uses short-range C-signaling to coordinate multicellular mound formation with sporulation during fruiting body development. A csgA mutant deficient in C-signaling can cheat on wild type (WT) in mixtures and form spores disproportionately, but our understanding of cheating behavior is incomplete. We subjected mixtures of WT and csgA cells at different ratios to co-development and used confocal microscopy and image analysis to quantify the arrangement and morphology of cells. At a ratio of one WT to four csgA cells (1:4), mounds failed to form. At 1:2, only a few mounds and spores formed. At 1:1, mounds formed with a similar number and arrangement of WT and csgA rods early in development, but later the number of csgA spores near the bottom of these nascent fruiting bodies (NFBs) exceeded that of WT. This cheating after mound formation involved csgA forming spores at a greater rate, while WT disappeared at a greater rate, either lysing or exiting NFBs. At 2:1 and 4:1, csgA rods were more abundant than expected throughout the biofilm both before and during mound formation, and cheating continued after mound formation. We conclude that C-signaling restricts cheating behavior by requiring sufficient WT cells in mixtures. Excess cheaters may interfere with positive feedback loops that depend on the cellular arrangement to enhance C-signaling during mound building. Since long-range signaling could not likewise communicate the cellular arrangement, we propose that C-signaling was favored evolutionarily and that other short-range signaling mechanisms provided selective advantages in bacterial biofilm and multicellular animal development.

Importance: Bacteria communicate using both long- and short-range signals. Signaling affects community composition, structure, and function. Adherent communities called biofilms impact medicine, agriculture, industry, and the environment. To facilitate the manipulation of biofilms for societal benefits, a better understanding of short-range signaling is necessary. We investigated the susceptibility of short-range C-signaling to cheating during Myxococcus xanthus biofilm development. A mutant deficient in C-signaling fails to form mounds containing spores (i.e., fruiting bodies) but cheats on C-signaling by wild type in starved cell mixtures and forms spores disproportionately. We found that cheating requires sufficient wild-type cells in the initial mix and can occur both before mound formation and later during the sporulation stage of development. By restricting cheating behavior, short-range C-signaling may have been favored evolutionarily rather than long-range diffusible signaling. Cheating restrictions imposed by short-range signaling may have likewise driven the evolution of multicellularity broadly.

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短程C信号限制黄曲霉菌发育过程中的欺骗行为
黄曲霉菌在子实体发育过程中利用短程 C 信号来协调多细胞丘的形成和孢子的产生。缺乏 C 信号的 csgA 突变体可以在混合物中欺骗野生型(WT),并不成比例地形成孢子,但我们对欺骗行为的了解并不全面。我们让不同比例的 WT 和 csgA 细胞混合物共同发育,并使用共聚焦显微镜和图像分析来量化细胞的排列和形态。在一个 WT 细胞对四个 csgA 细胞的比例(1:4)下,丘无法形成。在 1:2 的比例下,只形成了一些小丘和孢子。在 1:1 的比例下,WT 和 csgA 菌棒在发育初期形成的菌丘数量和排列方式相似,但后来这些新生子实体(NFB)底部附近的 csgA 孢子数量超过了 WT。子丘形成后,csgA 形成孢子的速度更快,而 WT 孢子消失的速度更快,要么裂解,要么从 NFB 中脱落。在 2:1 和 4:1 条件下,csgA 菌杆在整个生物膜中,无论是在菌丘形成之前还是形成过程中,都比预期的要多,而且在菌丘形成之后,欺骗行为仍在继续。我们的结论是,C 信号需要混合物中有足够的 WT 细胞,从而限制了作弊行为。过多的作弊者可能会干扰正反馈环路,而正反馈环路依赖于细胞排列来增强土丘形成过程中的 C 信号。由于长程信号传递不能同样传递细胞排列,我们认为C信号传递在进化过程中更受青睐,而其他短程信号传递机制在细菌生物膜和多细胞动物发育过程中具有选择性优势:重要性:细菌利用长程和短程信号进行交流。信号影响群落的组成、结构和功能。被称为生物膜的粘附群落对医学、农业、工业和环境都有影响。为了促进对生物膜的操纵,以实现社会效益,有必要更好地了解短程信号。我们研究了黄曲霉菌生物膜发育过程中短程 C 信号传递易受欺骗的情况。缺乏 C 信号的突变体无法形成含有孢子(即子实体)的土堆,但在饥饿的细胞混合物中却能欺骗野生型的 C 信号,并不成比例地形成孢子。我们发现,作弊需要初始混合物中有足够多的野生型细胞,而且在形成堆之前和孢子发育阶段的后期都可能发生。通过限制作弊行为,短程 C 信号在进化过程中可能比长程扩散信号更受青睐。短程信号传递对作弊行为的限制可能同样推动了多细胞性的广泛进化。
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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.
期刊最新文献
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