Regulation of axial and head patterning during planarian regeneration by a commensal bacterium

IF 2.6 Q2 Medicine

Mechanisms of Development Pub Date : 2020-09-01 DOI:10.1016/j.mod.2020.103614

Katherine B. Williams, Johanna Bischof, Frederick J. Lee, Kelsie A. Miller, Jennifer V. LaPalme, Benjamin E. Wolfe, Michael Levin

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引用次数: 20

Abstract

Some animals, such as planaria, can regenerate complex anatomical structures in a process regulated by genetic and biophysical factors, but additional external inputs into regeneration remain to be uncovered. Microbial communities inhabiting metazoan organisms are important for metabolic, immune, and disease processes, but their instructive influence over host structures remains largely unexplored. Here, we show that Aquitalea sp. FJL05, an endogenous commensal bacterium of Dugesia japonica planarians, and one of the small molecules it produces, indole, can influence axial and head patterning during regeneration, leading to regeneration of permanently two-headed animals. Testing the impact of indole on planaria tissues via RNA sequencing, we find that indole alters the regenerative outcomes in planarians through changes in expression to patterning genes, including a downregulation of Wnt pathway genes. These data provide a unique example of the product of a commensal bacterium modulating transcription of patterning genes to affect the host's anatomical structure during regeneration.

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一种共生细菌对涡虫再生过程中轴头形态的调控

一些动物，如涡虫，可以在遗传和生物物理因素调节的过程中再生复杂的解剖结构，但对再生的额外外部输入仍有待发现。居住在后生动物体内的微生物群落对代谢、免疫和疾病过程都很重要，但它们对宿主结构的指导影响在很大程度上仍未被探索。本研究表明，一种内生共生细菌Aquitalea sp. FJL05及其产生的一种小分子吲哚可以影响再生过程中的轴和头形态，从而导致永久双头动物的再生。通过RNA测序测试吲哚对涡虫组织的影响，我们发现吲哚通过改变模式基因的表达改变涡虫的再生结果，包括下调Wnt通路基因。这些数据提供了一个独特的例子，共栖细菌的产物调节转录的模式基因，以影响宿主的解剖结构在再生过程中。

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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来源期刊

Mechanisms of Development 生物-发育生物学

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

12.4 weeks

期刊介绍： Mechanisms of Development is an international journal covering the areas of cell biology and developmental biology. In addition to publishing work at the interphase of these two disciplines, we also publish work that is purely cell biology as well as classical developmental biology. Mechanisms of Development will consider papers in any area of cell biology or developmental biology, in any model system like animals and plants, using a variety of approaches, such as cellular, biomechanical, molecular, quantitative, computational and theoretical biology. Areas of particular interest include: Cell and tissue morphogenesis Cell adhesion and migration Cell shape and polarity Biomechanics Theoretical modelling of cell and developmental biology Quantitative biology Stem cell biology Cell differentiation Cell proliferation and cell death Evo-Devo Membrane traffic Metabolic regulation Organ and organoid development Regeneration Mechanisms of Development does not publish descriptive studies of gene expression patterns and molecular screens; for submission of such studies see Gene Expression Patterns.