Diverse roles for axon guidance pathways in adult tissue architecture and function.

IF 2.6 Q2 MULTIDISCIPLINARY SCIENCES Natural sciences (Weinheim, Germany) Pub Date : 2022-10-01 Epub Date: 2022-10-02 DOI:10.1002/ntls.20220021
Kaitlin M Laws, Greg J Bashaw
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引用次数: 1

Abstract

Classical axon guidance ligands and their neuronal receptors were first identified due to their fundamental roles in regulating connectivity in the developing nervous system. Since their initial discovery, it has become clear that these signaling molecules play important roles in the development of a broad array of tissue and organ systems across phylogeny. In addition to these diverse developmental roles, there is a growing appreciation that guidance signaling pathways have important functions in adult organisms, including the regulation of tissue integrity and homeostasis. These roles in adult organisms include both tissue-intrinsic activities of guidance molecules, as well as systemic effects on tissue maintenance and function mediated by the nervous and vascular systems. While many of these adult functions depend on mechanisms that mirror developmental activities, such as regulating adhesion and cell motility, there are also examples of adult roles that may reflect signaling activities that are distinct from known developmental mechanisms, including the contributions of guidance signaling pathways to lineage commitment in the intestinal epithelium and bone remodeling in vertebrates. In this review, we highlight studies of guidance receptors and their ligands in adult tissues outside of the nervous system, focusing on in vivo experimental contexts. Together, these studies lay the groundwork for future investigation into the conserved and tissue-specific mechanisms of guidance receptor signaling in adult tissues.

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轴突引导通路在成人组织结构和功能中的不同作用。
经典的轴突引导配体及其神经元受体因其在发育中的神经系统中调节连接的基本作用而首次被鉴定。自从它们最初被发现以来,很明显,这些信号分子在系统发育中的广泛组织和器官系统的发展中发挥着重要作用。除了这些不同的发育作用外,人们越来越认识到引导信号通路在成年生物体中具有重要功能,包括调节组织完整性和稳态。这些在成年生物体中的作用包括引导分子的组织内在活性,以及神经和血管系统介导的对组织维持和功能的系统性影响。虽然这些成人功能中的许多依赖于反映发育活动的机制,如调节粘附和细胞运动,但也有成人作用的例子可能反映不同于已知发育机制的信号活动,包括指导信号通路对脊椎动物肠上皮谱系承诺和骨重塑的贡献。在这篇综述中,我们重点介绍了神经系统外成人组织中引导受体及其配体的研究,重点是体内实验环境。这些研究共同为未来研究成人组织中引导受体信号传导的保守和组织特异性机制奠定了基础。
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