髓系细胞介导的肌肉再生中的共享信号通路。
Shared signaling systems in myeloid cell-mediated muscle regeneration.
机构信息
Molecular, Cellular & Integrative Physiology Program, University of California, Los Angeles, CA 90095-1606, USA.
出版信息
Development. 2014 Mar;141(6):1184-96. doi: 10.1242/dev.098285.
Abstract
Much of the focus in muscle regeneration has been placed on the identification and delivery of stem cells to promote regenerative capacity. As those efforts have advanced, we have learned that complex features of the microenvironment in which regeneration occurs can determine success or failure. The immune system is an important contributor to that complexity and can determine the extent to which muscle regeneration succeeds. Immune cells of the myeloid lineage play major regulatory roles in tissue regeneration through two general, inductive mechanisms: instructive mechanisms that act directly on muscle cells; and permissive mechanisms that act indirectly to influence regeneration by modulating angiogenesis and fibrosis. In this article, recent discoveries that identify inductive actions of specific populations of myeloid cells on muscle regeneration are presented, with an emphasis on how processes in muscle and myeloid cells are co-regulated.
摘要
肌肉再生的研究重点主要集中在鉴定和输送干细胞以促进再生能力上。随着这些研究的进展,我们逐渐认识到,再生过程中微环境的复杂特征可以决定成败。免疫系统是这种复杂性的一个重要贡献者,它可以决定肌肉再生的成功程度。髓系免疫细胞通过两种一般的诱导机制在组织再生中发挥主要的调节作用:直接作用于肌肉细胞的指令性机制;以及通过调节血管生成和纤维化间接影响再生的许可性机制。本文介绍了最近发现的特定髓系细胞群体对肌肉再生的诱导作用,重点介绍了肌肉细胞和髓系细胞中的过程是如何共同调节的。
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