干细胞/祖细胞在修复性疾病中的作用。

Thavaneetharajah Pretheeban, Dario R Lemos, Benjamin Paylor, Regan-Heng Zhang, Fabio M Rossi
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引用次数: 35

摘要

成体干细胞在正常组织稳态以及疾病状态和损伤状态下被激活增殖和分化。这种激活是通过完全或部分再生恢复受损组织功能的重要组成部分。当再生不完全发生时,修复过程涉及基质成分的过量生产,以牺牲组织的正常结构和功能为代价确保组织的连续性,导致“修复障碍”。来自多个器官的成体干细胞已被确定参与这一过程,它们在组织修复中的作用正在研究中。关于间充质间质细胞(MSCs)参与多种组织修复过程的证据是压倒性的,它们在修复性疾病中的作用被清楚地证明,正如一些特定信号通路的参与一样。转化生长因子β、骨形态发生蛋白和Wnt通路相互作用,形成一个复杂的信号网络,在调节基质和组织特异性常驻干细胞(TSCs)的命运选择中至关重要,决定了损伤后是否有功能再生或疤痕组织的形成。因此,对TSCs、MSCs和调节这两种细胞群的复杂级联信号的日益了解,已成为治疗修复性疾病的潜在治疗靶点。本文就这些细胞在骨骼肌、心脏和肺组织中的作用作一综述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Role of stem/progenitor cells in reparative disorders.

Role of stem/progenitor cells in reparative disorders.

Role of stem/progenitor cells in reparative disorders.

Role of stem/progenitor cells in reparative disorders.

Adult stem cells are activated to proliferate and differentiate during normal tissue homeostasis as well as in disease states and injury. This activation is a vital component in the restoration of function to damaged tissue via either complete or partial regeneration. When regeneration does not fully occur, reparative processes involving an overproduction of stromal components ensure the continuity of tissue at the expense of its normal structure and function, resulting in a "reparative disorder". Adult stem cells from multiple organs have been identified as being involved in this process and their role in tissue repair is being investigated. Evidence for the participation of mesenchymal stromal cells (MSCs) in the tissue repair process across multiple tissues is overwhelming and their role in reparative disorders is clearly demonstrated, as is the involvement of a number of specific signaling pathways. Transforming growth factor beta, bone morphogenic protein and Wnt pathways interact to form a complex signaling network that is critical in regulating the fate choices of both stromal and tissue-specific resident stem cells (TSCs), determining whether functional regeneration or the formation of scar tissue follows an injury. A growing understanding of both TSCs, MSCs and the complex cascade of signals regulating both cell populations have, therefore, emerged as potential therapeutic targets to treat reparative disorders. This review focuses on recent advances on the role of these cells in skeletal muscle, heart and lung tissues.

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