Evasion of apoptosis by myofibroblasts: a hallmark of fibrotic diseases

肌成纤维细胞 纤维化 细胞凋亡 医学 细胞生物学 细胞外基质 免疫学 癌症研究 重编程 病理 生物 细胞 遗传学 生物化学
作者
Boris Hinz,David Lagares
出处
期刊:Nature Reviews Rheumatology [Nature Portfolio]
卷期号:16 (1): 11-31 被引量:614
标识
DOI:10.1038/s41584-019-0324-5
摘要

Organ fibrosis is a lethal outcome of autoimmune rheumatic diseases such as systemic sclerosis. Myofibroblasts are scar-forming cells that are ultimately responsible for the excessive synthesis, deposition and remodelling of extracellular matrix proteins in fibrosis. Advances have been made in our understanding of the mechanisms that keep myofibroblasts in an activated state and control myofibroblast functions. However, the mechanisms that help myofibroblasts to persist in fibrotic tissues remain poorly understood. Myofibroblasts evade apoptosis by activating molecular mechanisms in response to pro-survival biomechanical and growth factor signals from the fibrotic microenvironment, which can ultimately lead to the acquisition of a senescent phenotype. Growing evidence suggests that myofibroblasts and senescent myofibroblasts, rather than being resistant to apoptosis, are actually primed for apoptosis owing to concomitant activation of cell death signalling pathways; these cells are poised to apoptose when survival pathways are inhibited. This knowledge of apoptotic priming has paved the way for new therapies that trigger apoptosis in myofibroblasts by blocking pro-survival mechanisms, target senescent myofibroblast for apoptosis or promote the reprogramming of myofibroblasts into scar-resolving cells. These novel strategies are not only poised to prevent progressive tissue scarring, but also have the potential to reverse established fibrosis and to regenerate chronically injured tissues. Myofibroblasts are important mediators of wound healing but can also perpetuate fibrosis in diseases such as systemic sclerosis by evading apoptosis. Therapeutic targeting of the survival mechanisms used by these cells in fibrotic disease holds promise for the reversal of fibrosis.
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