肌成纤维细胞分化:质膜微结构域和细胞表型。

Jeffery R Schelling, Sumita Sinha, Martha Konieczkowski, John R Sedor
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引用次数: 9

摘要

肌成纤维细胞分化是在进行性肾脏疾病和人肾活检实验模型中发现的一种突出的细胞表型。系膜细胞、小管间质成纤维细胞和小管上皮细胞经历成肌细胞分化,这一过程以α -肌动蛋白表达、间质胶原合成和生长反应为特征。抑制肌成纤维细胞分化可以预防肾脏疾病的进展,但可能难以实现,因为需要抑制多种信号通路。细胞生物学的进步使我们能够更好地理解来自许多微环境刺激的信息是如何通过细胞外受体和细胞质信号分子在特定的质膜域(如局灶黏附和脂筏)内的空间区隔化而整合的。我们回顾了这些信息,并假设肾细胞的肌成纤维细胞分化只有在细胞内分子的空间排列(很大程度上由细胞外基质调节的细胞骨架组织决定)允许与特定质膜微域受体相互作用的可溶性分子激活适当的信号通路时才能进行。如果得到证实,这一假设表明靶向粘附复合物和筏中的关键分子(在某些情况下使用临床可用的药物)可能为肾脏疾病的进展提供更有效的治疗。
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Myofibroblast differentiation: plasma membrane microdomains and cell phenotype.

Myofibroblast differentiation characterizes a prominent cellular phenotype identified in experimental models of progressive kidney disease and human kidney biopsies. Mesangial cells, tubulointerstitial fibroblasts and, perhaps, tubular epithelial cells undergo myofibroblast differentiation, a process characterized by alpha-actin expression, synthesis of interstitial collagens and a growth response. Inhibition of myofibroblast differentiation could prevent kidney disease progression but may be difficult to accomplish, since inhibition of multiple signaling pathways would be required. Cell biology advances have enabled a better understanding of how information from many microenvironmental stimuli are integrated by spatial compartmentalization of extracellular receptors and cytosolic signaling molecules within specialized plasma membrane domains, such as focal adhesions and lipid rafts. We review this information and hypothesize that myofibroblast differentiation of renal cells can only proceed if the spatial arrangement of intracellular molecules, in large part determined by extracellular matrix-regulated cytoskeletal organization, permits activation of appropriate signaling pathways by soluble molecules interacting with receptors in specialized plasma membrane microdomains. If proven, this hypothesis suggests targeting key molecules within adhesion complexes and rafts (in some cases with drugs that are already clinically available) may provide more effective therapy for kidney disease progression.

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Unexpected renal actions of erythropoietin. Coagulation, fibrinolysis and angiogenesis: new insights from knockout mice. Role of the PDZ scaffolding protein in tubule cells in maintenance of polarised function. Myofibroblast differentiation: plasma membrane microdomains and cell phenotype. Regulation of inducible class II MHC, costimulatory molecules, and cytokine expression in TGF-beta1 knockout renal epithelial cells: effect of exogenous TGF-beta1.
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