{"title":"TGF-β与纤维化","authors":"E. Böttinger","doi":"10.1101/087969752.50.989","DOIUrl":null,"url":null,"abstract":"Fibrosis is a cardinal feature of most chronic degenerative diseases and may affect virtually every tissue and organ system. The fibrotic response has been characterized as inappropriate repair by connective tissue resulting in scarring, associated with loss of normal tissue architecture and function. The degeneration of functional cell types and accumulation of mesenchymal cells and extracellular matrix (ECM) typically progress slowly over several years, resulting eventually in organ failure. Fibrotic conditions, irrespective of their diverse etiology, anatomic location, and natural history, share common pathogenetic features: excessive secretion and activation of profibrotic cytokines, influx of inflammatory cells, loss of differentiated epithelial cells, expansion and activation of fibroblastoid cells, and ECM synthesis and organization (Border and Noble 1994; Friedman 2003). Because these features are also observed in normal wound healing, it has been proposed that fibrosis can be conceptualized as “healing without end” or “the dark side of tissue repair” (Border and Noble 1994). Disease-oriented studies in experimental models and human disease universally demonstrate alterations of transforming growth factor-β (TGF-β) expression in tissues affected by fibrosis, including pulmonary fibrosis (Hoyt and Lazo 1989; Raghu et al. 1989), hepatic fibrosis (Czaja et al. 1989; Nakatsukasa et al. 1990), renal fibrosis (Border et al. 1990a; Okuda et al. 1990; Coimbra et al. 1991; Jones et al. 1991), ocular fibrosis (Connor et al. 1989), cardiac fibrosis (Chua et al. 1991), radiation fibrosis (Anscher et al. 1990), and systemic sclerosis and fibrotic skin diseases (Peltonen et al. 1990; Falanga and Julien 1990). TGF-β is the prototypical...","PeriodicalId":10493,"journal":{"name":"Cold Spring Harbor Monograph Archive","volume":"03 1","pages":"989-1022"},"PeriodicalIF":0.0000,"publicationDate":"2008-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"31 TGF-β and Fibrosis\",\"authors\":\"E. Böttinger\",\"doi\":\"10.1101/087969752.50.989\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Fibrosis is a cardinal feature of most chronic degenerative diseases and may affect virtually every tissue and organ system. The fibrotic response has been characterized as inappropriate repair by connective tissue resulting in scarring, associated with loss of normal tissue architecture and function. The degeneration of functional cell types and accumulation of mesenchymal cells and extracellular matrix (ECM) typically progress slowly over several years, resulting eventually in organ failure. Fibrotic conditions, irrespective of their diverse etiology, anatomic location, and natural history, share common pathogenetic features: excessive secretion and activation of profibrotic cytokines, influx of inflammatory cells, loss of differentiated epithelial cells, expansion and activation of fibroblastoid cells, and ECM synthesis and organization (Border and Noble 1994; Friedman 2003). Because these features are also observed in normal wound healing, it has been proposed that fibrosis can be conceptualized as “healing without end” or “the dark side of tissue repair” (Border and Noble 1994). Disease-oriented studies in experimental models and human disease universally demonstrate alterations of transforming growth factor-β (TGF-β) expression in tissues affected by fibrosis, including pulmonary fibrosis (Hoyt and Lazo 1989; Raghu et al. 1989), hepatic fibrosis (Czaja et al. 1989; Nakatsukasa et al. 1990), renal fibrosis (Border et al. 1990a; Okuda et al. 1990; Coimbra et al. 1991; Jones et al. 1991), ocular fibrosis (Connor et al. 1989), cardiac fibrosis (Chua et al. 1991), radiation fibrosis (Anscher et al. 1990), and systemic sclerosis and fibrotic skin diseases (Peltonen et al. 1990; Falanga and Julien 1990). 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引用次数: 0
摘要
纤维化是大多数慢性退行性疾病的主要特征,几乎可以影响每一个组织和器官系统。纤维化反应的特征是结缔组织不适当的修复导致瘢痕形成,并伴有正常组织结构和功能的丧失。功能性细胞类型的退化和间充质细胞和细胞外基质(ECM)的积累通常在数年内缓慢进展,最终导致器官衰竭。无论其不同的病因、解剖位置和自然历史如何,纤维化疾病都具有共同的发病特征:促纤维化细胞因子的过度分泌和激活、炎症细胞的涌入、分化上皮细胞的丧失、成纤维细胞样细胞的扩张和激活以及ECM的合成和组织(Border和Noble 1994;弗里德曼2003年)。由于这些特征在正常的伤口愈合中也可以观察到,因此有人提出,纤维化可以被概念化为“无终点的愈合”或“组织修复的阴暗面”(Border and Noble 1994)。以疾病为导向的实验模型和人类疾病研究普遍表明,转化生长因子-β (TGF-β)在受纤维化影响的组织中表达改变,包括肺纤维化(Hoyt和Lazo 1989;Raghu et al. 1989),肝纤维化(Czaja et al. 1989;Nakatsukasa et al. 1990),肾纤维化(Border et al. 1990;Okuda等人,1990;Coimbra et al. 1991;Jones et al. 1991)、眼纤维化(Connor et al. 1989)、心脏纤维化(Chua et al. 1991)、辐射纤维化(Anscher et al. 1990)、系统性硬化症和纤维化性皮肤病(Peltonen et al. 1990;Falanga and Julien 1990)。TGF-β是典型的…
Fibrosis is a cardinal feature of most chronic degenerative diseases and may affect virtually every tissue and organ system. The fibrotic response has been characterized as inappropriate repair by connective tissue resulting in scarring, associated with loss of normal tissue architecture and function. The degeneration of functional cell types and accumulation of mesenchymal cells and extracellular matrix (ECM) typically progress slowly over several years, resulting eventually in organ failure. Fibrotic conditions, irrespective of their diverse etiology, anatomic location, and natural history, share common pathogenetic features: excessive secretion and activation of profibrotic cytokines, influx of inflammatory cells, loss of differentiated epithelial cells, expansion and activation of fibroblastoid cells, and ECM synthesis and organization (Border and Noble 1994; Friedman 2003). Because these features are also observed in normal wound healing, it has been proposed that fibrosis can be conceptualized as “healing without end” or “the dark side of tissue repair” (Border and Noble 1994). Disease-oriented studies in experimental models and human disease universally demonstrate alterations of transforming growth factor-β (TGF-β) expression in tissues affected by fibrosis, including pulmonary fibrosis (Hoyt and Lazo 1989; Raghu et al. 1989), hepatic fibrosis (Czaja et al. 1989; Nakatsukasa et al. 1990), renal fibrosis (Border et al. 1990a; Okuda et al. 1990; Coimbra et al. 1991; Jones et al. 1991), ocular fibrosis (Connor et al. 1989), cardiac fibrosis (Chua et al. 1991), radiation fibrosis (Anscher et al. 1990), and systemic sclerosis and fibrotic skin diseases (Peltonen et al. 1990; Falanga and Julien 1990). TGF-β is the prototypical...
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