转化生长因子β:肺部和气道炎症及纤维化的核心调节因子
Transforming growth factor beta: a central modulator of pulmonary and airway inflammation and fibrosis.
作者信息
Sheppard Dean
机构信息
Lung Biology Center and Department of Medicine, University of California San Francisco, Box 2922, San Francisco, CA 94143-2922, USA.
出版信息
Proc Am Thorac Soc. 2006 Jul;3(5):413-7. doi: 10.1513/pats.200601-008AW.
Abstract
The requirement for precise geometric organization of endothelial cells and epithelial cells makes the gas-exchange region of the lung especially vulnerable to the adverse consequences of toxic products released from inflammatory cells. However, as a filter for large volumes of atmospheric gas, the lung is continually exposed to microorganisms and other toxic insults that require robust inflammatory defense. Enhanced production of extracellular matrix proteins is one important mechanism for restricting tissue damage, but excessive matrix production also has serious adverse effects on gas exchange. The amazing ability of the lung to recover from a barrage of environmental insults depends on precisely regulating both inflammation and extracellular matrix production in space and time. Below I review some of the evidence implicating members of the transforming growth factor beta family as critical mediators of this delicate dance and describe examples of how disruption of this balance by alterations in the magnitude of spatially restricted transforming growth factor beta activation can contribute to pathologic consequences of alveolar and airway injury and inflammation.
摘要
内皮细胞和上皮细胞精确的几何结构要求使得肺的气体交换区域特别容易受到炎症细胞释放的有毒产物的不良影响。然而,作为大量大气气体的过滤器,肺不断暴露于微生物和其他有毒侵害中,这需要强大的炎症防御。细胞外基质蛋白产量的增加是限制组织损伤的一个重要机制,但过多的基质产生也会对气体交换产生严重的不利影响。肺从一连串环境侵害中恢复的惊人能力取决于在空间和时间上精确调节炎症和细胞外基质的产生。下面我将回顾一些证据,这些证据表明转化生长因子β家族成员是这种微妙平衡的关键调节因子,并描述一些例子,说明空间受限的转化生长因子β激活程度的改变如何破坏这种平衡,从而导致肺泡和气道损伤及炎症的病理后果。
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