原生组织基质的局部光交联调节细胞功能

Donia W Ahmed, Matthew L Tan, Jackson Gabbard, Yuchen Liu, Michael M Hu, Miriam Stevens, Firaol S Midekssa, Lin Han, Rachel Lynne Zemans, Brendon Baker, Claudia Loebel
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引用次数: 0

摘要

在大多数组织内,细胞外基质微环境提供了引导细胞命运和功能的机械线索。细胞外基质的变化,如异常沉积、致密化和交联增加,是晚期纤维化疾病的特征,通常会导致器官功能障碍。生物材料已被广泛用于模拟纤维化基质的机械特性和研究细胞功能。然而,由于在原生细胞外微环境中重现早期纤维化病变存在挑战,纤维化的起始过程在很大程度上被忽视了。我们利用可见光介导的光化学方法,在活体鼠组织和人体组织中诱导细胞外基质蛋白的局部交联和硬化。在上皮细胞系追踪小鼠的体外肺组织中,局部基质交联模拟了早期纤维化病变,增加了肺泡上皮细胞的扩散、分化和细胞外基质重塑。然而,抑制细胞骨架张力或整合素参与会减少上皮细胞的扩散和分化,导致肺泡上皮细胞去分化和细胞外基质沉积减少。我们的发现强调了局部细胞外基质交联和重塑在早期组织纤维化中的作用,对体内外疾病建模和其他组织的应用具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Local photo-crosslinking of native tissue matrix regulates cell function
Within most tissues, the extracellular microenvironment provides mechanical cues that guide cell fate and function. Changes in the extracellular matrix such as aberrant deposition, densification and increased crosslinking are hallmarks of late-stage fibrotic diseases that often lead to organ dysfunction. Biomaterials have been widely used to mimic the mechanical properties of the fibrotic matrix and study cell function. However, the initiation of fibrosis has largely been overlooked, due to the challenges in recapitulating early fibrotic lesions within the native extracellular microenvironment. Using visible light mediated photochemistry, we induced local crosslinking and stiffening of extracellular matrix proteins within ex vivo murine and human tissue. In ex vivo lung tissue of epithelial cell lineage-traced mice, local matrix crosslinking mimicked early fibrotic lesions that increased alveolar epithelial cell spreading, differentiation and extracellular matrix remodeling. However, inhibition of cytoskeletal tension or integrin engagement reduced epithelial cell spreading and differentiation, resulting in alveolar epithelial cell dedifferentiation and reduced extracellular matrix deposition. Our findings emphasize the role of local extracellular matrix crosslinking and remodeling in early-stage tissue fibrosis and have implications for ex vivo disease modeling and applications to other tissues.
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