期刊
MOLECULAR BIOLOGY OF THE CELL
卷 24, 期 20, 页码 3227-3237出版社
AMER SOC CELL BIOLOGY
DOI: 10.1091/mbc.E13-05-0228
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资金
- W. M. Keck Foundation Distinguished Young Scholar in Medical Research Award
- University of Toronto
- Hospital for Sick Children
- Canada Foundation for Innovation
- Ontario Research Fund
Epithelial tissues are protective barriers that display a remarkable ability to repair wounds. Wound repair is often associated with an accumulation of actin and nonmuscle myosin II around the wound, forming a purse string. The role of actomyosin networks in generating mechanical force during wound repair is not well understood. Here we investigate the mechanisms of force generation during wound repair in the epidermis of early and late Drosophila embryos. We find that wound closure is faster in early embryos, where, in addition to a purse string around the wound, actomyosin networks at the medial cortex of the wounded cells contribute to rapid wound repair. Laser ablation demonstrates that both medial and purse-string actomyosin networks generate contractile force. Quantitative analysis of protein localization dynamics during wound closure indicates that the rapid contraction of medial actomyosin structures during wound repair in early embryos involves disassembly of the actomyosin network. By contrast, actomyosin purse strings in late embryos contract more slowly in a mechanism that involves network condensation. We propose that the combined action of two force-generating structures-a medial actomyosin network and an actomyosin purse string-contributes to the increased efficiency of wound repair in the early embryo.
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