RRC ID |
54429
|
著者 |
Duda M, Kirkland NJ, Khalilgharibi N, Tozluoglu M, Yuen AC, Carpi N, Bove A, Piel M, Charras G, Baum B, Mao Y.
|
タイトル |
Polarization of Myosin II Refines Tissue Material Properties to Buffer Mechanical Stress.
|
ジャーナル |
Dev Cell
|
Abstract |
As tissues develop, they are subjected to a variety of mechanical forces. Some of these forces are instrumental in the development of tissues, while others can result in tissue damage. Despite our extensive understanding of force-guided morphogenesis, we have only a limited understanding of how tissues prevent further morphogenesis once the shape is determined after development. Here, through the development of a tissue-stretching device, we uncover a mechanosensitive pathway that regulates tissue responses to mechanical stress through the polarization of actomyosin across the tissue. We show that stretch induces the formation of linear multicellular actomyosin cables, which depend on Diaphanous for their nucleation. These stiffen the epithelium, limiting further changes in shape, and prevent fractures from propagating across the tissue. Overall, this mechanism of force-induced changes in tissue mechanical properties provides a general model of force buffering that serves to preserve the shape of tissues under conditions of mechanical stress.
|
巻・号 |
48(2)
|
ページ |
245-260.e7
|
公開日 |
2019-1-28
|
DOI |
10.1016/j.devcel.2018.12.020
|
PII |
S1534-5807(18)31088-8
|
PMID |
30695698
|
PMC |
PMC6353629
|
MeSH |
Actomyosin / metabolism
Animals
Cell Shape / physiology
Cytoskeletal Proteins / metabolism*
Epithelium / metabolism
Morphogenesis / physiology*
Myosin Type II / metabolism*
Stress, Mechanical*
|
IF |
9.19
|
引用数 |
16
|
リソース情報 |
ショウジョウバエ |
9901-R
HMS00830
HMS00437
32018R-1
32018R-3
DGRC#110833 |