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Tension sensing by FAK governs nuclear mechanotransduction, endothelial transcriptome and fate
Tension sensing by FAK governs nuclear mechanotransduction, endothelial transcriptome and fate
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Length:
20 minutes
Released:
Apr 26, 2023
Format:
Podcast episode
Description
Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.04.24.538195v1?rss=1
Authors: Akhter, M. Z., Yazbeck, P., Tauseef, M., Anwar, M., Hossen, F., Datta, S., Vellingiri, V., Joshi, J. C., Srivastava, N., Lenzini, S., Zhou, G., Lee, J., Jain, M. K., Shin, J.-W., Mehta, D.
Abstract:
Vascular endothelium forms a restrictive barrier to defend the underlying tissue against uncontrolled influx of circulating protein and immune cells. Mechanisms that mediate the transition from restrictive to leaky endothelium, a hallmark of tissue injury exemplified by acute lung injury (ALI), remain elusive. Using endothelial cell (EC)-Fak-/- mice, we show that FAK sensing and transmission of mechanical tension to the EC nucleus governs cell fate. In FAK-deleted EC, increased EC tension induced by Rho kinase caused tyrosine phosphorylation of nuclear envelope protein, emerin at Y74/Y95, and its localization in a nuclear cap. Activated emerin stimulated DNMT3a activity and methylation of the KLF2 promoter, impairing the restrictive EC transcriptome, including S1PR1. Inhibiting emerin phosphorylation or DNMT3a activity enabled KLF2 transcription of S1PR1, rescuing the restrictive EC phenotype in EC-Fak-/- lungs. Thus, FAK sensing of tension transmission to the nucleus is crucial for maintaining a restrictive EC fate and lung homeostasis.
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http://biorxiv.org/cgi/content/short/2023.04.24.538195v1?rss=1
Authors: Akhter, M. Z., Yazbeck, P., Tauseef, M., Anwar, M., Hossen, F., Datta, S., Vellingiri, V., Joshi, J. C., Srivastava, N., Lenzini, S., Zhou, G., Lee, J., Jain, M. K., Shin, J.-W., Mehta, D.
Abstract:
Vascular endothelium forms a restrictive barrier to defend the underlying tissue against uncontrolled influx of circulating protein and immune cells. Mechanisms that mediate the transition from restrictive to leaky endothelium, a hallmark of tissue injury exemplified by acute lung injury (ALI), remain elusive. Using endothelial cell (EC)-Fak-/- mice, we show that FAK sensing and transmission of mechanical tension to the EC nucleus governs cell fate. In FAK-deleted EC, increased EC tension induced by Rho kinase caused tyrosine phosphorylation of nuclear envelope protein, emerin at Y74/Y95, and its localization in a nuclear cap. Activated emerin stimulated DNMT3a activity and methylation of the KLF2 promoter, impairing the restrictive EC transcriptome, including S1PR1. Inhibiting emerin phosphorylation or DNMT3a activity enabled KLF2 transcription of S1PR1, rescuing the restrictive EC phenotype in EC-Fak-/- lungs. Thus, FAK sensing of tension transmission to the nucleus is crucial for maintaining a restrictive EC fate and lung homeostasis.
Copy rights belong to original authors. Visit the link for more info
Podcast created by Paper Player, LLC
Released:
Apr 26, 2023
Format:
Podcast episode
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