DLC1 promotes mechanotransductive feedback for YAP via RhoGAP-mediated focal adhesion turnover.
Aukie HooglugtMiesje M van der StoelApeksha ShapetiBeau F NeepAnnett de HaanHans van OosterwyckReinier Abraham BoonStephan HuveneersPublished in: Journal of cell science (2024)
Angiogenesis is a tightly controlled dynamic process demanding a delicate equilibrium between pro-angiogenic signals and factors that promote vascular stability. The spatiotemporal activation of the transcriptional co-factors YAP (herein referring to YAP1) and TAZ (also known WWTR1), collectively denoted YAP/TAZ, is crucial to allow for efficient collective endothelial migration in angiogenesis. The focal adhesion protein deleted-in-liver-cancer-1 (DLC1) was recently described as a transcriptional downstream target of YAP/TAZ in endothelial cells. In this study, we uncover a negative feedback loop between DLC1 expression and YAP activity during collective migration and sprouting angiogenesis. In particular, our study demonstrates that signaling via the RhoGAP domain of DLC1 reduces nuclear localization of YAP and its transcriptional activity. Moreover, the RhoGAP activity of DLC1 is essential for YAP-mediated cellular processes, including the regulation of focal adhesion turnover, traction forces, and sprouting angiogenesis. We show that DLC1 restricts intracellular cytoskeletal tension by inhibiting Rho signaling at the basal adhesion plane, consequently reducing nuclear YAP localization. Collectively, these findings underscore the significance of DLC1 expression levels and its function in mitigating intracellular tension as a pivotal mechanotransductive feedback mechanism that finely tunes YAP activity throughout the process of sprouting angiogenesis.
Keyphrases
- endothelial cells
- vascular endothelial growth factor
- poor prognosis
- gene expression
- transcription factor
- biofilm formation
- high glucose
- escherichia coli
- signaling pathway
- cystic fibrosis
- heat shock
- pseudomonas aeruginosa
- staphylococcus aureus
- cell adhesion
- long non coding rna
- candida albicans
- heat stress
- smooth muscle