Tension-dependent RHGF-1 recruitment to stress fibers drives robust spermathecal tissue contraction.
Shiri Avivi KelaKriti SethiPei Yi TanDanesha Devini SureshHui Ting OngPerla G CastanedaMustafi Raisa AminTal LavivErin J CramJan FaixRonen Zaidel-BarPublished in: The Journal of cell biology (2022)
Contractile epithelial tubes are found in various organs, such as lung airways and blood capillaries. Their ability to sense luminal pressure and respond with adequate contractility is essential for their physiology, and its mis-regulation results in diseases such as asthma and hypertension. Here, we describe a mechanoresponsive regulatory pathway downstream of tissue stretching that controls contraction of the C. elegans spermatheca, a tubular structure where fertilization occurs. Using live-imaging, we show that ovulation-induced stretching of spermathecal cells leads to recruitment of the RhoGEF RHGF-1 to stress fibers, which activates RHO-1 and myosin II in a positive feedback loop. Through deletion analysis, we identified the PDZ domain of RHGF-1 as responsible for F-actin binding, and genetic epistasis analysis with the RhoGAP spv-1 demonstrated that tension-dependent recruitment of RHGF-1 to F-actin is required for robust spermathecal contractility. Our study illustrates how mechanosensitive regulators of Rho GTPases provide epithelial tubes the ability to tune their contractility in response to internal pressure.
Keyphrases
- smooth muscle
- transcription factor
- blood pressure
- induced apoptosis
- chronic obstructive pulmonary disease
- cystic fibrosis
- high resolution
- skeletal muscle
- binding protein
- polycystic ovary syndrome
- gene expression
- stress induced
- lung function
- cell proliferation
- signaling pathway
- diabetic rats
- dna methylation
- air pollution
- pi k akt
- heat stress