Dong, Z., Wang, H., Zhang, R., Guo, Z., Zhang, B., Pei, R., Guo, X., Xia, P., Si, G., Chen, J. (2025). TRPM-mediated mechanoreception regulates myosin oscillation during tissue elongation.  Curr. Biol. 35(23): 5793--5807.e4.

FBrf0263973

Research paper

Periodic oscillation of myosin II has been shown to be required for a wide variety of morphogenetic processes, including tissue elongation of Drosophila egg chambers during mid and late oogenesis. But what developmental cues initiate myosin oscillation in the basal region of the somatic follicle cells in stage 9 egg chambers is not clear. Here, we show that increased mechanical pressure caused by the growth of the adjacent germline tissue could serve as a temporal and spatial cue that helps induce basal myosin oscillation in early-mid stage 9 follicle cells through the function of the mechanosensing TRPM (transient receptor potential M) channel. We demonstrate that TRPM is expressed in stage 9 follicle cells and is required for calcium influx, myosin oscillation, and tissue elongation. Furthermore, calcium levels and the propagation of calcium waves across the follicle epithelium-which requires gap junction function-are critical for myosin oscillation, which we show to be regulated by both the CaM-MLCK and Rho1-Rok pathways. Together, our results support a model that, beginning at stage 9 of oogenesis, growth-induced mechanical pressure serves as a developmental cue to initiate periodic basal myosin oscillations through the function of the mechanosensing calcium channel, TRPM, to drive tissue elongation.