Mechanoregulatory role of TRPV4 in prenatal skeletal development

Abstract: Biophysical cues are essential for guiding skeletal development, but the mechanisms underlying the mechanical regulation of cartilage and bone formation are unknown. TRPV4 is a cell membrane ion channel responsible for transducing mechanical stimuli as a means of regulating skeletal cell homeostatic processes. Dysregulation of TRPV4 is associated with several skeletal developmental pathologies, indicating its involvement in cartilage and bone development, potentially in a mechanosensing capacity. In this study… Show more

“…We developed a bioreactor system for ex vivo mechanical stimulation of explanted fetal limbs ( 22 ). Pharmacologic inhibition shows that the ion channel Trpv4( 40 ) mediates skeletal mechanosensing, but the mechanotransductive signaling mediators are unknown. YAP and TAZ mediate mechanotransduction in other embryonic tissues ( 41 ), and are dysregulated in a mouse model of fetal akinesia( 42 ).…”

YAP and TAZ couple osteoblast precursor mobilization to angiogenesis and mechanoregulated bone development

“…We developed a bioreactor system for ex vivo mechanical stimulation of explanted fetal limbs ( 22 ). Pharmacologic inhibition shows that the ion channel Trpv4( 40 ) mediates skeletal mechanosensing, but the mechanotransductive signaling mediators are unknown. YAP and TAZ mediate mechanotransduction in other embryonic tissues ( 41 ), and are dysregulated in a mouse model of fetal akinesia( 42 ).…”

YAP and TAZ couple osteoblast precursor mobilization to angiogenesis and mechanoregulated bone development