Add to ORKGMechanosensation is perhaps the last sensory modality not understood at the molecular level. Ion channels that sense mechanical force are postulated to play critical roles in a variety of biological processes including sensing touch/pain (somatosensation), sound (hearing), and shear stress (cardiovascular physiology); however, the identity of these ion channels has remained elusive. We previously identified Piezo1 and Piezo2 as mechanically activated cation channels that are expressed in many mechanosensitive cell types. Here, we show that Piezo1 is expressed in endothelial cells of developing blood vessels in mice. Piezo1-deficient embryos die at midgestation with defects in vascular remodeling, a process critically influenced by blood flo...
Mechanical forces play important roles in shaping mammalian development. In the embryo, cells experi...
Arterial blood pressure is controlled by vasodilatory factors such as nitric oxide (NO) that are rel...
PIEZO1 is a cation channel that is activated by mechanical forces such as fluid shear stress or memb...
Mechanosensation is perhaps the last sensory modality not understood at the molecular level. Ion cha...
The mechanisms by which physical forces regulate endothelial cells to determine the complexities of ...
Mechanosensitive ion channels mediate endothelial responses to blood flow and orchestrate their phys...
SummaryThe mechanically activated non-selective cation channel Piezo1 is a determinant of vascular a...
Shear stress exerted by the blood stream modulates endothelial functions through altering gene expre...
The mechanically activated non-selective cation channel Piezo1 is a determinant of vascular architec...
International audienceMechanotransduction is the conversion of mechanical stimuli into biological si...
Mammalian biology adapts to physical activity but the molecular mechanisms sensing the activity rema...
International audienceAims: During embryogenesis, the onset of circulatory blood flow generates a va...
Aims: During embryogenesis, the onset of circulatory blood flow generates a variety of hemodynamic f...
Piezo1 proteins are Na+ and Ca2+ permeable mechanosensitive ion channels. Expressed on endothelial c...
Mechanical forces play important roles in shaping mammalian development. In the embryo, cells experi...
Arterial blood pressure is controlled by vasodilatory factors such as nitric oxide (NO) that are rel...
PIEZO1 is a cation channel that is activated by mechanical forces such as fluid shear stress or memb...
Mechanosensation is perhaps the last sensory modality not understood at the molecular level. Ion cha...
The mechanisms by which physical forces regulate endothelial cells to determine the complexities of ...
Mechanosensitive ion channels mediate endothelial responses to blood flow and orchestrate their phys...
SummaryThe mechanically activated non-selective cation channel Piezo1 is a determinant of vascular a...
Shear stress exerted by the blood stream modulates endothelial functions through altering gene expre...
The mechanically activated non-selective cation channel Piezo1 is a determinant of vascular architec...
International audienceMechanotransduction is the conversion of mechanical stimuli into biological si...
Mammalian biology adapts to physical activity but the molecular mechanisms sensing the activity rema...
International audienceAims: During embryogenesis, the onset of circulatory blood flow generates a va...
Aims: During embryogenesis, the onset of circulatory blood flow generates a variety of hemodynamic f...
Piezo1 proteins are Na+ and Ca2+ permeable mechanosensitive ion channels. Expressed on endothelial c...
Mechanical forces play important roles in shaping mammalian development. In the embryo, cells experi...
Arterial blood pressure is controlled by vasodilatory factors such as nitric oxide (NO) that are rel...
PIEZO1 is a cation channel that is activated by mechanical forces such as fluid shear stress or memb...