PIEZOs mediate neuronal sensing of blood pressure and the baroreceptor reflex.
Wei-Zheng ZengKara L MarshallSoohong MinIhab DaouMark W ChapleauFrancois M AbboudStephen D LiberlesArdem PatapoutianPublished in: Science (New York, N.Y.) (2018)
Activation of stretch-sensitive baroreceptor neurons exerts acute control over heart rate and blood pressure. Although this homeostatic baroreflex has been described for more than 80 years, the molecular identity of baroreceptor mechanosensitivity remains unknown. We discovered that mechanically activated ion channels PIEZO1 and PIEZO2 are together required for baroreception. Genetic ablation of both Piezo1 and Piezo2 in the nodose and petrosal sensory ganglia of mice abolished drug-induced baroreflex and aortic depressor nerve activity. Awake, behaving animals that lack Piezos had labile hypertension and increased blood pressure variability, consistent with phenotypes in baroreceptor-denervated animals and humans with baroreflex failure. Optogenetic activation of Piezo2-positive sensory afferents was sufficient to initiate baroreflex in mice. These findings suggest that PIEZO1 and PIEZO2 are the long-sought baroreceptor mechanosensors critical for acute blood pressure control.
Keyphrases
- blood pressure
- heart rate
- drug induced
- liver injury
- hypertensive patients
- heart rate variability
- liver failure
- respiratory failure
- aortic dissection
- heart failure
- spinal cord
- coronary artery
- high fat diet induced
- hepatitis b virus
- metabolic syndrome
- dna methylation
- adipose tissue
- genome wide
- left ventricular
- pulmonary hypertension
- intensive care unit
- deep brain stimulation
- mechanical ventilation
- pulmonary arterial hypertension
- skeletal muscle
- catheter ablation