And here it comes again: TRPV1 receptors! This time activating the bronchoconstriction mechanism is asthmatic patients. Check the full work by Dr. Jendzjowsky from Wilson Lab on @NatureComms @UCPhysPharm @AsthmaCanada
Retweeting this amazing work that I had a chance to collaborate with!
Following up on our most recent study. https://t.co/u6Tj9moajX , more coming soon!
Preventing acute asthmatic symptoms by targeting a neuronal mechanism involving carotid body lysophosphatidic acid receptors | Nature Communications https://t.co/zOwW1NGJHj
RT @lipidchronicles: Symptons of acute asthma prevented by targeting a neuronal mechanism involving carotid body receptors for lyso-PA http…
Symptons of acute asthma prevented by targeting a neuronal mechanism involving carotid body receptors for lyso-PA https://t.co/8lSRSKzzlX (@NatureComms)
Very neat! The future may hold a new way to treat asthma - by targeting carotid artery body LPA receptors. A discovery only made possible because of animal studies. Thank you rats! https://t.co/WJUcbtHd0H
@RadioAdamBrilz @AdamMacVicar Great to see this research being reported @AdamMacVicar @RadioAdamBrilz Thought you might also be interested in the following: https://t.co/ILpGo2rQYp and the original paper: https://t.co/7kA0v2SBw9
喘息のラットモデルにおいて、アレルギー反応における頚動脈小体の活性化は、リゾホスファチジン酸(LPA)が全身に放出されることが一因。カプサイシン受容体TRPV1、LPA特異的受容体が関与し、副交感神経が活性化し、 気管支が収縮する。これらの受容体拮抗薬に喘息予防/緩和効果https://t.co/72EUhklsRO
Congratulations @sns_nick!
Fantastic paper by @sns_nick I was there to witness all the blood, sweat, and tears that went into this one. Congrats! https://t.co/uia6WfzFPf
RT @NatureComms: Richard Wilson and colleagues @UCalgary suggest new ways to treat asthma by targeting carotid body lysophosphatidic acid r…
Richard Wilson and colleagues @UCalgary suggest new ways to treat asthma by targeting carotid body lysophosphatidic acid receptors. https://t.co/1xMiNETz8x