Eugenol dilates mesenteric arteries and reduces systemic BP by activating endothelial cell <scp>TRPV</scp>4 channels

Peixoto‐Neves, Dieniffer; Wang, Qian; Leal-Cardoso, José Henrique; Rossoni, Luciana Venturini; Jaggar, Jonathan H.

doi:10.1111/bph.13156

Cited by 48 publications

(36 citation statements)

References 66 publications

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“…To explain the observed significant dependence of 4αPDD-induced relaxation on stimulation of endothelial TRPV4 channels, immunohistochemical analysis was employed and it revealed that TRPV4 channels are mainly expressed on the endothelium of mesenteric arteries in both WKY and SHR, and in agreement with previous studies on mouse mesenteric and aortic arteries (Zhang et al 2009, Mendoza et al 2010, and rat mesenteric, pulmonary and carotid arteries (Loot et al 2008, Willette et al 2008, Sukumaran et al 2013, Peixoto-Neves et al 2015. Furthermore, the immunofluorescent signal for TRPV4 protein that was seen in the endothelial cells of wild-type mesenteric and carotid arteries was not seen in those of TRPV4 -/mice (Hartmannsgruber et al 2007, Mendoza et al 2010).…”

Section: Discussionsupporting

confidence: 83%

Downregulation of endothelial transient receptor potential vanilloid type 4 channel underlines impaired endothelial nitric oxide-mediated relaxation in the mesenteric arteries of hypertensive rats

et al. 2019

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The endothelium contributes to the maintenance of vasodilator tone by releasing endothelium-derived relaxing factors, including nitric oxide (NO). In hypertension, endothelial nitric oxide synthase (eNOS) produces less NO and could be one of the contributing factors to the increased peripheral vascular resistance. Agonist-induced Ca(2+) entry is essential for the activation of eNOS. The transient receptor potential vanilloid type 4 (TRPV4) channel, a Ca(2+)-permeant cation channel, is expressed in the endothelial cells and involved in the regulation of vascular tone. The present study aimed to investigate the role of TRPV4 channel in endothelium-dependent NO-mediated relaxation of the resistance artery in hypertensive rats. Using a wire myograph, relaxation response to the TRPV4 activator, 4alpha-phorbol-12,13-didecanoate (4alphaPDD) was assessed in mesenteric arteries obtained from Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHRs). Compared to WKY, SHR demonstrated a significantly attenuated 4alphaPDD-induced endothelium-dependent NO-mediated relaxation. Immunohistochemical analysis revealed positive staining for TRPV4 in the endothelium of mesenteric artery sections in both WKY and SHR. Furthermore, TRPV4 mRNA and protein expressions in SHR were significantly lower than their expression levels in WKY rats. We conclude that 4alphaPDD-induced endothelium-dependent NO-mediated vasorelaxation is reduced in SHR and downregulation of TRPV4 could be one of the contributing mechanisms.

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Section: Discussionsupporting

confidence: 83%

Downregulation of endothelial transient receptor potential vanilloid type 4 channel underlines impaired endothelial nitric oxide-mediated relaxation in the mesenteric arteries of hypertensive rats

et al. 2019

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“…An alternative pathway is that increased intracellular calcium in vascular endothelial cells activates NOS and subsequent vasodilation through NO‐related mechanism . This idea is based on a previous study showing that L‐NAME, an NOS inhibitor, blocked TRPV4‐mediated vasodilation in mesenteric arteries . However, this mechanism is unlikely because chronic hypoperfusion did not affect vasoconstriction of PAs to NOS inhibitor L‐NNA, suggesting NO production was not increased after UCCAo.…”

Section: Discussionmentioning

confidence: 99%

Transient receptor potential vanilloid‐4 channels are involved in diminished myogenic tone in brain parenchymal arterioles in response to chronic hypoperfusion in mice

2018

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“…, see section ), also cause relaxations which are partly endothelium‐dependent (with both NO and EDH contributing) and are due to the opening of endothelial TRPV4 channels (Peixoto‐Neves et al . ), while their endothelium‐independent vasodilator properties result from inhibition of L‐type Ca 2+ channels in vascular smooth muscle (Raffai et al . ).…”

Section: Nitric Oxidementioning

confidence: 99%

Endothelial dysfunction and vascular disease - a 30th anniversary update

Vanhoutte¹,

et al. 2016

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The endothelium can evoke relaxations of the underlying vascular smooth muscle, by releasing vasodilator substances. The best-characterized endothelium-derived relaxing factor (EDRF) is nitric oxide (NO) which activates soluble guanylyl cyclase in the vascular smooth muscle cells, with the production of cyclic guanosine monophosphate (cGMP) initiating relaxation. The endothelial cells also evoke hyperpolarization of the cell membrane of vascular smooth muscle (endothelium-dependent hyperpolarizations, EDH-mediated responses). As regards the latter, hydrogen peroxide (H O ) now appears to play a dominant role. Endothelium-dependent relaxations involve both pertussis toxin-sensitive G (e.g. responses to α -adrenergic agonists, serotonin, and thrombin) and pertussis toxin-insensitive G (e.g. adenosine diphosphate and bradykinin) coupling proteins. New stimulators (e.g. insulin, adiponectin) of the release of EDRFs have emerged. In recent years, evidence has also accumulated, confirming that the release of NO by the endothelial cell can chronically be upregulated (e.g. by oestrogens, exercise and dietary factors) and downregulated (e.g. oxidative stress, smoking, pollution and oxidized low-density lipoproteins) and that it is reduced with ageing and in the course of vascular disease (e.g. diabetes and hypertension). Arteries covered with regenerated endothelium (e.g. following angioplasty) selectively lose the pertussis toxin-sensitive pathway for NO release which favours vasospasm, thrombosis, penetration of macrophages, cellular growth and the inflammatory reaction leading to atherosclerosis. In addition to the release of NO (and EDH, in particular those due to H O ), endothelial cells also can evoke contraction of the underlying vascular smooth muscle cells by releasing endothelium-derived contracting factors. Recent evidence confirms that most endothelium-dependent acute increases in contractile force are due to the formation of vasoconstrictor prostanoids (endoperoxides and prostacyclin) which activate TP receptors of the vascular smooth muscle cells and that prostacyclin plays a key role in such responses. Endothelium-dependent contractions are exacerbated when the production of nitric oxide is impaired (e.g. by oxidative stress, ageing, spontaneous hypertension and diabetes). They contribute to the blunting of endothelium-dependent vasodilatations in aged subjects and essential hypertensive and diabetic patients. In addition, recent data confirm that the release of endothelin-1 can contribute to endothelial dysfunction and that the peptide appears to be an important contributor to vascular dysfunction. Finally, it has become clear that nitric oxide itself, under certain conditions (e.g. hypoxia), can cause biased activation of soluble guanylyl cyclase leading to the production of cyclic inosine monophosphate (cIMP) rather than cGMP and hence causes contraction rather than relaxation of the underlying vascular smooth muscle.

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Eugenol dilates mesenteric arteries and reduces systemic BP by activating endothelial cell TRPV4 channels

Cited by 48 publications

References 66 publications

Downregulation of endothelial transient receptor potential vanilloid type 4 channel underlines impaired endothelial nitric oxide-mediated relaxation in the mesenteric arteries of hypertensive rats

Downregulation of endothelial transient receptor potential vanilloid type 4 channel underlines impaired endothelial nitric oxide-mediated relaxation in the mesenteric arteries of hypertensive rats

Transient receptor potential vanilloid‐4 channels are involved in diminished myogenic tone in brain parenchymal arterioles in response to chronic hypoperfusion in mice

Endothelial dysfunction and vascular disease - a 30th anniversary update

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