Exaggerated sympathetic and cardiovascular responses to dynamic mechanoreflex activation in rats with heart failure: Role of endoperoxide 4 and thromboxane A2 receptors

Abstract Emerging evidence attributes to orexins/hypocretins (ORs) a protective function in the regulation of cardiovascular responses, heart rate, and hypertension. However, little is known about any direct effect of orexins in the heart function. This is of special relevance considering that cardiovascular diseases, including myocardial infarction and heart failure, are one of the major causes of mortality in the world. In the article published in Clinical Science (2018) (vol. 132, 2547–2564), Patel and colleagues investigated the role of orexins in myocardial protection. Intriguingly, they revealed a source of orexin-A (OR-A) and orexin-B (OR-B) in the heart and cardiomyocytes of the rat. More interestingly, these peptides exert a direct effect on the heart rate by acting in an autocrine/paracrine manner on their respective receptors (OXRs). Indeed, OR-B, but not OR-A, by acting through orexin receptor-2 (OX2R), exerts direct cardioprotective effects in heart failure models. OR-B/OX2R signalling enhances myosin light chain (MLC) and troponin-I (TnI) phosphorylation in a dose-dependent manner, leading to an increase in the strength of their twitch contraction. This effect is mediated by extracellular signal-regulated kinase 1/2 (ERK1/2) and Akt phosphorylation, both in the rat myocardial tissue and human heart samples. A negative correlation between OX2R expression and clinical severity of symptoms has been found in patients with heart failure. Thus, in addition to the known central effects of orexins/OX2R, the work of Patel and colleagues (Clinical Science (2018) 132, 2547–2564) reports a direct action of OR-B on the heart rate pinpointing to OX2R as a potential therapeutic target for prevention and treatment of cardiovascular disease.

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Responsiveness of the guinea pig trachea to stretch: role of the epithelium and cyclooxygenase products

Journal of Applied Physiology ◽

10.1152/jappl.1993.75.5.2112 ◽

1993 ◽

Vol 75 (5) ◽

pp. 2112-2116 ◽

Cited By ~ 15

Author(s):

Y. Gao ◽

P. M. Vanhoutte

Keyword(s):

Guinea Pig ◽

Acetylsalicylic Acid ◽

Thromboxane A2 ◽

Isometric Tension ◽

Similar Response ◽

Thromboxane Synthase ◽

Prostacyclin Synthase ◽

A2 Receptors

The role of the epithelium and cyclooxygenase products was investigated in the responses of isolated airways to sudden stretch. Strips of guinea pig trachea, in some of which the epithelium had been removed mechanically, were suspended in organ chambers; isometric tension was recorded. After rapid stretching to their optimal tension, the preparations (with and without epithelium) relaxed initially and then contracted to a level close to the imposed tension. Afterward, tissues with epithelium maintained this level of tension, but those without epithelium relaxed. After treatment with papaverine or isoproterenol (at concentrations causing maximal relaxation), stretch was followed only by a decrease in tension; a similar response to stretch was also obtained in tissues treated with indomethacin or acetylsalicylic acid (inhibitors of cyclooxygenase). Dazmegrel (an inhibitor of thromboxane synthase) and SQ-29548 (an antagonist of prostaglandin H2 or thromboxane A2 receptors) did not affect the response of tissues with epithelium but abolished the stretch-induced contraction in those without epithelium. Tranylcypromine, which inhibits prostacyclin synthase, and tetrodotoxin, which blocks local reflexes, did not significantly affect the responses of the tissues to stretch. These observations suggest that thromboxane may mediate the epithelium-independent contraction and that another product of cyclooxygenase contributes to the maintenance of tension on stretching observed in tissues with epithelium.

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Involvement of prostaglandin F2α in preeclamptic human umbilical vein vasospasm: a role of prostaglandin F and thromboxane A2 receptors

Journal of Hypertension ◽

10.1097/hjh.0b013e32833e868f ◽

2010 ◽

pp. 1

Author(s):

Gokce Topal ◽

Nabil Foudi ◽

B Sonmez Uydes-Dogan ◽

Thierry Cachina ◽

Mine Kucur ◽

...

Keyword(s):

Umbilical Vein ◽

Prostaglandin F2α ◽

Thromboxane A2 ◽

Human Umbilical Vein ◽

Prostaglandin F ◽

A2 Receptors

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Products of cyclooxygenase mediate the responses of the guinea pig trachea to hydrogen peroxide

Journal of Applied Physiology ◽

10.1152/jappl.1993.74.5.2105 ◽

1993 ◽

Vol 74 (5) ◽

pp. 2105-2111 ◽

Cited By ~ 23

Author(s):

Y. Gao ◽

P. M. Vanhoutte

Keyword(s):

Hydrogen Peroxide ◽

Guinea Pig ◽

Thromboxane A2 ◽

Isometric Tension ◽

Thromboxane B2 ◽

Low Concentrations ◽

The Difference ◽

By Products ◽

A2 Receptors

The role of products of cyclooxygenase was investigated in the responses of isolated airways to H2O2. Strips of guinea pig trachea, in some of which the epithelium had been removed mechanically, were suspended in organ chambers, and isometric tension was recorded. Under basal conditions, H2O2 induced indomethacin-sensitive contractions, which were larger in preparations without than in those with epithelium; the difference was abolished by inhibitors of thromboxane synthase or thromboxane A2 receptors. During contractions to acetylcholine, low concentrations of H2O2 induced relaxation in preparations with but had no significant effect in those without epithelium. At higher concentrations of H2O2, the epithelium-dependent relaxation was attenuated but an epithelium-independent relaxation appeared. The epithelium-dependent but not the epithelium-independent responses to H2O2 were blocked by indomethacin. Under basal conditions, prostaglandin E2 (PGE2; < or = 10(-7) M), U-46619, prostaglandin PGF2 alpha (PGF2 alpha), prostaglandin PGD2 (PGD2), and prostacyclin (PGI2) caused contractions. During contractions to acetylcholine, PGE2 induced larger relaxations in preparations with than in those without epithelium. Radioimmunoassay revealed that lower concentrations of H2O2 predominantly increased the release of PGE2 and 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha); in preparations without epithelium, the release of thromboxane B2 was augmented also. At higher concentrations of H2O2, the release of PGE2, PGF2 alpha, PGD2, 6-keto-PGF1 alpha, and thromboxane B2 increased in preparations with and without epithelium. These findings demonstrate that the responses of the guinea pig trachea to H2O2 are mediated mainly by products of cyclooxygenase and that the effects of H2O2 are modulated by the epithelium.

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Acute effects of prostaglandin D2 to induce airflow obstruction and airway microvascular leakage in guinea pigs: role of thromboxane A2 receptors

Prostaglandins & Other Lipid Mediators ◽

10.1016/s0090-6980(01)00115-0 ◽

2001 ◽

Vol 66 (1) ◽

pp. 1-15 ◽

Cited By ~ 9

Author(s):

Hideko Nishimura ◽

Kenichi Tokuyama ◽

Yoshinari Inoue ◽

Hirokazu Arakawa ◽

Masahiko Kato ◽

...

Keyword(s):

Guinea Pigs ◽

Airflow Obstruction ◽

Thromboxane A2 ◽

Prostaglandin D2 ◽

Acute Effects ◽

Microvascular Leakage ◽

A2 Receptors

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Protective role of peroxiredoxin-4 in heart failure

Clinical Science ◽

10.1042/cs20191072 ◽

2020 ◽

Vol 134 (1) ◽

pp. 71-72

Author(s):

Naseer Ahmed ◽

Masooma Naseem ◽

Javeria Farooq

Keyword(s):

Heart Failure ◽

Cardiac Fibroblasts ◽

Protective Role ◽

Oxidative Stress Markers ◽

Stress Markers ◽

Total Antioxidant ◽

Galectin 3 ◽

Consequent Increase ◽

And Oxidative Stress

Abstract Recently, we have read with great interest the article published by Ibarrola et al. (Clin. Sci. (Lond.) (2018) 132, 1471–1485), which used proteomics and immunodetection methods to show that Galectin-3 (Gal-3) down-regulated the antioxidant peroxiredoxin-4 (Prx-4) in cardiac fibroblasts. Authors concluded that ‘antioxidant activity of Prx-4 had been identified as a protein down-regulated by Gal-3. Moreover, Gal-3 induced a decrease in total antioxidant capacity which resulted in a consequent increase in peroxide levels and oxidative stress markers in cardiac fibroblasts.’ We would like to point out some results stated in the article that need further investigation and more detailed discussion to clarify certain factors involved in the protective role of Prx-4 in heart failure.

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