Shuhko Kuriyama scite author profile

Systemic inflammation induces various adaptive responses including tachycardia. Although inflammation-associated tachycardia has been thought to result from increased sympathetic discharge caused by inflammatory signals of the immune system, definitive proof has been lacking. Prostanoids, including prostaglandin (PG) D(2), PGE(2), PGF(2alpha), PGI(2) and thromboxane (TX) A(2), exert their actions through specific receptors: DP, EP (EP(1), EP(2), EP(3), EP(4)), FP, IP and TP, respectively. Here we have examined the roles of prostanoids in inflammatory tachycardia using mice that lack each of these receptors individually. The TXA(2) analog I-BOP and PGF(2alpha) each increased the beating rate of the isolated atrium of wild-type mice in vitro through interaction with TP and FP receptors, respectively. The cytokine-induced increase in beating rate was markedly inhibited in atria from mice lacking either TP or FP receptors. The tachycardia induced in wild-type mice by injection of lipopolysaccharide (LPS) was greatly attenuated in TP-deficient or FP-deficient mice and was completely absent in mice lacking both TP and FP. The beta-blocker propranolol did not block the LPS-induced increase in heart rate in wild-type animals. Our results show that inflammatory tachycardia is caused by a direct action on the heart of TXA(2) and PGF(2alpha) formed under systemic inflammatory conditions.

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Decreased susceptibility to renovascular hypertension in mice lacking the prostaglandin I2 receptor IP

Fujino

Nakagawa

Yuhki

et al. 2004

J. Clin. Invest.

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Persistent reduction of renal perfusion pressure induces renovascular hypertension by activating the reninangiotensin-aldosterone system; however, the sensing mechanism remains elusive. Here we investigated the role of PGI 2 in renovascular hypertension in vivo, employing mice lacking the PGI 2 receptor (IP -/-mice). In WT mice with a two-kidney, one-clip model of renovascular hypertension, the BP was significantly elevated. The increase in BP in IP -/-mice, however, was significantly lower than that in WT mice. Similarly, the increases in plasma renin activity, renal renin mRNA, and plasma aldosterone in response to renal artery stenosis were all significantly lower in IP -/-mice than in WT mice. All these parameters were measured in mice lacking the four PGE 2 receptor subtypes individually, and we found that these mice had similar responses to WT mice. PGI 2 is produced by COX-2 and a selective inhibitor of this enzyme, SC-58125, also significantly reduced the increases in plasma renin activity and renin mRNA expression in WT mice with renal artery stenosis, but these effects were absent in IP -/-mice. When the renin-angiotensin-aldosterone system was activated by salt depletion, SC-58125 blunted the response in WT mice but not in IP -/-mice. These results indicate that PGI 2 derived from COX-2 plays a critical role in regulating the release of renin and consequently renovascular hypertension in vivo.

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Augmented Cardiac Hypertrophy in Response to Pressure Overload in Mice Lacking the Prostaglandin I ₂ Receptor

et al. 2005

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Background-In the heart, the expressions of several types of prostanoid receptors have been reported. However, their roles in cardiac hypertrophy in vivo remain unknown. We intended to clarify the roles of these receptors in pressure overload-induced cardiac hypertrophy using mice lacking each of their receptors. Methods and Results-We used a model of pressure overload-induced cardiac hypertrophy produced by banding of the transverse aorta in female mice. In wild-type mice subjected to the banding, cardiac hypertrophy developed during the observation period of 8 weeks. In mice lacking the prostaglandin (PG) I 2 receptor (IP Ϫ/Ϫ ), however, cardiac hypertrophy and cardiomyocyte hypertrophy were significantly greater than in wild-type mice at 2 and 4 weeks but not at 8 weeks, whereas there was no such augmentation in mice lacking the prostanoid receptors other than IP. In addition, cardiac fibrosis observed in wild-type hearts was augmented in IP Ϫ/Ϫ hearts, which persisted for up to 8 weeks. In IP Ϫ/Ϫ hearts, the expression level of mRNA for atrial natriuretic peptide, a representative marker of cardiac hypertrophy, was significantly higher than in wild-type hearts. In vitro, cicaprost, an IP agonist, reduced platelet-derived growth factor-induced proliferation of wild-type noncardiomyocytes, although it could not inhibit cardiotrophin-1-induced hypertrophy of cardiomyocytes. Accordingly, cicaprost increased cAMP concentration efficiently in noncardiomyocytes. Conclusions-IP

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Shuhko Kuriyama

Prostaglandin E ₂ Protects the Heart From Ischemia-Reperfusion Injury via Its Receptor Subtype EP ₄

Thromboxane A2 and prostaglandin F2α mediate inflammatory tachycardia

Decreased susceptibility to renovascular hypertension in mice lacking the prostaglandin I2 receptor IP

Augmented Cardiac Hypertrophy in Response to Pressure Overload in Mice Lacking the Prostaglandin I ₂ Receptor

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Shuhko Kuriyama

Prostaglandin E 2 Protects the Heart From Ischemia-Reperfusion Injury via Its Receptor Subtype EP 4

Thromboxane A2 and prostaglandin F2α mediate inflammatory tachycardia

Decreased susceptibility to renovascular hypertension in mice lacking the prostaglandin I2 receptor IP

Augmented Cardiac Hypertrophy in Response to Pressure Overload in Mice Lacking the Prostaglandin I 2 Receptor

Contact Info

Product

Resources

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Prostaglandin E ₂ Protects the Heart From Ischemia-Reperfusion Injury via Its Receptor Subtype EP ₄

Augmented Cardiac Hypertrophy in Response to Pressure Overload in Mice Lacking the Prostaglandin I ₂ Receptor