Prostaglandin E2 sequentially activates E‐prostanoid receptor‐3 and thromboxane prostanoid receptor to evoke contraction and increase in resistance of the mouse renal vasculature

Although recognized to have an in vivo vasodepressor effect blunted by the vasoconstrictor effect of E‐prostanoid receptor‐3 (EP3), prostaglandin E2 (PGE2) evokes contractions of many vascular beds that are sensitive to antagonizing the thromboxane prostanoid receptor (TP). This study aimed to deter...

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Veröffentlicht in:	The FASEB journal 2020-02, Vol.34 (2), p.2568-2578
Hauptverfasser:	Liu, Bin, Wu, Xiangzhong, Zeng, Ruhui, Yin, Yehu, Guo, Tingting, Xu, Yineng, Zhang, Yingzhan, Leng, Jing, Ge, Jiahui, Yu, Gang, Guo, Jinwei, Zhou, Yingbi
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Sprache:	eng
Schlagworte:	EP3 gene deficiency PGE2 renal vasoconstriction
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container_title	The FASEB journal
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creator	Liu, Bin Wu, Xiangzhong Zeng, Ruhui Yin, Yehu Guo, Tingting Xu, Yineng Zhang, Yingzhan Leng, Jing Ge, Jiahui Yu, Gang Guo, Jinwei Zhou, Yingbi
description	Although recognized to have an in vivo vasodepressor effect blunted by the vasoconstrictor effect of E‐prostanoid receptor‐3 (EP3), prostaglandin E2 (PGE2) evokes contractions of many vascular beds that are sensitive to antagonizing the thromboxane prostanoid receptor (TP). This study aimed to determine the direct effect of PGE2 on renal arteries and/or the whole renal vasculature and how each of these two receptors is involved in the responses. Experiments were performed on isolated vessels and perfused kidneys of wild‐type mice and/or mice with deficiency in TP (TP−/−), EP3 (EP3−/−), or both TP and EP3 (TP−/−/EP3−/−). Here we show that PGE2 (0.001‐30 μM) evoked not only contraction of main renal arteries, but also a decrease of flow in perfused kidneys. EP3‐/‐ diminished the response to 0.001‐0.3 μM PGE2, while TP−/− reduced that to the prostanoid of higher concentrations. In TP−/−/EP3−/− vessels and perfused kidneys, PGE2 did not evoke contraction but instead resulted in vasodilator responses. These results demonstrate that PGE2 functions as an overall direct vasoconstrictor of the mouse renal vasculature with an effect reflecting the vasoconstrictor activities outweighing that of dilation. Also, our results suggest that EP3 dominates the vasoconstrictor effect of PGE2 of low concentrations (≤0.001‐0.3 μM), but its effect is further added by that of TP, which has a higher efficacy, although activated by higher concentrations (from 0.01 μM) of the same prostanoid PGE2.
doi_str_mv	10.1096/fj.201901611R
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This study aimed to determine the direct effect of PGE2 on renal arteries and/or the whole renal vasculature and how each of these two receptors is involved in the responses. Experiments were performed on isolated vessels and perfused kidneys of wild‐type mice and/or mice with deficiency in TP (TP−/−), EP3 (EP3−/−), or both TP and EP3 (TP−/−/EP3−/−). Here we show that PGE2 (0.001‐30 μM) evoked not only contraction of main renal arteries, but also a decrease of flow in perfused kidneys. EP3‐/‐ diminished the response to 0.001‐0.3 μM PGE2, while TP−/− reduced that to the prostanoid of higher concentrations. In TP−/−/EP3−/− vessels and perfused kidneys, PGE2 did not evoke contraction but instead resulted in vasodilator responses. These results demonstrate that PGE2 functions as an overall direct vasoconstrictor of the mouse renal vasculature with an effect reflecting the vasoconstrictor activities outweighing that of dilation. 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title	Prostaglandin E2 sequentially activates E‐prostanoid receptor‐3 and thromboxane prostanoid receptor to evoke contraction and increase in resistance of the mouse renal vasculature
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