Please use this identifier to cite or link to this item: https://doi.org/10.1161/JAHA.122.026581
Title: Cell-Specific Actions of the Prostaglandin E-Prostanoid Receptor 4 Attenuating Hypertension: A Dominant Role for Kidney Epithelial Cells Compared With Macrophages
Authors: Yang, T
Song, C
Ralph, DL
Andrews, P
Sparks, MA
Koller, BH
McDonough, AA
Coffman, TM 
Keywords: EP4 receptor
hypertension
kidney epithelial cells
prostaglandin E2
Amiloride
Angiotensin II
Animals
Anti-Inflammatory Agents
Antihypertensive Agents
Dinoprostone
Epithelial Cells
Epithelial Sodium Channels
Hypertension
Kidney
Macrophages
Mice
Prostaglandins
Receptors, Prostaglandin E, EP4 Subtype
Sodium
Sodium Chloride, Dietary
Issue Date: 1-Oct-2022
Publisher: Ovid Technologies (Wolters Kluwer Health)
Citation: Yang, T, Song, C, Ralph, DL, Andrews, P, Sparks, MA, Koller, BH, McDonough, AA, Coffman, TM (2022-10-01). Cell-Specific Actions of the Prostaglandin E-Prostanoid Receptor 4 Attenuating Hypertension: A Dominant Role for Kidney Epithelial Cells Compared With Macrophages. Journal of the American Heart Association 11 (19) : e026581-. ScholarBank@NUS Repository. https://doi.org/10.1161/JAHA.122.026581
Abstract: BACKGROUND: A beneficial role for prostanoids in hypertension is suggested by clinical studies showing nonsteroidal anti-inflammatory drugs, which block the production of all prostanoids, cause sodium retention and exacerbate hypertension. Among prostanoids, prostaglandin E2 and its E-prostanoid receptor 4 receptor (EP4R) have been implicated in blood pressure control. Our previous study found that conditional deletion of EP4R from all tissues in adult mice exacerbates angiotensin II-dependent hypertension, suggesting a powerful effect of EP4R to resist blood pressure elevation. We also found that elimination of EP4R from vascular smooth muscle cells did not affect the severity of hypertension, suggesting nonvascular targets of prostaglandin E mediate this antihypertensive effect. METHODS AND RESULTS: Here we generated mice with cell-specific deletion of EP4R from macrophage-specific EP4 receptor knockouts or kidney epithelial cells (KEKO) to assess the contributions of EP4R in these cells to hypertension pathogenesis. Macrophage-specific EP4 receptor knockouts showed similar blood pressure responses to alterations in dietary sodium or chronic angiotensin II infusion as Controls. By contrast, angiotensin II-dependent hypertension was significantly augmented in KEKOs (mean arterial pressure: 146±3 mm Hg) compared with Controls (137±4 mm Hg; P=0.02), which was accompanied by impaired natriuresis in KEKOs. Because EP4R expression in the kidney is enriched in the collecting duct, we compared responses to amiloride in angiotensin II-infused KEKOs and Controls. Blockade of the epithelial sodium channel with ami-loride caused exaggerated natriuresis in KEKOs compared with Controls (0.21±0.01 versus 0.15±0.02 mmol/24 hour per 20 g; P=0.015). CONCLUSIONS: Our data suggest EP4R in kidney epithelia attenuates hypertension. This antihypertension effect of EP4R may be mediated by reducing the activity of the epithelial sodium channel, thereby promoting natriuresis.
Source Title: Journal of the American Heart Association
URI: https://scholarbank.nus.edu.sg/handle/10635/245428
ISSN: 2047-9980
DOI: 10.1161/JAHA.122.026581
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