Suppression of store-operated Ca2+ entry by activation of GPER: contribution to a clamping effect on endothelial Ca2+ signaling

Terry, Lara E.; VerMeer, Mark; Giles, Jennifer; Tran, Quang‐Kim

doi:10.1042/bcj20170630

Cited by 11 publications

(18 citation statements)

References 49 publications

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“…These effects may be attributed to inhibition of both VDCE and SOCE, as α 1 adrenoceptor agonists can activate both ( 77 ). GPER-mediated inhibition of SOCE has been shown in ECs, where G-1 (10 −8 -10 −6 M) suppresses SOCE induced by thapsigargin or bradykinin ( 203 ). Interestingly, the observations that in the absence of any treatment with agonists, thapsigargin-induced SOCE is increased by 80% in GPER-knockdown ECs and is reduced by 40% in GPER-overexpressing HEK293 cells implicate E 2 -independent mechanisms ( 203 ).…”

Section: Calcium Entry Inhibition By Estrogenic Agonists and Estrogenmentioning

confidence: 99%

“…How E 2 /GPER suppresses SOCE seems to involve STIM1. G-1 treatment prevents thapsigargin-induced STIM1 puncta, indicating inhibition of STIM1's association with the Ca 2+ channel; and Ser575/608/621Ala mutations of STIM1 reduce the inhibitory effect of G-1 ( 203 ). Consistently, E 2 inhibits Ser575 STIM1 phosphorylation in bronchial epithelial cells, thus suppressing STIM1 mobility and SOCE ( 204 ).…”

Section: Calcium Entry Inhibition By Estrogenic Agonists and Estrogenmentioning

confidence: 99%

“…E 2 -independent mechanisms are indicated by the findings that (1) GPER constitutively interacts with PMCA4b via the anchoring action of PSD-95 at their C-terminal PDZ-binding motifs; (2) overexpression of GPER decreases PMCA activity; (3) GPER knockdown promotes PMCA activity; and (4) PSD-95 knockdown or truncation of the PDZ-binding motif on GPER releases GPER–PMCA association and promotes PMCA activity ( 135 ). Functionally , these mechanisms collectively prolong agonist-induced Ca 2+ signal and enhance eNOS activity in ECs ( 135 , 170 , 203 ). Consistent with suppressed Ca 2+ efflux, the Ca 2+ signals stimulated by E 2 and the GPER agonist G-1 in cells overexpressing GPER reported by various laboratories display much more prolonged plateau phases compared to Ca 2+ signals in cells not overexpressing GPER or those stimulated by other agonists such as ATP or bradykinin ( 160 , 162 , 164 , 175 ).…”

Section: Estrogenic Regulation Of Cytoplasmic Calcium Removal Mechanimentioning

confidence: 99%

“…Notably, its bi-phosphorylation at Ser617 and Ser1179 promotes NO production by increasing the Ca 2+ sensitivity for both CaM binding and enzyme activation, reducing their respective EC 50 (Ca 2+ ) values to ~0.7 × 10 −7 and 1.3 × 10 −7 M, thus rendering the synthase active at resting cytoplasmic Ca 2+ ( 189 ). E 2 and GPER (1) prolong endothelial cytoplasmic Ca 2+ signal by inhibiting Ca 2+ efflux ( 135 , 170 ), (2) promote eNOS phosphorylation at Ser617 and Ser1179 ( 170 , 198 ), (3) increase CaM expression and eNOS–CaM interaction ( 170 ), and (4) suppress endothelial SOCE ( 203 ). When we incorporate these effects into a verified sequential “CaM binding eNOS activation” model ( 189 , 190 ), eNOS activity and NO accumulation are shown to substantially increase across the time course of bradykinin-induced Ca 2+ signal in ECs by treatment with G-1 ( 203 ).…”

Section: Estrogenic Moderation Of Calcium-dependent Activitiesmentioning

confidence: 99%

“…E 2 and GPER (1) prolong endothelial cytoplasmic Ca 2+ signal by inhibiting Ca 2+ efflux ( 135 , 170 ), (2) promote eNOS phosphorylation at Ser617 and Ser1179 ( 170 , 198 ), (3) increase CaM expression and eNOS–CaM interaction ( 170 ), and (4) suppress endothelial SOCE ( 203 ). When we incorporate these effects into a verified sequential “CaM binding eNOS activation” model ( 189 , 190 ), eNOS activity and NO accumulation are shown to substantially increase across the time course of bradykinin-induced Ca 2+ signal in ECs by treatment with G-1 ( 203 ). Importantly, major contributions to this outcome include the increases in CaM binding, phosphorylation, Ca 2+ sensitivity, and duration of Ca 2+ signals due to Ca 2+ efflux inhibition, but little or no effect of the inhibition of SOCE ( 203 ), due obviously to the synthase's high Ca 2+ sensitivity ( Figure 3 ).…”

Section: Estrogenic Moderation Of Calcium-dependent Activitiesmentioning

confidence: 99%

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Reciprocality Between Estrogen Biology and Calcium Signaling in the Cardiovascular System

Tran

2020

Front. Endocrinol.

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17β-Estradiol (E 2 ) is the main estrogenic hormone in the body and exerts many cardiovascular protective effects. Via three receptors known to date, including estrogen receptors α (ERα) and β (ERβ) and the G protein-coupled estrogen receptor 1 (GPER, aka GPR30), E 2 regulates numerous calcium-dependent activities in cardiovascular tissues. Nevertheless, effects of E 2 and its receptors on components of the calcium signaling machinery (CSM), the underlying mechanisms, and the linked functional impact are only beginning to be elucidated. A picture is emerging of the reciprocality between estrogen biology and Ca 2+ signaling. Therein, E 2 and GPER, via both E 2 -dependent and E 2 -independent actions, moderate Ca 2+ -dependent activities; in turn, ERα and GPER are regulated by Ca 2+ at the receptor level and downstream signaling via a feedforward loop. This article reviews current understanding of the effects of E 2 and its receptors on the cardiovascular CSM and vice versa with a focus on mechanisms and combined functional impact. An overview of the main CSM components in cardiovascular tissues will be first provided, followed by a brief review of estrogen receptors and their Ca 2+ -dependent regulation. The effects of estrogenic agonists to stimulate acute Ca 2+ signals will then be reviewed. Subsequently, E 2 -dependent and E 2 -independent effects of GPER on components of the Ca 2+ signals triggered by other stimuli will be discussed. Finally, a case study will illustrate how the many mechanisms are coordinated to moderate Ca 2+ -dependent activities in the cardiovascular system.

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Section: Calcium Entry Inhibition By Estrogenic Agonists and Estrogenmentioning

confidence: 99%

Section: Calcium Entry Inhibition By Estrogenic Agonists and Estrogenmentioning

confidence: 99%

Section: Estrogenic Regulation Of Cytoplasmic Calcium Removal Mechanimentioning

confidence: 99%

Section: Estrogenic Moderation Of Calcium-dependent Activitiesmentioning

confidence: 99%

Section: Estrogenic Moderation Of Calcium-dependent Activitiesmentioning

confidence: 99%

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Reciprocality Between Estrogen Biology and Calcium Signaling in the Cardiovascular System

Tran

2020

Front. Endocrinol.

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Regulation of beta adrenoceptor-mediated myocardial contraction and calcium dynamics by the G protein-coupled estrogen receptor 1

Whitcomb

Wauson

Christian

et al. 2020

Biochemical Pharmacology

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The G protein‐coupled estrogen receptor (GPER) participates in many cardioprotective activities. However, the mechanisms of such activities are not known. We have begun to investigate the effects of alterations in GPER activity on myocardial signaling via the beta‐1 adrenergic receptor. In freshly isolated primary murine cardiomyocytes, β1AR agonist isoproterenol triggers robust Ca2+ signals that are oscillatory and dependent on extracellular entry. GPER activation dose‐dependently inhibits the isoproterenol‐induced Ca2+ signals. On the other hand, GPER antagonism exerts the opposite effects. Similar effects were observed in H9C2 cardiomyocytes. Mechanisms of these observations were examined on various components of myocardial Ca2+ signaling. The data indicate that GPER activity is involved in β1AR‐mediated Ca2+ signaling in the myocardium. Support or Funding Information AHA grant 15SDG25090279 (to E Wauson) and NIH Grant HL112184 (to Q‐K Tran) This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

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Calcium/calmodulin regulates signaling at the α1A adrenoceptor

Gebert‐Oberle

Giles

Clayton

et al. 2019

European Journal of Pharmacology

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Cardiovascular functions are mediated by multiple 7-pass transmembrane receptors whose activation promotes contraction or relaxation of the tissues. The α 1 adrenoceptor type 1A plays important roles in the control of vascular tone and myocardial contractility via Ca 2+ -dependent actions. Here, using novel FRET-based biosensors, we identified a novel Ca 2+ -dependent interaction between calmodulin (CaM) and the human α 1A adrenoceptor at the juxtamembranous region of its 4 th submembrane domain (SMD4 JM , a.a. 333-361). SMD4 JM houses the known nuclear localization signal of α 1A adrenoceptor (NLS, a.a. 334-349). We found that NLS itself also interacts with CaM, but with lower affinity and Ca 2+ sensitivity, indicating that full interaction between CaM and α 1A receptor in this region requires segment a.a. 333-361. Combined K353Q/ L356A substitutions in the non-NLS segment of SMD4 JM cause a 3.5-fold reduction in the affinity of CaM-SMD4 JM interaction. Overexpression of wild-type α 1A adrenoceptor in cells enhances phosphorylation of the extracellular signal-regulated kinases 1/2 (ERK1/2) stimulated by A61603, while overexpression of the K353Q/L356A α 1A receptor mutant significantly reduces this signal. Norepinephrine stimulates intracellular Ca 2+ signals that are higher in cells overexpressing wildtype receptor but lower in cells overexpressing the K353Q/L356A receptor compared to nontransfected cells in the same microscopic environments. These data support a novel and important role for Ca 2+ -dependent CaM interaction at SMD4 JM in α 1A adrenoceptor-mediated signaling.

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Suppression of store-operated Ca2+ entry by activation of GPER: contribution to a clamping effect on endothelial Ca2+ signaling

Cited by 11 publications

References 49 publications

Reciprocality Between Estrogen Biology and Calcium Signaling in the Cardiovascular System

Reciprocality Between Estrogen Biology and Calcium Signaling in the Cardiovascular System

Regulation of beta adrenoceptor-mediated myocardial contraction and calcium dynamics by the G protein-coupled estrogen receptor 1

Calcium/calmodulin regulates signaling at the α1A adrenoceptor

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