The plasma membrane calcium ATPase modulates calcium homeostasis, intracellular signaling events and function in platelets

Jones, Sarah; Solomon, Antonia; Sanz-Rosa, David; Moore, Christopher; Holbrook, Lisa-Marie; Cartwright, Elizabeth J.; Neyses, Ludwig; Emerson, Michael

doi:10.1111/j.1538-7836.2010.04076.x

Cited by 24 publications

(19 citation statements)

References 40 publications

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“…Studies have found that PMCA4 is recruited to the cytoskeleton during platelet activation through an interaction with the LIM family protein CLP36 to facilitate clot formation (39). The critical role of the PMCA during aggregation has been highlighted by studies using platelets from PMCA4 knockout mice, which display impaired platelet aggregation when stimulated with collagen (174). Similar results were obtained upon incubation of platelets with the PMCA inhibitor carboxyeosin, which led to elevated resting Ca 2ϩ , but smaller increases in Ca 2ϩ upon stimulation alongside reduced aggregation (174).…”

Section: Pmca In Plateletssupporting

confidence: 67%

The Plasma Membrane Calcium ATPasesand Their Role as Major New Players in Human Disease

Stafford

Wilson

Oceandy

et al. 2017

Physiological Reviews

110

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The Ca2+ extrusion function of the four mammalian isoforms of the plasma membrane calcium ATPases (PMCAs) is well established. There is also ever-increasing detail known of their roles in global and local Ca2+ homeostasis and intracellular Ca2+ signaling in a wide variety of cell types and tissues. It is becoming clear that the spatiotemporal patterns of expression of the PMCAs and the fact that their abundances and relative expression levels vary from cell type to cell type both reflect and impact on their specific functions in these cells. Over recent years it has become increasingly apparent that these genes have potentially significant roles in human health and disease, with PMCAs1-4 being associated with cardiovascular diseases, deafness, autism, ataxia, adenoma, and malarial resistance. This review will bring together evidence of the variety of tissue-specific functions of PMCAs and will highlight the roles these genes play in regulating normal physiological functions and the considerable impact the genes have on human disease.

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Section: Pmca In Plateletssupporting

confidence: 67%

The Plasma Membrane Calcium ATPasesand Their Role as Major New Players in Human Disease

Stafford

Wilson

Oceandy

et al. 2017

Physiological Reviews

110

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“…Similarly, it has recently been reported that blocking the platelet plasma membrane Ca 2+ ‐ATPase (PMCA) inhibited agonist‐evoked Ca 2+ signaling as well as dense granule secretion (Jones et al. ). Together these results suggest that Ca 2+ removal across the platelet plasma membrane is required for fast dense granule secretion and thus the full development of agonist‐evoked Ca 2+ signals.…”

Section: Resultsmentioning

confidence: 92%

“…; Jy and Haynes ) and inhibitors of the plasma membrane Ca 2+ ‐ATPase (Jones et al. ). We therefore hypothesized that Ca 2+ exported across the plasma membrane by the NCX may recycle back into the cytosol via Ca 2+ ‐permeable ion channels.…”

Section: Discussionmentioning

confidence: 99%

Pericellular Ca²⁺recycling potentiates thrombin-evoked Ca²⁺signals in human platelets

2013

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We have previously demonstrated that Na+/Ca2+ exchangers (NCXs) potentiate Ca2+ signaling evoked by thapsigargin in human platelets, via their ability to modulate the secretion of autocoids from dense granules. This link was confirmed in platelets stimulated with the physiological agonist, thrombin, and experiments were performed to examine how Ca2+ removal by the NCX modulates platelet dense granule secretion. In cells loaded with the near-membrane indicator FFP-18, thrombin stimulation was observed to elicit an NCX-dependent accumulation of Ca2+ in a pericellular region around the platelets. To test whether this pericellular Ca2+ accumulation might be responsible for the influence of NCXs over platelet function, platelets were exposed to fast Ca2+ chelators or had their glycocalyx removed. Both manipulations of the pericellular Ca2+ rise reduced thrombin-evoked Ca2+ signals and dense granule secretion. Blocking Ca2+-permeable ion channels had a similar effect, suggesting that Ca2+ exported into the pericellular region is able to recycle back into the platelet cytosol. Single cell imaging with extracellular Fluo-4 indicated that thrombin-evoked rises in extracellular [Ca2+] occurred within the boundary described by the cell surface, suggesting their presence within the open canalicular system (OCS). FFP-18 fluorescence was similarly distributed. These data suggest that upon thrombin stimulation, NCX activity creates a rise in [Ca2+] within the pericellular region of the platelet from where it recycles back into the platelet cytosol, acting to both accelerate dense granule secretion and maintain the initial rise in cytosolic [Ca2+].

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“…The expression of PMCA2 is much more specific, being localised to inner ear cilia, Purkinje cells and the mammary gland [22][23][24][25][26]. PMCA3 is also expressed in the brain as well as skeletal muscle cells and pancreatic islet cells [22,[27][28][29], whilst PMCA4 is expressed in a wide range of cell types including erythrocytes, platelets, spermatozoa, heart, vascular smooth muscle, kidney, skeletal muscle, stomach, intestine and brain [21,22,[30][31][32][33][34][35].…”

Section: The Plasma Membrane Calcium Atpases (Pmcas)mentioning

confidence: 99%

“…PMCA2 knockout mice, as well as spontaneous mouse mutants of PMCA2, exhibit both deafness and ataxia [44][45][46]. Deletion of PMCA4 leads to sperm immotility and subsequent infertility [21,35] and alterations in aspects of platelet function including aggregation [32] suggesting that although PMCA4 is essentially ubiquitously expressed in the adult mouse its function is highly specialised.…”

Section: The Plasma Membrane Calcium Atpases (Pmcas)mentioning

confidence: 99%

Ca2+ signalling in cardiovascular disease: the role of the plasma membrane calcium pumps

Cartwright

Oceandy

Austin

et al. 2011

Sci. China Life Sci.

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The plasma membrane calcium ATPases (PMCA) are a family of genes which extrude Ca 2+ from the cell and are involved in the maintenance of intracellular free calcium levels and/or with Ca 2+ signalling, depending on the cell type. In the cardiovascular system, Ca 2+ is not only essential for contraction and relaxation but also has a vital role as a second messenger in signal transduction pathways. A complex array of mechanisms regulate intracellular free calcium levels in the heart and vasculature and a failure in these systems to maintain normal Ca 2+ homeostasis has been linked to both heart failure and hypertension. This article focuses on the functions of PMCA, in particular isoform 4 (PMCA4), in the heart and vasculature and the reported links between PMCAs and contractile function, cardiac hypertrophy, cardiac rhythm and sudden cardiac death, and blood pressure control and hypertension. It is becoming clear that this family of calcium extrusion pumps have essential roles in both cardiovascular health and disease.

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The plasma membrane calcium ATPase modulates calcium homeostasis, intracellular signaling events and function in platelets

Cited by 24 publications

References 40 publications

The Plasma Membrane Calcium ATPasesand Their Role as Major New Players in Human Disease

The Plasma Membrane Calcium ATPasesand Their Role as Major New Players in Human Disease

Pericellular Ca²⁺recycling potentiates thrombin-evoked Ca²⁺signals in human platelets

Ca2+ signalling in cardiovascular disease: the role of the plasma membrane calcium pumps

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The plasma membrane calcium ATPase modulates calcium homeostasis, intracellular signaling events and function in platelets

Cited by 24 publications

References 40 publications

The Plasma Membrane Calcium ATPasesand Their Role as Major New Players in Human Disease

The Plasma Membrane Calcium ATPasesand Their Role as Major New Players in Human Disease

Pericellular Ca2+recycling potentiates thrombin-evoked Ca2+signals in human platelets

Ca2+ signalling in cardiovascular disease: the role of the plasma membrane calcium pumps

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Pericellular Ca²⁺recycling potentiates thrombin-evoked Ca²⁺signals in human platelets