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This review examines the structure and function of the sarco(endo)plasmic reticulum calcium pump (SERCA1a) in the light of the recent publication of the 2.6 A resolution structure of this protein, and looks at the increasing awareness of the key role played by SERCAs in calcium signalling. The roles played by the calcium pump isoforms, SERCA1a/b, SERCA2a/b and SERCA3a/b/c in cellular function are discussed, and the modulation of SERCA activity by phospholamban, sarcolipin and other modulatory influences is examined. The recent discoveries of human SERCA mutations leading to disease states is reviewed, and the insights into SERCA function using transgenic approaches are outlined.
Mol Membr Biol
PMID:Sarco(endo)plasmic reticulum calcium pumps: recent advances in our understanding of structure/function and biology (review). 1130 72

The structure of Na, K-ATPase was determined by electron crystallography at 9.5 A from multiple small 2-D crystals induced in purified membranes isolated from the outer medulla of pig kidney. The density map shows a protomer stabilized in the E(2) conformation which extends approximately 65 A x 75 A x 150 A in the asymmetric unit of the P2 type unit cell. The alpha, beta, and gamma subunits were demonstrated in the membrane crystals with Western blotting and related to distinct domains in the density map. The alpha subunit corresponds to most of the density in the transmembrane region as well as the large hydrophilic headpiece on the cytoplasmic side of the membrane. The headpiece is divided into three separated domains, which are similar in overall shape to the domains of the calcium pump of the sarcoplasmic reticulum. One of these domains gives rise to a characteristic elongated projection onto the membrane plane while the putative nucleotide binding and phosphorylation domains form comparatively compact densities in the rest of the cytoplasmic part of the structure. Density on the extracellular face corresponds to the protein part of the beta subunit and is located as an extension of the transmembrane region perpendicular to the membrane plane. The structure of the lipid bilayer spanning part suggests the positions for the transmembrane helix from the beta subunit as well as the small gamma subunit present in this Na,K-ATPase. Two groups of ten helices from the catalytic alpha subunit corresponds to the remaining density in the transmembrane region. The present results demonstrate distinct similarities between the structure of the alpha subunit of Na,K-ATPase as determined here by cryo-electron microscopy and the reported X-ray structure of Ca-ATPase. However, conformational changes between the E(1) and E(2) forms are suggested by different relative positions of cytoplasmatic domains.
J Mol Biol 2001 Nov 30
PMID:Three-dimensional structure of renal Na,K-ATPase from cryo-electron microscopy of two-dimensional crystals. 1184 61

Darier's disease is a rare autosomal dominantly inherited keratosis.(1) We have previously reported a family in which major affective disorder co-segregated with Darier's disease, consistent with linkage between the Darier gene and a susceptibility locus for affective illness (max lod = 2.1).(2) The Darier gene has been mapped to 12q 23-q24.1 and identified as ATP2A2, a gene encoding SERCA2-a sarcoplasmic/endoplasmic reticulum calcium pump that plays a role in intracellular calcium signalling.(3) A number of groups have reported independent evidence of linkage between bipolar disorder and markers in this region.(4) We here describe a further Caucasian family of European origin in which there is co-occurrence of Darier's disease and major affective disorder including bipolar disorder and report the results of linkage analysis employing genetic markers flanking the Darier's gene. The pedigree includes two individuals with mood disorder from a branch of the family not affected with Darier's disease. However, there is a new mutation in the Darier (ATP2A2) gene in this family and all individuals affected by mood disorder show co-segregation with a haplotype in the region of the Darier's gene (max lod = 3.58). The family provides strong evidence against the Darier-causing mutation itself playing a major role in affective disorder but strongly supports the existence of a bipolar disorder susceptibility gene in the Darier region.
Mol Psychiatry 2002
PMID:Evidence for familial cosegregation of major affective disorder and genetic markers flanking the gene for Darier's disease. 1198 88

The plasma membrane is a specialised multi-component structure with inter- and intracellular signalling functions. Ca2+ plays a crucial role in cellular physiology, and an ATP-driven plasma membrane calcium pump (PMCA) plays the greatest role in the maintenance of a low free Ca2+ concentration in the cytoplasm. The enzyme is coded by four separate genes (PMCA 1-4), and, due to alternative splicing, more than 20 variants can exist. PMCA 1 and 4 isoforms are present in almost all tissues, whereas PMCA 2 and 3 are found in more specialised cell types. The variants differ primarily in their regulatory regions, thus the modulation of calcium pump activity strongly depends on the isoform and the membrane composition. The unique function of PMCA isoforms was confirmed using the practical experimental models - a rat pheochromocytoma cell line, a human neuroblastoma cell line, or, more recently, knockout mice. In addition, based on the finding that PMCA could interact with several specific signaling proteins, it was concluded that its location in defined sites of the cell membrane could be a prerequisite for efficient intercellular communication.
Cell Mol Biol Lett 2002
PMID:The isoform- and location-dependence of the functioning of the plasma membrane calcium pump. 1251 70

In order to characterize the P-type ATPase from Synechocystis 6803 [Geisler (1993) et al. J. Mol. Biol. 234, 1284] and to facilitate its purification, we expressed an N-terminal 6xHis-tagged version of the ATPase in an ATPase deficient E. coli strain. The expressed ATPase was immunodetected as a dominant band of about 97 kDa localized to the E. coli plasma membranes representing about 20-25% of the membrane protein. The purification of the Synecho-cystis 6xHis-ATPase by single-step Ni-affinity chromatography under native and denaturating conditions is described. ATPase activity and the formation of phosphointermediates verify the full function of the enzyme: the ATPase is inhibited by vanadate (IC(50)= 119 &mgr;M) and the formation of phosphorylated enzyme intermediates shown by acidic PAGE depends on calcium, indicating that the Synechocystis P-ATPase functions as a calcium pump.
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PMID:Expression of a prokaryotic P-type ATPase in E. coli Plasma Membranes and Purification by Ni2+-affinity chromatography. 1273 87

Plasma membrane Ca(+2)-ATPase (PMCA), encoded by four separate genes, constitutes a high affinity system extruding Ca(+2) outside the cell. The nerve growth factor-treated PC12 cell line possesses all four main PMCA isoforms. To evaluate the potential role of PMCA isoforms in the differentiation process, we transiently suppressed the expression of PMCA2 and 3 using the antisense oligonucleotides. In the transfected PC12 cells, we observed morphological changes, slowed neurite extension and diminished survival of the cells. The apparent transport activity and affinity of the calcium pump to Ca(+2) were lower in the cells with suppressed PMCA2 and 3 isoforms than in the control cells. Moreover, in the transfected PC12 plasma membranes, the calcium pump was insensitive to stimulation by calmodulin. These findings suggest that PMCA2 and 3 isoforms may be involved in developmental and differentiation processes.
Cell Mol Biol Lett 2004
PMID:The effect of antisense oligonucleotide treatment of plasma membrane Ca(+2)-ATPase in PC12 cells. 1533 22

Plasma membrane Ca2+-ATPase (PMCA) is a calcium pump that exists on the plasma membrane and has a role in keeping the intracellular Ca2+ concentration low. In the current study, the expression of PMCA isoforms in spinal cord tissues was investigated in detail and the changes of the expression was examined after contusion injury. Rats received a weight drop on the thoracic spinal cord as the injury or they received a sham surgery as a control. Three or twenty-four hours after spinal cord injury (SCI), the spinal cord was removed and processed for in situ hybridization, reverse transcription-polymerase chain reaction (RT-PCR) and immunohistochemistry. PMCA1-4 mRNAs were expressed in neurons in the control spinal cord. Each isoform of the PMCA proteins showed distinct expression patterns in the spinal cord. PMCA1 and PMCA3 were expressed in all of the layers of gray matter. PMCA2 was also abundant in gray matter, except laminae I and II, while PMCA4 expression was restricted to the superficial layers of the dorsal horn. Distinct expression patterns of the PMCA isoforms suggest differential functions of each isoform in the spinal cord. After spinal cord injury, the expression of PMCA2 was decreased; however, the change in expression of other isoforms showed a tendency of decrease but did not reach a statistically significant level. The decrease in PMCA expression may contribute to the increase in intracellular Ca2+ concentration and PMCA may have a role in secondary injury following spinal cord injury.
Brain Res Mol Brain Res 2004 Nov 24
PMID:Plasma membrane calcium ATPase expression in the rat spinal cord. 1553 Jun 49

Ventricular dysfunction in type 2 diabetic patients is becoming apparent early after diagnosis of diabetes, but the cellular mechanisms contributing to this dysfunction are not well established. Our group has recently identified cardiomyocyte dysfunction in diet-induced insulin resistant rats that have not developed type 2 diabetes. The present investigation was designed to determine cellular mechanisms contributing to slowed cardiomyocyte relaxation in sucrose (SU)-fed rats. SU-feeding was used to induce whole-body insulin resistance. After 9-12 weeks on diet, isolated ventricular myocyte shortening/relengthening were slower in SU-fed adult male Wistar rats (42-63%) compared to starch (ST)-fed controls. Cytosolic Ca2+ removal attributable to Na+/Ca2+ exchange (NCX) and to sarco(endo)plasmic reticulum Ca2+-ATPase (SERCA) was evaluated with fluo-3/AM. Caffeine-releasable Ca2+ and cytosolic Ca2+ clearing through NCX were normal, whereas Ca2+ uptake by SERCA was significantly slower in SU myocytes (330+/-29 ms) compared to ST cells (253+/-16 ms). Protein levels for SERCA, NCX and phospholamban were not affected by SU-feeding. Manipulating intracellular Ca2+ with various positive inotropic interventions (e.g. post-rest potentiation, isoproterenol) and changes in stimulus frequency demonstrated that mechanical properties can be improved in subsets of myocytes. Thus, we conclude that impaired SERCA activity (with normal protein content) contributes to cardiomyocyte dysfunction in insulin resistant animals, whereas NCX function and expression are normal. These results suggest that subtle changes in Ca2+ regulation which occur prior to overt ventricular dysfunction/failure, may be common to early stages of a number of disorders involving insulin resistance (e.g. diabetes, obesity, syndrome X and hypertension).
J Mol Cell Cardiol 2005 Aug
PMID:Impaired SERCA function contributes to cardiomyocyte dysfunction in insulin resistant rats. 1587 73

Stimulation of the tracheal muscle bundle by acetylcholine (ACh) results in the generation of asynchronous repetitive Ca2+ waves (ACW) in intact tracheal smooth muscle (TSM) cells. We showed previously that ACW underlie cholinergic excitation-contraction coupling in porcine TSM and that Ca2+ entry through the L-type voltage-gated Ca2+ channel (VGCC) contributes partially to maintenance of the ACW. However, the mechanism of the ACW remains undefined. In this study, we pharmacologically characterized the mechanism of ACh-induced ACW in the intact porcine tracheal muscle bundle. We found that inhibition of receptor-operated channels/store-operated channels (ROC/SOC) by SKF-96365 completely abolished the nifedipine-insensitive component of ACh-mediated ACW and tonic contraction. Blockade of Na+/Ca2+ exchange with KB-R7943 or 2',4'-dichlorobenzamil or removal of extracellular Na+ resulted in nearly complete inhibition of the nifedipine-insensitive component of ACh-mediated ACW and tonic contraction. Inhibition of the sarco(endo)plasmic reticulum Ca2+-ATPase by cyclopiazonic acid abolished the ongoing ACW. Application of 2-aminoethoxydiphenyl borate (2-APB) or xestospongin C to inhibit the inositol 1,4,5-trisphosphate-sensitive sarcoplasmic reticulum (SR) Ca2+ release channels produced no effect on ACh-mediated ACW and tonic contraction. However, pretreatment with caffeine or ryanodine inhibited ACh-induced ACW. Furthermore, application of procaine or tetracaine prevented the generation and abolished the ongoing ACh-mediated ACW and tonic contraction. Collectively, these results indicate that the ACh-stimulated ACW in porcine TSM are produced by repetitive cycles of Ca2+ release from SR through 2-APB- and xestospongin C-insensitive Ca2+ release channels, and plasmalemmal Ca2+ entry involving reverse-mode Na+/Ca2+ exchange, ROC/SOC, and L-type VGCC is required to refill the SR via SERCA to support the ongoing ACW.
Am J Physiol Lung Cell Mol Physiol 2006 Mar
PMID:Mechanism of ACh-induced asynchronous calcium waves and tonic contraction in porcine tracheal muscle bundle. 1621 18

Hypoxia-inducible factor 1 (HIF-1) is controlled through stability regulation of its alpha subunit, which is expressed under hypoxia but degraded under normoxia. Degradation of HIF-1alpha requires association of the von Hippel Lindau protein (pVHL) to provoke ubiquitination followed by proteasomal digestion. Besides hypoxia, nitric oxide (NO) stabilizes HIF-1alpha under normoxia but destabilizes the protein under hypoxia. To understand the role of NO under hypoxia we made use of pVHL-deficient renal carcinoma cells (RCC4) that show a high steady state HIF-1alpha expression under normoxia. Exposing RCC4 cells to hypoxia in combination with the NO donor DETA-NO (2,2'-(hydroxynitrosohydrazono) bis-ethanimine), but not hypoxia or DETA-NO alone, decreased HIF-1alpha protein and attenuated HIF-1 transactivation. Mechanistically, we noticed a role of calpain because calpain inhibitors reversed HIF-1alpha degradation. Furthermore, chelating intracellular calcium attenuated HIF-1alpha destruction by hypoxia/DETA-NO, whereas a calcium increase was sufficient to lower the amount of HIF-1alpha even under normoxia. An active role of calpain in lowering HIF-1alpha amount was also evident in pVHL-containing human embryonic kidney cells when the calcium pump inhibitor thapsigargin reduced HIF-1alpha that was stabilized by the prolyl hydroxylase inhibitor dimethyloxalylglycine (DMOG). We conclude that calcium contributes to HIF-1alpha destruction involving the calpain system.
Mol Biol Cell 2006 Apr
PMID:Calpain mediates a von Hippel-Lindau protein-independent destruction of hypoxia-inducible factor-1alpha. 1642 Dec 54

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