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1.
A growing number of receptors, often associated with the innate immune response, are being identified as targets for bacterial toxins of the beta‐stranded pore‐forming family. These findings raise the new question of whether the receptors are activated or merely used as docking points facilitating the formation of a pore. To elucidate whether the Staphylococcus aureus Panton‐Valentine leukocidin and the leukotoxin HlgC/HlgB act through the C5a receptor (C5aR) as agonists, antagonists or differ from the C5a complement‐derived peptide, their activity is explored on C5aR‐expressing cells. Both leukotoxins equally bound C5aR in neutrophils and in stable transfected U937 cells and initiated mobilization of intracellular Ca2+. HlgC/HlgB requires the presence of robust intracellular acidic Ca2+ stores in order to evoke a rise in free [Ca2+]i, while the LukS‐PV/LukF‐PV directly altered reticular Ca2+ stores. Intracellular target specificity is conferred by the F‐subunit associated to the S‐subunit binding the receptor. Furthermore, internalization of the two leukotoxin components (S‐ and F‐subunits) associated to C5aR is required for the initiation of [Ca2+]i mobilization. Electrophysiological recordings on living cells demonstrated that LukS‐PV/LukF‐PV does not alter the membrane resistance of C5aR‐expressing cells. The present observations suggest that part of the pore‐forming process occurs in distinct intracellular compartments rather than at the plasma membrane.  相似文献   

2.
The ability of leukotoxins secreted by Staphylococcus aureus to modify the permeability of the membrane of human polymorphonuclear neutrophils has been studied by spectrofluorometry and appropriate fluorescent probes. This family of bicomponent leukotoxins is constituted by, at least, three pairs of proteins: LukS-PV/LukF-PV, HlgA/HlgB, HlgC/HlgB. After binding of both components to the membrane, each pair induces influxes of divalent cations and ethidium in polymorphonuclear neutrophils, although with different intensities. The influx of divalent cations appears sooner than the influx of ethidium. The pathway for divalent cations is not permeable to monovalent cations (Na+, K+, ethidium+) and is blocked by Ca2+ channel inhibitors that do not block the fluxes of ethidium and monovalent cations. It is concluded that the leukotoxins bind to a receptor linked to a divalent cation-selective channel or to the channel itself which is activated. Then, the leukotoxins open a second pathway by insertion into the membrane and subsequent formation of aspecific pores allowing an influx of ethidium. Received: 8 May 1997/Revised: 22 December 1997  相似文献   

3.
Staphylococcus aureus is a ubiquitous pathogen causing infections in humans and domestic animals. It is often associated with bovine mastitis. Among secreted virulence factors, the leukotoxins constitute a family of toxins composed of two distinct subunits (class S and F proteins) which induce first Ca2+ influx and subsequent pore formation that allows ethidium entry. As mastitis-causing isolates harbor the genes of at least two, and often three leukotoxins, we compared the biological activities of the purified leukotoxins whose genes are found in mastitis-causing isolates on bovine polymorphonuclear neutrophils (PMN): spreading on a solid support, calcium influx and ethidium entry. In the spreading assay, the homologous pair LukM/LukF'-PV was the most active leukotoxin. Within each class, either S or F, subunits were interchangeable and generated leukotoxins with different specific activity. LukM was also very active when associated with heterologous F subunits. A similar ranking of homologous pairs was also found in the ethidium entry assay: LukM/LukF'-PV > HlgA/HlgB > HlgC/HlgB > LukE/LukD = LukEv/LukDv. In the Ca2+ flux assay, LukM/F'-PV was the most active pair, but gamma-hemolysin (Hlg) was also very efficient. LukEv/Dv was more active (twofold) than LukE/D in the spreading assay, but the two variants showed similar activities in the other two assays. Supposing that spreading and ethidium entry (pore formation) reflect toxic activities on bovine PMN, and Ca2+ influx cell activation, LukM/F'-PV was by far the most cytotoxic leukotoxin, but it was closely followed by gamma-hemolysin for PMN activation. These results suggest that LukM/F'-PV may constitute a particular virulence attribute of mastitis-causing S. aureus strains.  相似文献   

4.
Abstract. The albumen gland of the freshwater pulmonate snail Helisoma duryi produces and secretes the perivitelline fluid, which coats fertilized eggs and provides nutrients to the developing embryos. It is known that perivitelline fluid secretion is stimulated by dopamine through the activation of a dopamine D1‐like receptor, which in turn stimulates cAMP production leading to the secretion of perivitelline fluid. This paper examines the glandular release of perivitelline fluid and provides evidence for the role of Ca2+ in the regulated secretion of perivitelline fluid based on protein secretion experiments and inositol 1,4,5‐trisphosphate assays. Dopamine‐stimulated protein secretion by the albumen gland is reduced in Ca2+‐free medium or in the presence of plasma membrane Ca2+ channel blockers, although the Ca2+ channel subtype involved is unclear. In addition, dopamine‐stimulated protein secretion does not directly involve phospholipase C‐generated signaling pathways and Ca2+ release from intracellular stores. Sarcoplasmic/endoplasmic reticulum Ca2+‐ATPase inhibitors had little effect on protein secretion when applied alone; however, they potentiated dopamine‐stimulated protein secretion. Dantrolene, an inhibitor of ryanodine receptors, 8‐(N,N‐diethylamino)‐octyl‐3,4,5‐trimethoxybenzoate hydrochloride, a nonspecific inhibitor of intracellular Ca2+ channels, and 2‐aminoethyldiphenylborate, an inhibitor of inositol 1,4,5‐trisphosphate receptors, did not suppress protein secretion, suggesting Ca2+ release from internal stores does not directly regulate protein secretion. Thus, the influx of Ca2+ from the extracellular space appears to be the major pathway mediating protein secretion by the albumen gland. The results are discussed with respect to the role of Ca2+ in controlling exocytosis of proteins from the albumen gland secretory cells.  相似文献   

5.
We analyzed the contribution of calcium (Ca2+)‐induced Ca2+ release to somatic secretion in serotonergic Retzius neurons of the leech. Somatic secretion was studied by the incorporation of fluorescent dye FM1‐43 upon electrical stimulation with trains of 10 impulses and by electron microscopy. Quantification of secretion with FM1‐43 was made in cultured neurons to improve optical resolution. Stimulation in the presence of FM1‐43 produced a frequency‐dependent number of fluorescent spots. While a 1‐Hz train produced 19.5 ± 5.0 spots/soma, a 10‐Hz train produced 146.7 ± 20.2 spots/soma. Incubation with caffeine (10 mM) to induce Ca2+ release from intracellular stores without electrical stimulation and external Ca2+, produced 168 ± 21.7 spots/soma. This staining was reduced by 49% if neurons were preincubated with the Ca2+‐ ATPase inhibitor thapsigargin (200 nM). Moreover, in neurons stimulated at 10 Hz in the presence of ryanodine (100 μM) to block Ca2+‐induced Ca2+ release, FM1‐43 staining was reduced by 42%. In electron micrographs of neurons at rest or stimulated at 1 Hz in the ganglion, endoplasmic reticulum lay between clusters of dense core vesicles and the plasma membrane. In contrast, in neurons stimulated at 20 Hz, the vesicle clusters were apposed to the plasma membrane and flanked by the endoplasmic reticulum. These results suggest that Ca2+‐induced Ca2+ release produces vesicle mobilization and fusion in the soma of Retzius neurons, and supports the idea that neuronal somatic secretion shares common mechanisms with secretion by excitable endocrine cells. © 2004 Wiley Periodicals, Inc. J Neurobiol, 2004  相似文献   

6.
The ryanodine-sensitive intracellular Ca2+ stores are known to play a major role in excitation-contraction coupling in muscles. Although these stores are also abundantly present in central neurons, their functional role in these cells remains unclear. Using fluorometric digital imaging of the intracellular Ca2+ concentration ([Ca2+] i ) in rat hippocampal slices, we investigated the dynamic properties of the ryanodine-sensitive Ca2+ stores inCA1 hippocampal pyramidal cells. We found that at rest the ryanodine-sensitive Ca2+ stores are functioning predominantly as a “sink” for Ca ions responding to an increase in [Ca2+] i with an increase in the amount of Ca ions accumulated inside the stores. If, however, [Ca2+] i increases significantly, as happens during strong neuronal discharges, the ryanodine-sensitive Ca2+ stores respond with Ca2+ release, thus acting as an amplifier of the intracellular Ca2+ signal.  相似文献   

7.
The interaction between prolactin and theophylline as well as between prolactin and guanosine triphosphate during Ca2+ release from intracellular stores of estradiol-treated porcine oocytes isolated from the ovary at the stage of follicular growth were studied using fluorescent Ca2+-sensitive probe chlortetracycline. In the absence of estradiol, prolactin or theophylline induced Ca2+ release from intracellular stores; however, no increase in Ca2+ release was observed after their combined action. Conversely, Ca2+ release from intracellular stores increased only after the combined exposure to prolactin and theophylline in the presence of estradiol. In the absence of estradiol, guanosine triphosphate induced calcium release alone and together with prolactin. Protein kinase C regulated Ca2+ release from intracellular stores after the combined exposure to prolactin and theophylline only in the presence of estradiol; while the activation of protein kinase C required no estradiol during the combined exposure to prolactin and guanosine triphosphate. The data obtained indicate the effect of estradiol on Ca2+ release from intracellular stores after the combined exposure to prolactin and theophylline, while no such effect was observed after the combined exposure to prolactin and guanosine triphosphate.  相似文献   

8.
The effects of guanine nucleotides and protein kinase C on prolactin-stimulated Ca2+ release from intracellular stores of pig oocytes were studied using the fluorescent dye chlorotetracycline. The effect of prolactin was related to the protein kinase C activation. Inhibition of protein kinase C stimulated Ca2+ release from intracellular stores of the pig oocytes treated with 5 ng/ml prolactin in the presence of extracellular Ca2+ and inhibited Ca2+ release from intracellular stores of the pig oocytes treated with 50 ng/ml prolactin. In a Ca2+-free medium, prolactin did not stimulate Ca2+ release from intracellular stores of the oocytes treated with GDP in the presence of GDP. GTP inhibition of protein kinase C activated Ca2+ release from intracellular stores of the pig oocytes treated with 5 ng/ml prolactin and inhibited Ca2+ release from intracellular stores of the pig oocytes treated with 50 ng/ml prolactin. These data suggest the influence of guanine nucleotides and protein kinase C on calcium metabolism, stimulated by prolactin.__________Translated from Ontogenez, Vol. 36, No. 3, 2005, pp. 199–204.Original Russian Text Copyright © 2005 by Denisenko, Kuzmina.  相似文献   

9.
Cultured adult rat dorsal root ganglion (DRG) neurons were used to study depolarization-induced Ca2+ mobilization and the effects of intracellular Ca2+ depletion on neurite outgrowth. Cytoplasmic and nuclear Ca2+ signals were visualized in dissociated DRG neurons using confocal scanning laser microspcopy and the Ca2+ indicator dye fluo-3. The depolarization-induced Ca2+ signals were highest in neurons during the first few days in culture, prior to neurite extension; during this time nuclear signals exceeded those of the cytoplasm severalfold. After several days in culture, neurons began to arborize, depolarization-induced Ca2+ signals became attenuated, and nuclear signals no longer exceeded those of the cytoplasm. Elevated Ca2+ signals were dependent upon both Ca2+ influx and intact intracellular Ca2+ stores, indicating that the signals are generated by calcuim-induced calcium release (CICR). Thapsigargin, an endoplasmic reticulum Ca2+ ATPase inhibitor, depleted intracellular Ca2+ stores and blocked the induction of the large nuclear Ca2+ signals. Treating DRG neurons briefly with thapsigargin (200 nM for 20 min) shortly after plating reduced subsequent neuritogenesis, impyling that intact Ca2+ stores are necessery for initiating neurite outgrowth. Immunostaining of DRG neurons with antibodies to Ca2+ /calmodulin-dependent kinase II (CaM kinase II) demonstrated that this enzyme is present in the nucleus at early times in culture. These observations are consistent with the idea that CICR triggered by Ca2+ entry subsequent to depolarization may elicit neurite outgrowth by activating nuclear enzymes appropriate for such outgrowth. © 1994 John Wile & Sons, Inc.  相似文献   

10.
Hemolymph calcium homeostasis in insects is achieved by the Malpighian tubules, primarily by sequestering excess Ca2+ within internal calcium stores (Ca‐rich granules) most often located within type I (principal) tubule cells. Using both the scanning ion‐selective electrode technique and the Ramsay secretion assay this study provides the first measurements of basolateral and transepithelial Ca2+ fluxes across the Malpighian tubules of an Orthopteran insect, the house cricket Acheta domesticus. Ca2+ transport was specific to midtubule segments, where 97% of the Ca2+ entering the tubule is sequestered within intracellular calcium stores and the remaining 3% is secreted into the lumen. Antagonists of voltage‐gated (L‐type) calcium channels decreased Ca2+ influx ≥fivefold in adenosine 3′,5′‐cyclic monophosphate (cAMP)‐stimulated tubules, suggesting basolateral Ca2+ influx is facilitated by voltage‐gated Ca2+ channels. Increasing fluid secretion through manipulation of intracellular levels of cAMP or Ca2+ had opposite effects on tubule Ca2+ transport. The adenylyl cyclase‐cAMP‐PKA pathway promotes Ca2+ sequestration whereas both 5‐hydroxytryptamine and thapsigargin inhibited sequestration. Our results suggest that the midtubules of Acheta domesticus are dynamic calcium stores, which maintain hemolymph calcium concentration by manipulating rates of Ca2+ sequestration through stimulatory (cAMP) and inhibitory (Ca2+) regulatory pathways.  相似文献   

11.
Alcohol is a potent neuroteratogen that can trigger neuronal death in the developing brain. However, the mechanism underlying this alcohol‐induced neuronal death is not fully understood. Utilizing primary cultures of cerebellar granule neurons (CGN), we tested the hypothesis that the alcohol‐induced increase in intracellular calcium [Ca2+]i causes the death of CGN. Alcohol induced a dose‐dependent (200–800 mg/dL) neuronal death within 24 h. Ratiometric Ca2+ imaging with Fura‐2 revealed that alcohol causes a rapid (1–2 min), dose‐dependent increase in [Ca2+]i, which persisted for the duration of the experiment (5 or 7 min). The alcohol‐induced increase in [Ca2+]i was observed in Ca2+‐free media, suggesting intracellular Ca2+ release. Pre‐treatment of CGN cultures with an inhibitor (2‐APB) of the inositol‐triphosphate receptor (IP3R), which regulates Ca2+ release from the endoplasmic reticulum (ER), blocked both the alcohol‐induced rise in [Ca2+]i and the neuronal death caused by alcohol. Similarly, pre‐treatment with BAPTA/AM, a Ca2+‐chelator, also inhibited the alcohol‐induced surge in [Ca2+]i and prevented neuronal death. In conclusion, alcohol disrupts [Ca2+]i homeostasis in CGN by releasing Ca2+ from intracellular stores, resulting in a sustained increase in [Ca2+]i. This sustained increase in [Ca2+]i may be a key determinant in the mechanism underlying alcohol‐induced neuronal death.  相似文献   

12.
Destruxins, cyclohexadepsipeptidic mycotoxins isolated from the ento mopathogenic fungus Metarhizium anisopliae, inhibit innate insect immunity. However, their mechanism of action remains unclear. In this study, the effects ofdestruxins on changes in free calcium and hydrogen ions in the hemocytes ofExolontha serrulata, Bombyx mori and the Spodoptera litura SL1 cell line were detected using laser scanning confocal mi croscopy (LSCM). An instant Ca2+ influx of hemocytes induced by destruxins A and B (DA and DB) was recorded. The DA/DBdependent Ca2+ influx was not influenced by the Ca2+ channel inhibitors 2aminoethoxydiphenyl borane (2APB) and U73122. It also had an apparently different LSCM profile from that of the ionomycindependent Ca2+ influx. However, the instant Ca2+ influx was not seen in the SL1 cells; on the contrary, a slow, moderate enhancement of intracellular Ca2+ was observed. Meanwhile, an instant intracellular free H+ decrease aroused by DA and DB was found. DB at 20/zmol/L and DA at 690/zmol/L significantly reduced intracellular free H+ levels. Furthermore, the vacuolar H+ATPase (VATPase) inhibitor bafilomycin A1 had obvious effects on the decreases ofintracellular free H+ in hemocytes. These results suggest that the mechanism of DA/DBdependent Ca2+ influx is perhaps not related to Ca2+ channels and ionophores; rather, the intracellular free H+ decrease might be due to VATPase inhibition.  相似文献   

13.
Egress of Plasmodium falciparum merozoites from host erythrocytes is a critical step in multiplication of blood‐stage parasites. A cascade of proteolytic events plays a major role in degradation of membranes leading to egress of merozoites. However, the signals that regulate the temporal activation and/or secretion of proteases upon maturation of merozoites in intra‐erythrocytic schizonts remain unclear. Here, we have tested the role of intracellular Ca2+ in regulation of egress of P. falciparum merozoites from schizonts. A sharp rise in intracellular Ca2+ just before egress, observed by time‐lapse video microscopy, suggested a role for intracellular Ca2+ in this process. Chelation of intracellular Ca2+ with chelators such as BAPTA‐AM or inhibition of Ca2+ release from intracellular stores with a phospholipase C (PLC) inhibitor blocks merozoite egress. Interestingly, chelation of intracellular Ca2+ in schizonts was also found to block the discharge of a key protease PfSUB1 (subtilisin‐like protease 1) from exonemes of P. falciparum merozoites to parasitophorous vacuole (PV). This leads to inhibition of processing of PfSERA5 (serine repeat antigen 5) and a block in parasitophorous vacuolar membrane (PVM) rupture and merozoite egress. A complete understanding of the steps regulating egress of P. falciparum merozoites may provide novel targets for development of drugs that block egress and limit parasite growth.  相似文献   

14.
Inositol lipid signaling relies on an InsP3-induced Ca2+ release from intracellular stores and on extracellular Ca2+ entry, which takes place when the Ca2+ stores become depleted of Ca2+. This interplay between Ca2+ release and Ca2+ entry has been termed capacitative Ca2+ entry and the inward current calcium release activated current (CRAC) to indicate gating of Ca2+ entry by Ca2+-store depletion. The signaling pathway and the gating mechanism of capacitative Ca2+ entry, however, are largely unknown and the molecular participants in this process have not been identified. In this article we review genetic, molecular, and functional studies of wild-type and mutantDrosophila photoreceptors, suggesting that thetransient receptor potential mutant (trp) is the first putative capacitative Ca2+ entry mutant. Furthermore, several lines of evidence suggest that thetrp gene product TRP is a candidate subunit of the plasma membrane channel that is activated by Ca2+ store depletion.  相似文献   

15.
Although melatonin (MT) has been reported to protect cells against oxidative damage induced by electromagnetic radiation, few reports have addressed whether there are other protective mechanisms. Here, we investigated the effects of MT on extremely low‐frequency electromagnetic field (ELF‐EMF)‐induced Nav activity in rat cerebellar granule cells (GCs). Exposing cerebellar GCs to ELF‐EMF for 60 min. significantly increased the Nav current (INa) densities by 62.5%. MT (5 μM) inhibited the ELF‐EMF‐induced INa increase. This inhibitory effect of MT is mimicked by an MT2 receptor agonist and was eliminated by an MT2 receptor antagonist. The Nav channel steady‐state activation curve was significantly shifted towards hyperpolarization by ELF‐EMF stimulation but remained unchanged by MT in cerebellar GC that were either exposed or not exposed to ELF‐EMF. ELF‐EMF exposure significantly increased the intracellular levels of phosphorylated PKA in cerebellar GCs, and both MT and IIK‐7 did not reduce the ELF‐EMF‐induced increase in phosphorylated PKA. The inhibitory effects of MT on ELF‐EMF‐induced Nav activity was greatly reduced by the calmodulin inhibitor KN93. Calcium imaging showed that MT did not increase the basal intracellular Ca2+ level, but it significantly elevated the intracellular Ca2+ level evoked by the high K+ stimulation in cerebellar GC that were either exposed or not exposed to ELF‐EMF. In the presence of ruthenium red, a ryanodine‐sensitive receptor blocker, the MT‐induced increase in intracellular calcium levels was reduced. Our data show for the first time that MT protects against neuronal INa that result from ELF‐EMF exposure through Ca2+ influx‐induced Ca2+ release.  相似文献   

16.
Many physiological processes are controlled by a great diversity of Ca2 + signals that depend on Ca2 + entry into the cell and/or Ca2 + release from internal Ca2 + stores. Ca2 + mobilization from intracellular stores is gated by a family of messengers including inositol-1,4,5-trisphosphate (InsP3), cyclic ADP-ribose (cADPR), and nicotinic acid adenine dinucleotide phosphate (NAADP). There is increasing evidence for a novel intracellular Ca2 + release channel that may be targeted by NAADP and that displays properties distinctly different from the well-characterized InsP3 and ryanodine receptors. These channels appear to localize on a wider range of intracellular organelles, including the acidic Ca2 + stores. Activation of the NAADP-sensitive Ca2 + channels evokes complex changes in cytoplasmic Ca2 + levels by means of channel chatter with other intracellular Ca2 + channels. The recent demonstration of changes in intracellular NAADP levels in response to physiologically relevant extracellular stimuli highlights the significance of NAADP as an important regulator of intracellular Ca2 + signaling.  相似文献   

17.
18.
Ryanodine receptors (RyRs), located in the sarcoplasmic/endoplasmic reticulum (SR/ER) membrane, are required for intracellular Ca2+ release that is involved in a wide range of cellular functions. In addition to Ca2+-induced Ca2+ release in cardiac cells and voltage-induced Ca2+ release in skeletal muscle cells, we recently identified another mode of intracellular Ca2+ mobilization mediated by RyR, i.e., nitric oxide-induced Ca2+ release (NICR), in cerebellar Purkinje cells. NICR is evoked by neuronal activity, is dependent on S-nitrosylation of type 1 RyR (RyR1) and is involved in the induction of long-term potentiation (LTP) of cerebellar synapses. In this addendum, we examined whether peroxynitrite, which is produced by the reaction of nitric oxide with superoxide, may also have an effect on the Ca2+ release via RyR1 and the cerebellar LTP. We found that scavengers of peroxynitrite have no significant effect either on the Ca2+ release via RyR1 or on the cerebellar LTP. We also found that an application of a high concentration of peroxynitrite does not reproduce neuronal activity-dependent Ca2+ release in Purkinje cells. These results support that NICR is induced by endogenous nitric oxide produced by neuronal activity through S-nitrosylation of RyR1.  相似文献   

19.
In this study, the functional consequences of the pharmacological modulation of the M‐current (IKM) on cytoplasmic Ca2+ intracellular Ca2+concentration ([Ca2+]i) changes and excitatory neurotransmitter release triggered by various stimuli from isolated rat cortical synaptosomes have been investigated. Kv7.2 immunoreactivity was identified in pre‐synaptic elements in cortical slices and isolated glutamatergic cortical synaptosomes. In cerebrocortical synaptosomes exposed to 20 mM [K+]e, the IKM activator retigabine (RT, 10 μM) inhibited [3H]d ‐aspartate ([3H]d ‐Asp) release and caused membrane hyperpolarization; both these effects were prevented by the IKM blocker XE‐991 (20 μM). The IKM activators RT (0.1–30 μM), flupirtine (10 μM) and BMS‐204352 (10 μM) inhibited 20 mM [K+]e‐induced synaptosomal [Ca2+]i increases; XE‐991 (20 μM) abolished RT‐induced inhibition of depolarization‐triggered [Ca2+]i transients. The P/Q‐type voltage‐sensitive Ca2+channel (VSCC) blocker ω‐agatoxin IVA prevented RT‐induced inhibition of depolarization‐induced [Ca2+]i increase and [3H]d ‐Asp release, whereas the N‐type blocker ω‐conotoxin GVIA failed to do so. Finally, 10 μM RT did not modify the increase of [Ca2+]i and the resulting enhancement of [3H]d ‐Asp release induced by [Ca2+]i mobilization from intracellular stores, or by store‐operated Ca2+channel activation. Collectively, the present data reveal that the pharmacological activation of IKM regulates depolarization‐induced [3H]d ‐Asp release from cerebrocortical synaptosomes by selectively controlling the changes of [Ca2+]i occurring through P/Q‐type VSCCs.  相似文献   

20.
The Ca2+ transport ATPase (SERCA) of sarcoplasmic reticulum (SR) plays an important role in muscle cytosolic signaling, as it stores Ca2+ in intracellular membrane bound compartments, thereby lowering cytosolic Ca2+ to induce relaxation. The stored Ca2+ is in turn released upon membrane excitation to trigger muscle contraction. SERCA is activated by high affinity binding of cytosolic Ca2+, whereupon ATP is utilized by formation of a phosphoenzyme intermediate, which undergoes protein conformational transitions yielding reduced affinity and vectorial translocation of bound Ca2+. We review here biochemical and biophysical evidence demonstrating that release of bound Ca2+ into the lumen of SR requires Ca2+/H+ exchange at the low affinity Ca2+ sites. Rise of lumenal Ca2+ above its dissociation constant from low affinity sites, or reduction of the H+ concentration by high pH, prevent Ca2+/H+ exchange. Under these conditions Ca2+ release into the lumen of SR is bypassed, and hydrolytic cleavage of phosphoenzyme may yield uncoupled ATPase cycles. We clarify how such Ca2+pump slippage does not occur within the time length of muscle twitches, but under special conditions and in special cells may contribute to thermogenesis.  相似文献   

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