Overexpression of Na+/Ca2+ exchanger alters contractility and SR Ca2+ content in adult rat myocytes

The functional consequences of overexpression of rat heart Na+/Ca2+ exchanger (NCX1) were investigated in adult rat myocytes in primary culture. When maintained under continued electrical field stimulation conditions, cultured adult rat myocytes retained normal contractile function compared with freshly isolated myocytes for at least 48 h. Infection of myocytes by adenovirus expressing green fluorescent protein (GFP) resulted in >95% infection as ascertained by GFP fluorescence, but contraction amplitude at 6-, 24-, and 48-h postinfection was not affected. When they were examined 48 h after infection, myocytes infected by adenovirus expressing both GFP and NCX1 had similar cell sizes but exhibited significantly altered contraction amplitudes and intracellular Ca2+ concentration ([Ca2+]i) transients, and lower resting and diastolic [Ca2+]i when compared with myocytes infected by the adenovirus expressing GFP alone. The effects of NCX1 overexpression on sarcoplasmic reticulum (SR) Ca2+ content depended on extracellular Ca2+ concentration ([Ca2+]o), with a decrease at low [Ca2+]o and an increase at high [Ca2+]o. The half-times for [Ca2+]i transient decline were similar, suggesting little to no changes in SR Ca2+-ATPase activity. Western blots demonstrated a significant (P < or = 0.02) threefold increase in NCX1 but no changes in SR Ca2+-ATPase and calsequestrin abundance in myocytes 48 h after infection by adenovirus expressing both GFP and NCX1 compared with those infected by adenovirus expressing GFP alone. We conclude that overexpression of NCX1 in adult rat myocytes incubated at high [Ca2+]o resulted in enhanced Ca2+ influx via reverse NCX1 function, as evidenced by greater SR Ca2+ content, larger twitch, and [Ca2+]i transient amplitudes. Forward NCX1 function was also increased, as indicated by lower resting and diastolic [Ca2+]i.     

Radiation-induced apoptosis in dorsal root ganglion neurons

Ionizing radiation (IR) results in apoptosis in a number of actively proliferating or immature cell types. The effect of IR on rat dorsal root ganglion (DRG) neurons was examined in dissociated cell cultures. After exposure to IR, embryonic DRG neurons, established in cell culture for six days, underwent cell death in a manner that was dose-dependent, requiring a minimum of 8 to 16 Gy. Twenty-five per cent cell loss occurred in embryonic day 15 (E-15) neurons, grown in cell culture for 6 days (“immature”), and then treated with 24 Gy IR. In contrast, only 2% cell loss occurred in E-15 neurons maintained in culture for 21 days ("mature") and then treated with 24 Gy IR. Staining with a fluorescent DNA-binding dye demonstrated clumping of the nuclear chromatin typical of apoptosis. Initiation of the apoptosis occurred within 24 h after exposure to IR. Apoptosis was prevented by inhibition of protein synthesis with cycloheximide. Apoptosis induced by IR occurred more frequently in immature than in mature neurons. Immature DRG neurons have a lower concentration of intracellular calcium ([Ca2+]i) than mature neurons. Elevation of [Ca2+]i by exposure to a high extracellular potassium ion concentration (35 μM) depolarizes the cell membrane with a resultant influx of calcium ions. The activation of programmed cell death after nerve growth factor (NGF) withdrawal is inversely correlated with [Ca2+]i in immature DRG neurons. When treated with high extracellular potassium, these immature neurons were resistant to IR exposure in a manner similar to that observed in mature neurons. These data suggest that [Ca2+]i modulates the apoptotic response of neurons after exposure to IR in a similar manner to that proposed by the “Ca2+ setpoint hypothesis” for control of NGF withdrawal-induced apoptosis.     

Calcium homeostasis during thymocyte apoptosis. I. Increase in cytosolic Ca2+ concentration at the early stage of apoptosis induced by hydrogen peroxide

The concentration of free cytosolic Ca2+ ([Ca2+]i), 45Ca2+ entry and the level of reduced glutathione (GSH) after x-irradiation in a dose of 4.5 Gy or 0.1 mM H2O2-treatment were investigated in isolated rat thymocytes during the period preceding electrophoretically detected DNA intranucleosomal fragmentation. Using fura-2 it was shown that the level of [Ca2+]i in X-irradiated thymocytes was not changed as compared with the control, while the GSH content was increased. The gradual increase in [Ca2+]i along with GSH level falling was detected in the H2O2-treated cells. 45Ca2+ entry in the cells exposed to apoptogenic stimuli was not enhanced. After addition of H2O2 to the cells previously treated with thapsigargin further [Ca2+]i increase in both normal and nominally calcium-free medium was detected. Cyclosporine A inhibited Ca2+-mobilizing effect of H2O2, but did not prevent it completely. The role of intracellular calcium depots in calcium homeostasis disturbance during oxidative stress and apoptosis is discussed.     

Ca2+]i independent mitogenesis in cultured human fibroblasts revealed by single cell microfluorimetry

A transient rise in intracellular free Ca2+ concentration ([Ca2+]i) has been implicated in mitogenic induction of cell division. Individual human foreskin fibroblasts in confluent cultures examined with the Ca2+ indicator Fura-2 and a fluorescence microscope-imaging system had a basal [Ca2+]i which varied markedly from cell-to-cell. A transient serum-induced rise in [Ca2+]i was demonstrated the magnitude of which was directly correlated with the basal [Ca2+]i level. In contrast to serum-induced increase in [Ca2+]i, exposure to an elevated level of extracellular Ca2+, which is at least equally mitogenic for fibroblasts, did not alter the basal [Ca2+]i of single subconfluent cells or confluent cells. Elevated extracellular Ca2+ does not exert its mitogenicity via a transient rise in [Ca2+]i.     

Functional, biochemical, and chromatographic characterization of the complete [Ca2+]i oscillation-inducing activity of porcine sperm

A cytosolic sperm protein(s), referred to as sperm factor (SF), is delivered into eggs by the sperm during mammalian fertilization to induce repetitive increases in the intracellular concentration of free Ca2+ ([Ca2+]i) that are referred to as [Ca2+]i oscillations. [Ca2+]i oscillations are essential for egg activation and early embryonic development. Recent evidence shows that the novel sperm-specific phospholipase C (PLC), PLCzeta, may be the long sought after [Ca2+]i oscillation-inducing SF. Here, we demonstrate the complete extraction of SF from porcine sperm and show that regardless of the method of extraction a single molecule/complex appears to be responsible for the [Ca2+]i oscillation-inducing activity of these extracts. Consistent with this notion, all sperm fractions that induced [Ca2+]i oscillations, including FPLC-purified fractions, exhibited high in vitro PLC activity at basal Ca2+ levels (0.1-5 microM), a hallmark of PLCzeta. Notably, we detected immunoreactive 72-kDa PLCzeta in an inactive fraction, and several fractions capable of inducing oscillations were devoid of 72-kDa PLCzeta. Nonetheless, in the latter fractions, proteolytic fragments, presumably corresponding to cleaved forms of PLCzeta, were detected by immunoblotting. Therefore, our findings corroborate the hypothesis that a sperm-specific PLC is the main component of the [Ca2+]i oscillation-inducing activity of sperm but provide evidence that the presence of 72-kDa PLCzeta does not precisely correspond with the Ca2+ releasing activity of porcine sperm fractions.     

Regulation of programmed death in erythroid progenitor cells by erythropoietin: effects of calcium and of protein and RNA syntheses.

Erythropoietin (EPO) retards DNA breakdown characteristic of programmed cell death (apoptosis) and promotes survival in erythroid progenitor cells. The mechanism by which EPO inhibits programmed death is unknown. In the well-characterized model of glucocorticoid-treated thymocytes, activation of a Ca2+/Mg(2+)-sensitive endonuclease and new protein and RNA syntheses have been found necessary for apoptosis. We examined the effects of EPO on the free intracellular calcium ion concentration ([Ca2+]i), and the roles of Ca2+ and RNA and protein syntheses on DNA cleavage in erythroid progenitor cells. The murine model of erythroid differentiation using Friend leukemia virus-infected proerythroblasts (FVA cells) was used. EPO did not affect the [Ca2+]i in FVA cells. Decreasing [Ca2+]i by extracellular Ca2+ chelation with EGTA facilitated DNA breakdown. Increasing [Ca2+]i with the calcium ionophore 4-bromo-A23187 increased DNA cleavage; however, DNA fragments generated by high [Ca2+]i were much larger than those seen in the absence of EPO or presence of EGTA. Increased [Ca2+]i also inhibited DNA breakdown to small oligonucleosomal fragments characteristic of cells cultured without EPO. However, no concentration of ionophore protected the high molecular weight DNA as did EPO. Cycloheximide inhibited DNA breakdown in a dose dependent manner in cultures lacking EPO, but two other protein synthesis inhibitors, pactamycin and puromycin, did not prevent DNA breakdown. Inhibition of RNA synthesis with actinomycin D did not prevent DNA breakdown. Cells with morphological characteristics similar to those reported in other cells undergoing programmed death accumulated in EPO-derived cultures. These studies demonstrate that although DNA cleavage and morphological changes are common to apoptotic cells, the roles for Ca2+ and protein and RNA syntheses are not universal and suggest that apoptosis can be regulated by different biochemical mechanisms in different cell types.     

Calpain controls the balance between protein tyrosine kinase and tyrosine phosphatase activities during platelet activation.

Protein phosphorylation was studied during platelet stimulation in two ranges of ionized [Ca2+]. At ionized [Ca2+]i< or = 1 microM, proteins were phosphorylated. At ionized [Ca2+]i > or = 4 microM, phosphoproteins disappeared. Protein dephosphorylation was prevented by the combined action of calpeptin and phosphatase inhibitors. Protein tyrosine phosphatase activity was stimulated regardless of the ionized [Ca2+] level. Protein tyrosine kinase activity was stimulated at ionized [Ca2+]i < or =1 microM, whereas at ionized [Ca2+]i > or =4 microM, no protein tyrosine kinase activity was observed except in the presence of calpeptin. Thus, the massive tyrosine phosphoprotein disappearance observed at a high ionized [Ca2+]i resulted not only in protein tyrosine phosphatase activation, but also in calpain-induced protein tyrosine kinase inactivation.     

Increases in cytosolic calcium, but not fluid flow, affect aggrecan mRNA levels in articular chondrocytes

Fluctuations in intracellular free calcium concentration ([Ca2+]i) is thought to be one mechanism by which cells transduce mechanical signals into biological responses. Primary cultures of bovine articular chondrocytes (BAC) respond to oscillating fluid flow with a transient rise in [Ca2+]i. However, specific down-stream effects of [Ca2+]i on gene expression and phenotype in BAC remain to be defined. The present work was designed to determine whether [Ca2+]i mobilization regulates aggrecan mRNA levels. [Ca2+]i was transiently elevated by exposing BAC to the [Ca2+]-specific ionophore, ionomycin. The results show that ionomycin increases [Ca2+]i in a dose-dependent fashion. Semi-quantitative real time (RT)-PCR was used to study the effects of increased [Ca2+]i on steady state levels of aggrecan mRNA. Four hours after a brief exposure to 1.5 microM ionomycin, BAC displayed a nearly four-fold decrease in aggrecan mRNA levels compared to control cells. This effect of ionomycin on aggrecan mRNA was no longer evident 6 or 10 h later. Despite previous observations that oscillating fluid flow elicits increased [Ca2+]i in BAC, it did not affect aggrecan mRNA levels. Taken together, these data suggest that ionomycin-induced [Ca2+]i fluctuations regulate aggrecan mRNA levels, but that flow induced [Ca2+]i fluctuations do not.     

Astrocytes modulate thapsigargin-induced changes in calcium concentration and neuronal survival

When mature cerebellar granule neurons (CGN) grown in high K+ (25 mM K+, HK)-serum containing medium are subjected to the HK/serum deprivation, they are destined for neuronal death. In this study, we attempted to elucidate the roles of endoplasmic reticular (ER) Ca2+-store and co-cultured astrocytes in HK/serum deprivation induced neuronal death. Thapsigargin (TG), an inhibitor of ER Ca2+-ATPase was simultaneously applied with normal K+ (5 mM K+, NK) serum free medium, and its effects on neuronal death in either astrocyte-poor or astrocyterich culture were examined. By means of the fura-2 microfluorimetric technique, we monitored the changes of the intracellular Ca2+ concentration, [Ca2+]i, associated with neuronal death under various treatments. The results obtained showed that in astrocyte-poor cultures of mature CGN (10 days in vitro, DIV), the basal level of [Ca2+]i markedly decreased from 184 +/- 5 to 89.7 +/- 5 nM 24 h after HK/serum deprivation. Although treatment with TG slightly increased the [Ca2+]i to 117.6 +/- 4 nM, the survival rate of the neurons was even worse; it was reduced from 49 +/- 4% to 28 +/- 2%. In the astrocyte-rich cultures, HK/serum deprivation also caused a profound reduction of neuronal [Ca2+]i, from 166 +/- 3 to 90.2 +/- 6 nM, accompanied by even more serious neuronal death (95.5 +/- 1%). On the other hand, treatment with TG in astrocyterich cultures further lowered the [Ca2+]i to 65 +/- 2 nM but markedly improved the neuronal survival rate from 4.5 +/- 1% to 60 +/- 2% in a concentration-dependent manner. The strong implication of these findings is that ER Ca2+-store and astrocytes participate in modulating the responses of neurons to stress stimulation.     

D-galactosamine induced hepatocyte apoptosis is inhibited in vivo and in cell culture by a calcium calmodulin antagonist, chlorpromazine, and a calcium channel blocker, verapamil.

Studies were conducted in C57BL/6N Crj male mice and in cultured hepatocytes to clarify the relationship between galactosamine (GaIN) induced apoptosis and [Ca2+]i kinetics. Chlorpromazine (CPZ), a Ca(2+)-calmodulin antagonist, and verapamil (VR), a Ca(2+)-channel blocker each inhibited GaIN-induced DNA fragmentation and the appearance of apoptotic bodies. The kinetics of calcium uptake were evaluated using a calcium analyzer with the acetoxymethyl ester of fura-PE3 (fura-PE3/AM, 2.5 microM) as the calcium reporter. An increase in [Ca2+]i was detected in the cultured hepatocytes within 3 hours after treatment with 20 mM GaIN; this increase was inhibited by pretreatment with either 20 microM CPZ or 30 microM VR. Ca2+ imaging by confocal laser scanning microscopy showed that increase in [Ca2+]i after treatment with GaIN was initially localized around nuclei, while [Ca2+]i signals were later diffuse and observed throughout the cytoplasm. The activities of lactate dehydrogenase (LDH) and serum glutamate-pyruvate transaminase (sGPT), used as indicators of plasma membrane damage and leakage, however, were not reduced by pretreatment with CPZ or VR. From these findings, we infer that the DNA fragmentation in GaIN-induced hepatocyte apoptosis is associated with an elevation in the perinuclear concentration of Ca2+, but GaIN-induced necrotic cell death is triggered through pathway(s) that are insensitive to blockage of Ca2+ influx and therefore appear to occur independently of elevation in [Ca2+]i. These results help to clarify the role of calcium flux in hepatocyte apoptosis and necrosis induced by exposure to hepatotoxins in vivo and in vitro.     

Thyroid status and beta-agonistic effects on cytosolic calcium concentrations in single rat cardiac myocytes activated by electrical stimulation or high-K+ depolarization.

The effects of the thyroid status on the cytosolic free Ca2+ concentration ([Ca2+]i) in single cardiomyocytes were studied at rest and during contraction. The mean resting [Ca2+]i increased significantly from the hypothyroid (45 +/- 4 nM) through the euthyroid (69 +/- 12 nM) to the hyperthyroid condition (80 +/- 11 nM) at extracellular Ca2+ concentrations ([Ca2+]o) up to 2.5 mM. At [Ca2+]o above 2.5 mM the differences in [Ca2+]i between the groups became less. The amplitude of the Ca2+ transients became higher in all groups with increasing [Ca2+]o (1, 2.5 and 5 mM), and was highest at all [Ca2+]o in hyperthyroid myocytes. The beta-agonist isoprenaline elevated peak [Ca2+]i during contraction and increased the rate of the decay of the Ca2+ transients to a greater extent in hypothyroid myocytes than in hyperthyroid myocytes. Depolarization with high [K+]o induced a large but transient [Ca2+]i overshoot in hypothyroid myocytes, but not in hyperthyroid myocytes, before a new elevated steady-state [Ca2+]i was reached, which was not different between the groups. When isoprenaline was added to K+ o-depolarized myocytes after a steady state was reached, a significantly larger extra increase in [Ca2+]i was measured in the hypothyroid group (28%) compared with the hyperthyroid group (8%). It is concluded that in cardiac tissue exposed to increasing amounts of thyroid hormones (1) [Ca2+]i increases at rest and during contraction in cardiomyocytes and (2) interventions which favour Ca2+ entry into the cytosol [( Ca2+]o elevation, high [K+]o, beta-agonists) tend to have less impact on Ca2+ homoeostasis.     

蝙蝠葛碱拮抗缓激肽引起的钙稳态改变 及细胞骨架蛋白的异常磷酸

为研究蝙蝠葛碱 (dauricine , Dau) 拮抗缓激肽 (bradykinin , BK) 诱导的 Alzheimer 样钙稳态失衡及细胞骨架蛋白异常磷酸化的作用,采用双波长荧光分光光度计测定细胞内钙离子浓度 ([Ca2+] i) ,用 MTT 法检测细胞代谢水平,用免疫组织化学方法观察 tau 蛋白表达和磷酸化 . 结果表明,Dau (3 μmol/L , 6 μmol/L) 可抑制 BK 诱导的 [Ca2+]i 升高,保护 BK 引起的神经元代谢降低,拮抗 BK 引起的 tau 蛋白异常磷酸化和聚集 . 结果提示： Dau 可拮抗 BK 诱导的 Alzheimer 样钙稳态失衡及细胞骨架蛋白异常磷酸化的作用 .     

High dose of lipoxin A4 induces apoptosis in rat renal interstitial fibroblasts

Studies have implicated that lipoxinA4 (LXA4) inhibited nuclear factor-kappaB (NF-kappaB), Akt/PKB and PI 3-kinase activity and proliferation of glomerular mesangial cells. It is speculated that LXA4 might serve as pro-apoptotic factor. Rat renal interstitial fibroblasts (NRK-49F cells) were exposed to LXA4 in 5% FCS for 24 h. LXA4 at 0.1 and 1 microM induced 9.83% and 33.82% apoptosis of the cells, respectively, upregulated the expression of calpain 10 and Smac, the levels of [Ca2+]i and activity of caspase-3, and downregulated the activity of STAT3 and threonine phosphorylated Akt1. Transfection of calpain 10 or Smac antisense oligodeoxynucleotide into the cells inhibited the LXA4-induced apoptosis, activity of caspase-3. Pretreatment of the cells with calcium inhibitor SK&F96365 inhibited the LXA4-induced apoptosis, levels of [Ca2+]i, expression of calpain 10 and Smac. In conclusion, LXA4 at high concentrations induced apoptosis of renal interstitial fibroblasts via [Ca2+]i-dependent upregulation of calpain 10 and Smac expression.     

Ca2+ priming during vitamin D-induced monocytic differentiation of a human leukemia cell line

1,25-Dihydroxyvitamin D3 (1,25-(OH)2D3) induces monocytic differentiation of the human promyelocytic leukemia line, HL-60, and enhances Ca2+ transport in target cells of the mineral metabolism system. Hence, we determined whether the steroid's maturational effect on HL-60 involves alterations of intracellular calcium [( Ca2+]i). We found that, as detected by indo-1 fluorescence, [Ca2+]i increases in a slow tonic manner from 99 +/- 11 nM in virgin HL-60 to 182 +/- 19 nM (p less than 0.001) in those treated with 1,25-(OH)2D3 for 24 h. The first apparent rise in [Ca2+]i occurs at between 6 and 12 h and parallels expression of alpha-thrombin and N-formyl-methionyl-leucyl-phenylalanine (fMLP) receptors. This increase in [Ca2+]i is derived from extracellular calcium as its reduction abolishes the effect. The increase in [Ca2+]i is associated with an increase in inositol trisphosphate-stimulated Ca2+ flux from intracellular stores. Interestingly, 1,25-(OH)2D3-mediated HL-60 differentiation as manifest by expression of the macrophage-specific antigen, 63D3, is not blocked by low extracellular calcium. In contrast, the fMLP-induced superoxide ion generation is diminished if the increase in [Ca2+]i is prevented. Furthermore, fMLP-stimulated signal transduction is also reduced by limiting the stimulation of [Ca2+]i during 1,25-(OH)2D3 treatment. Thus, although differentiation of HL-60 to the monocytic phenotype by 1,25-(OH)2D3 is Ca2+-independent, expression of response to regulatory stimuli requires priming of cellular Ca2+ stores. The latter appears to be induced by 1,25-(OH)2D3 via stimulated Ca2+ entry through the plasma membrane.     

Alterations in calcium-mediated signal transduction after traumatic injury of cortical neurons

Calcium influx and elevation of intracellular free calcium ([Ca2+]i), with subsequent activation of degradative enzymes, is hypothesized to cause cell injury and death after traumatic brain injury. We examined the effects of mild-to-severe stretch-induced traumatic injury on [Ca2+]i dynamics in cortical neurons cultured on silastic membranes. [Ca2+]i was rapidly elevated after injury, however, the increase was transient with neuronal [Ca2+]i returning to basal levels by 3 h after injury, except in the most severely injured cells. Despite a return of [Ca2+]i to basal levels, there were persistent alterations in calcium-mediated signal transduction through 24 h after injury. [Ca2+]i elevation in response to glutamate or NMDA was enhanced after injury. We also found novel alterations in intracellular calcium store-mediated signaling. Neuronal calcium stores failed to respond to a stimulus 15 min after injury and exhibited potentiated responses to stimuli at 3 and 24 h post-injury. Thus, changes in calcium-mediated cellular signaling may contribute to the pathology that is observed after traumatic brain injury.     

FMLP诱导的嗜中性白细胞呼吸爆发与凋亡的关系研究

The relationship between apoptosis of neutrophils and the change of their intracellular free Ca2+ concentration [Ca2+]i was studied. FMLP and A23187 were used to elevate the [Ca2+]i while BAPTA was used to deplete it. Fluorescence microscope, flow cytometry and gel electrophoresis were used to study the percentage of cell apoptosis and the change of f-actin during apoptosis. The results showed that the apoptosis was obviously inhibited by fMLP and A23187, while accelerated by BAPTA. The detection of f-actin showed that the f-actin depolymerized obviously during apoptosis. The elevation of [Ca2+]i inhibit the actin depolymerization while depletion of [Ca2+]i accelerated it. This result indicated that the apoptosis of neutrophil was obviously inhibited by [Ca2+]i elevation but accelerated by [Ca2+]i depletion.     

The role of increased calcium influx rate in receptor mediated function of differentiating HL-60 cells

In this study we have investigated the link between increased Ca2+ influx rate, acquired upon the differentiation of HL-60 cells, to changes in cytosolic free Ca2+ ([Ca2+]i], evoked by the chemotactic peptide-FMLP and the mitogen Con-A. Although differentiating and undifferentiated HL-60 cells exhibited similar steady-state levels of [Ca2+]i, cells induced to differentiate by dibutyryl-cAMP, at 48 h, exhibited enhanced Ca2+ influx rate, measured by non-steady state 45Ca2+ uptake, and augmentation of FMLP-stimulated Ca2+ influx. At 120 h the above cells responded to FMLP but not to Con-A, by a marked augmentation of Ca2+ influx, and elevated levels of [Ca2+]i. On the other hand HL-60 cells induced to differentiate by retinoic acid responded, as described above, to Con-A but not to FMLP. HL-60 cells grown in the presence of cholera-toxin, were reported to express high levels of FMLP-receptors without expressing cell differentiation. We have demonstrated that, in these cells the Ca2+ influx rate was unchanged, moreover, FMLP-stimulated Ca2+ influx and [Ca2+]i rise were low. These findings strongly suggest that the presence of receptor is not sufficient for FMLP-mediated changes in [Ca2+]i. A link between increased Ca2+ influx rate, acquired upon induction of differentiation, and receptor mediated response in these cells is proposed.     

Stimulus-secretion coupling in bovine parathyroid cells. Dissociation between secretion and net changes in cytosolic Ca2+

The relationship between the concentration of cytosolic free Ca2+ ([Ca2+]i) and secretion of parathyroid hormone (PTH) was investigated in isolated bovine parathyroid cells using the fluorescent Ca2+ indicator, quin 2. Increasing the concentration of extracellular Ca2+ from 0.5 to 2.0 mM caused a 3-fold increase in [Ca2+]i (from 183 +/- 4 to 568 +/- 21 nM) which was associated with a 2-4-fold decrease in secretion of PTH. Decreasing extracellular Ca2+ to about 1 microM caused a corresponding fall in [Ca2+]i to 60-90 nM. Extracellular Ca2+-induced changes in [Ca2+]i were not affected by omission of extracellular Na+. Depolarizing concentrations of K+ (30 mM) depressed [Ca2+]i at all concentrations of extracellular Ca examined, and this was associated with increased secretion of PTH. Ionomycin (0.1 or 1 microM) increased [Ca2+]i at extracellular Ca2+ concentrations of 0.5, 1.0, and 2.0 mM, but inhibited secretion of PTH only at Ca concentrations near the "Ca2+ set point" (1.25 microM). In contrast, dopamine, norepinephrine (10 microM each), and Li+ (20 mM) potentiated secretion of PTH without causing any detectable change in [Ca2+]i. The results obtained with these latter secretagogues provide evidence for a mechanism of secretion which is independent of net changes in [Ca2+]i. The phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA) did not alter [Ca2+]i or secretion of PTH at low (0.5 mM) extracellular Ca2+ concentrations. At 2.0 mM extracellular Ca2+, however, TPA (20 nM or 1 microM) depressed [Ca2+]i and potentiated secretion of PTH. The addition of TPA prior to raising the extracellular Ca2+ concentration reduced the subsequent increase in [Ca2+]i. The results show that the effects of TPA on secretion in the parathyroid cell are not readily dissociated from changes in [Ca2+]i and suggest that some TPA-sensitive process, perhaps involving protein kinase C, may be involved in those mechanisms that regulate [Ca2+]i in response to changes in extracellular Ca2+.