Calcium influx and intracellular calcium release in anti-CD3 antibody-stimulated and thapsigargin-treated human T lymphoblasts

Summary Jurkat and MOLT-4 cultured T lymphoblasts were loaded with low concentrations (30–50 m) of indo-1 and with high concentrations (3.5–4.5mm) of quin-2, respectively, in order to follow the activation of calcium transport pathways after stimulation of the cells by a monoclonal antibody against the T cell antigen receptor (aCD3), or after the addition of thapsigargin, a presumed inhibitor of endoplasmic reticulum calcium pump. In the indo-1 loaded cells the dynamics of the intracellular calcium release and the calcium influx could be studied, while in the quin-2 overloaded cells the changes in cytoplasmic free calcium concentration ([Ca²⁺] _i ) were strongly buffered and the rate of calcium influx could be quantitatively determined. We found that in Jurkat lymphoblasts, in the absence of external calcium, both aCD3 and thapsigargin induced a rapid calcium release from internal stores, while upon the readdition of external calcium an increased rate of calcium influx could be observed in both cases, aCD3 and thapsigargin released calcium from the same intracellular pools. The calcium influx induced by either agent was of similar magnitude and had a nonadditive character if the two agents were applied simultaneously. As demonstrated in quin-2 overloaded cells, a significant initial rise in [Ca²⁺] _i or a pronounced depletion of internal calcium pools was not required to obtain a rapid calcium influx. The activation of protein kinase C by phorbol ester abolished the internal calcium release and the calcium influx induced by aCD3, while having only a small effect on these phenomena when evoked by thapsigargin. Membrane depolarization by gramicidin inhibited the rapid calcium influx in both aCD3- and thapsigargin-treated cells, although it did not affect the internal calcium release produced by either agent. In MOLT-4 cells, which have no functioning antigen receptors, aCD3 was ineffective in inducing a calcium signal, while thapsigargin produced similar internal calcium release and external calcium influx to those observed in Jurkat cells.     

Intracellular free calcium concentrations in isolated pancreatic acini; effects of secretagogues

Isolated pancreatic acini were loaded with the calcium selective fluorescent indicator, quin-2. Measurements of cellular K+ content and lactic dehydrogenase release indicated that cell viability was not affected by quin-2 loading. The concentration of intracellular free calcium of unstimulated acinar cells was calculated to be 180 +/- 4 nM. When cells suspended in media containing millimolar calcium were exposed to the secretagogues carbachol and cholecystokinin a rapid increase in [Ca2+]i occurred. Both the amplitude and rate of rise of the concentration increase were dose dependent with [Ca2+]i reaching a maximum of 860 +/- 41 nM. The dose-response relationship coincides with the known concentration dependence of the stimulation of amylase release by these agents. In the absence of extracellular calcium, carbachol was still able to elicit a rise in [Ca2+]i. These studies indicate that pancreatic secretagogues induce an increase in [Ca2+]i of acinar cells, both in the presence or absence of extracellular calcium.     

Unique inhibitory profile of platelet activating factor induced calcium mobilization, polyphosphoinositide turnover and granule enzyme secretion in rabbit neutrophils towards pertussis toxin and phorbol ester

Platelet activating factor has been found to increase the intracellular level of free calcium (as monitored by the fluorescent calcium indicator quin-2) and to stimulate the turnover of the polyphosphoinositides in rabbit neutrophils. Calcium mobilization induced by platelet activating factor, in contrast to previous reports with chemotactic factors, is unaffected by pertussis toxin; on the other hand, stimulated polyphosphoinositol hydrolysis and granule enzyme secretion are potently antagonized under the same conditions. The calcium, as well as the secretory responses to the lipid mediator are largely dependent on the presence of extracellular calcium. Internal contributions to the quin-2 signal are only detectable at relatively high concentrations of platelet activating factor. Calcium mobilization and secretion stimulated by platelet activating factor are inhibited following a short incubation with phorbol 12-myristate 13-acetate. These results are discussed in terms of the possibility that platelet activating factor activates neutrophils via dual pathways, the first involving direct interaction with phorbol ester inhibitable calcium channels and the other the stimulation in a manner dependent on a guanine nucleotide binding protein of the phospholipase C specific for polyphosphoinositides.     

Evaluation of the Ca2+ Concentration in Purified Nerve Terminals: Relationship Between Ca2+ Homeostasis and Synaptosomal Preparation

The presynaptic Ca2+ concentration ([Ca]i) was evaluated by studying intracellular free Ca2+ with quin-2 and fura-2 in synaptosomal preparations. The synaptosomal preparations were purified with hyperosmotic (sucrose) and isoosmotic (Percoll) density gradient centrifugation. Synaptosomes are most viable in the heavier fractions of the density gradients. These synaptosomal fractions exhibit the lowest [Ca]i, [204 +/- 2 nM for Percoll (C-band) synaptosomes, loaded at 30 degrees C with the acetoxymethyl ester of fura-2 (fura-2-AM)], a high stability during prolonged incubations at 37 degrees C, and a more potent response to membrane depolarization by elevated extracellular [K+]. [Ca]i measurement was critically dependent on dye loading, calibration, type of dye used, synaptosomal preparation, and incubation temperature (30 degrees or 37 degrees C). Loading quin-2 in synaptosomes inserts a considerable buffer component in the synaptosomal [Ca]i regulation, and consequently there is a quin-2 dependency of [Ca]i, independent of endogenous heavy metal ions. Use of fura-2 is preferable in synaptosomes, although above a critical fura-2-AM/protein ratio during loading ester hydrolysis is not complete, giving rise to errors in [Ca]i determination. Ionomycin is a selective tool to detect the presence of partially hydrolyzed esters and saturate indicators in the cytosol with Ca2+ for calibration. Parallel studies on lactate dehydrogenase and fura-2 fluorescence indicate that synaptosomal viability is very sensitive to prolonged incubations at 37 degrees C. This study shows the applicability of measuring steady-state [Ca]i and dynamic [Ca]i changes quantitatively in fura-2-loaded synaptosomes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cytosolic calcium, calcium fluxes, and regulation of alveolar macrophage superoxide anion production

The recently available compound quin-2, which acts as a high affinity fluorescent indicator for calcium in the cytosol, was used to examine the role of calcium mobilization in the alveolar macrophage during the stimulation of 0-2 production by the tripeptide N-formyl norleucyl leucyl phenylalanine (FNLLP). After preloading with quin-2, the production of 0-2 was measured in conjunction with the transfer of 45Ca+2 and changes in quin-2 fluorescence upon stimulation with FNLLP. When cells were maintained in low (10 microM) extracellular calcium medium the presence of 1.5 mM quin-2 in the cytosolic space partially inhibited the rate of 0-2 production upon stimulation by FNLLP. Addition of 1 mM Ca+2 to the medium prior to stimulation rapidly restored the cell's capability to produce 0-2 upon stimulation at rates equal to control and extended the duration of stimulated 0-2 production as well. Quin-2 fluorescence measurements indicated an increase in cytosolic Ca+2 upon stimulation with FNLLP. This increase was lowest under conditions in which 0-2 production was inhibited. The addition of 1 mM Ca+2 to the medium caused by itself a rapid but transient increase in cytosolic Ca+2 as measured with quin-2 without stimulating 0-2 production. This intracellularly redistributed calcium was determined to be the source of the greater increase in cytosolic calcium during stimulation in the presence of high extracellular calcium. Measurements of 45Ca+2 transfer demonstrated a buffering of cytosolic Ca+2 changes by quin-2, which in low calcium medium could deplete calcium stores. It is suggested that this effect, prior to stimulation, was responsible for the mitigated 0-2 response for those cells maintained in low calcium medium, wherein calcium stores could not be replenished. These results suggested that the cell's mechanism for regulating cytosolic and bound calcium concentrations may also play an integral role in its normal mechanism for stimulated 0-2 production. They further support the postulate that the commonly observed rise in the concentration of calcium in the cytosol upon formyl peptide stimulation is a concomitant but nonregulatory event only.     

Measurement of Receptor Induced Changes in Intracellular Free Calcium in Human Platelets

Abstract

The intracellular free calcium concentration plays a key role as second messenger in the regulation of cellular reactions. Post-receptor events can be investigated by measurement of free calcium concentration in cells. Our experience in measuring the intracellular free calcium concentration in platelets with the use of the fluorescent indicator quin-2-tetraacetoxymethyl- ester is described. Possible pitfalls in the preparation procedures of the platelets are discussed as well as critical steps and the limitations of the quin-2-method. The methodological approach is demonstrated by the presentation of an investigation with the adenylate cyclase inhibitors adenosine-5′-diphosphate and epinephrine as well as their interrelationship. The potentiation effect of epinephrine to adenosine 5′-diphosphate on platelet function such as aggregation is accompanied by a potentiation of the effect of these two platelet activators in elevating the intracellular free calcium concentration. Adenosine 5′-diphosphate elevates intra-platelet free calcium alone, whereas epinephrine acting through stimulation of the alpha₂-receptor needs another permissive factor to immediately elevate the intra-platelet free calcium.     

Transcytosis in cultured proximal tubular cells

Summary Studies were designed to examine fluid-phase pinocytosis in proximal tubular cells. Canine proximal tubules were obtained from the band IV of Percoll^® gradient centrifugation of the dispersed renal cortex, and were seeded on collagen-coated polycarbonate membranes. Integrity of monolayers was confirmed by electrophysiologic measurements, and by scanning electron microscopy. At confluence cell monolayers were studied in Ussing chambers. The rate of transfer of a marker of fluidphase pinocytosis, Lucifer Yellow CH, from the luminal to the basolateral bath was three times higher than that occurring in the opposite direction. Fluorescence microscopy demonstrated that Lucifer Yellow was trapped exclusively in the vesicular compartment. Electron microscopy of the monolayers incubated with cationized ferritin added to the luminal or to the basolateral bath revealed that endocytic vesicles were formed only at the luminal surface. Luminal-to-basolateral transfer of Lucifer Yellow was almost completely blocked at 0°C, and was significantly diminished by K⁺ depletion. Transcytosis of Lucifer Yellow was stimulated twofold by 1-oleoyl-2-acetyl-glycerol. Transfer of quin-2 acetoxymethylester across the monolayer was used as a marker of the paracellular pathway, demonstrating the lack of directional selectivity of this transport route. In summary, vectorial fluid-phase pinocytosis in proximal tubular cells represents an additional mechanism contributing to fluid transport in this segment of the nephron.     

Alpha 1-adrenergic stimulation and cytoplasmic free calcium concentration in cultured renal proximal tubular cells: evidence for compartmentalization of quin-2 and fura-2

This study was designed to examine the role of changes in cytoplasmic free calcium concentration ([Ca2+]i) during the response to alpha 1-adrenergic agonists in cultured renal proximal tubular cells. Experiments were carried out on primary cultures of canine proximal tubular cells grown in defined culture medium on a solid support, on collagen-coated polycarbonate membranes, or on collagen-coated glass coverslips. Quin-2 and fura-2 were used to monitor [Ca2+]i. The basal level of [Ca2+]i was 101 nM, as measured with quin-2, and 122 nM, as determined using fura-2. Fluorescence flow cytometry revealed that about 85% of the population of proximal tubular cells responded to phenylephrine with an increase in [Ca2+]i. Phenylephrine (10(-5) M) caused an immediate actual increase in [Ca2+]i by 18 and 24%, as determined with quin-2 and fura-2, respectively, with the peak increase in [Ca2+]i averaging 22% and 44% over the basal level (180-300 sec). This effect did not require extracellular calcium. The effect of phenylephrine was abolished by prazosin and verapamil. Fluorescence microscopy of quin-2 or fura-2 loaded cells revealed punctate areas of fluorescence within the cytoplasm suggesting vesicular uptake of the dyes. Pinocytotic entrapment of the dyes was demonstrated by the transfer of cell-impermeant fura-2 across tubular cell monolayers mounted in Ussing chambers. The transfer of the dye was similar to that of a marker of fluid-phase pinocytosis, Lucifer Yellow (LY). This pinocytotic entrapment of Ca2+-indicators would lead to underestimation of the actual calcium transients. Microfluorometric study of single proximal tubular cells "scrape-loaded" with fura-2 revealed a four-fold increase in [Ca2+]i concentration following stimulation with phenylephrine.     

Predicting and avoiding subcellular compartmentalization artifacts arising from acetoxymethyl ester calcium imaging probes. The case of fluo-3 AM and a general account of the phenomenon including a problem avoidance chart

Abstract

Stimulated by difficulties experienced when using fluo-3 AM, we developed a general mechanistic model to aid understanding and practical application of calcium probes applied as acetoxymethyl (AM) esters. Several practical issues previously overlooked or under-emphasized are considered by this model. First, some AM ester probes are “super” lipophilic, e.g., calcium orange, fluo-3, fura red, and these are trapped in the plasma membrane. Entry of such compounds into cells requires the presence of serum albumin in the incubation medium or esterase in the plasma membrane or both. Second, visible cytosolic calcium signals require significant cytosolic esterase, which varies considerably among cell lines and within cell populations of a single cell line. Finally, compartmentalization artefacts are most likely when incompletely hydrolyzed esters are present in the cytosol. This can occur because of low cytosolic esterase concentration or activity, and especially when long incubation times or high extracellular probe concentrations are used. An additional factor favoring compartmentalization is the presence of the “salt” form of the probe in the cytosol in the absence of significant concentrations of calcium ions. We provide an algorithmic chart to aid assessment of possible compartmentalization, guides to relevant QSAR models, and notes on estimation of the structural parameters required when using these models.     

Stimulation of hexose uptake in rat thymic lymphocytes by phorbol ester. A role for Ca2+ and Na+H+ exchange?

The tumor promoter 12-0-tetradecanoyl phorbol-13-acetate (TPA) stimulates hexose uptake into rat thymocytes. This study explores two possible messengers of this stimulation: changes in cytosolic [Ca2+], and activation of the Na+/H+ antiport. The cytosolic level of Ca2+, determined by the fluorescence of quin-2, was elevated by TPA, and this rise required extracellular Ca2+. In contrast, stimulation of hexose uptake was still observed in Ca2+ -free media even when cytoplasmic [Ca2+] was buffered with quin-2. TPA also raised the cytoplasmic pH, presumably through activation of the Na+/H+ exchange. However, replacement of extracellular Na+ by N-methylglucamine+ or choline+ which prevents the cytoplasmic alkanization did not prevent stimulation of hexose uptake by TPA. Moreover, amiloride, at concentrations that inhibit Na+/H+ exchange in these cells, did not interfere with stimulation of hexose uptake by TPA. In conclusion, stimulation of hexose uptake by phorbol ester in rat thymocytes does not appear to be mediated by changes in cytosolic free Ca2+ or in the activity of the Na+/H+ antiport.     

Cytosolic Ca2+ homeostasis in Ehrlich and Yoshida carcinomas. A new, membrane-permeant chelator of heavy metals reveals that these ascites tumor cell lines have normal cytosolic free Ca2+

The intracellularly trappable fluorescent Ca2+ indicator quin-2 was used to measure free cytosolic Ca2+, [Ca2+]i, in the two highly dedifferentiated tumor cell lines, Ehrlich and Yoshida ascites carcinomas. It was found that these carcinoma cells can trap quin-2 similarly to normal cells, but [Ca2+]i was apparently significantly lower than in any normal cell tested previously with this method. By using a new lipid-soluble heavy metal chelator TPEN (N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine), which crosses artificial and natural membranes, it was found that endogenous heavy metals are responsible for partially quenching quin-2 fluorescence trapped inside the cells. Although the quenching of intracellular quin-2 fluorescence is quantitatively more relevant in these ascites carcinomas, TPEN was effective also in normal cells like lymphocytes and granulocytes. Both in the normal and especially in the malignant cell lines [Ca2+]i can be grossly underestimated at low intracellular quin-2 concentrations. Endogenous heavy metal quenching is thus a potential source of artifact when [Ca2+]i is measured with quin-2. When corrected for quin-2 fluorescence quenching by intracellular heavy metals, [Ca2+]i and basic regulatory mechanisms of [Ca2+]i homeostasis in Ehrlich and Yoshida carcinomas are similar to those of nontransformed cells.     

Cell calcium of ejaculated rabbit spermatozoa before and following in vitro capacitation

Ejaculated rabbit spermatozoa were loaded with the calcium-selective fluorescent indicator quin-2. Measurements of trypan blue exclusion indicated that cell viability was not affected by quin-2 loading. The concentration of intracellular free calcium of quin-2 loaded sperm was calculated to be 144 +/- 14 nM. Spermatozoa capacitated in vitro either before or following quin-2 loading had intracellular free calcium levels similar to that of non-capacitated sperm. These studies indicate that the concentration of intracellular free calcium of ejaculated rabbit spermatozoa does not change as a result of in vitro capacitation.     

Imaging of Calcium Channels During Polarity Induction in Plant Cells

Understanding the molecular basis of polarity induction in plant cells is a research aspect that extends from signal perception and transduction to morphogenesis. A gradient of cytoplasmic ion fluxes generated through ion channels plays a crucial role in subsequent events leading to polar growth. Convincing evidence is now available implicating temporal and spatial distribution of Ca²⁺ in cytoplasm, generated by localized activity of calcium channels, as the early biochemical events associated with polarity induction. Ion channel antagonists are common tools for studying ion channel structure and function. Coupled with a fluorescent dyes, calcium channel antagonists (phenylalkylamine and dihydropyridine), have been used to localize L-type calcium channels. Additionally, the advent of Confocal Laser Scanning Microscopy has made possible the visualization of Ca²⁺ channels in plant cells. Persisting problems of dye loading and their cellular compartmentation have been addressed by developing a variety of experimental protocols. Present article highlights the current state of our understanding of these concepts, methodologies and their applications in different aspects of plant development.     

Defective signal transduction in CD4-CD8- T cells of lpr mice

Mice homozygous for the lpr gene develop a lymphoproliferative disorder due to expansion of a subset of CD4-CD8- T cells. Triggering of the T-cell receptor in these lpr T cells does not lead to translocation of protein kinase C or phosphorylation of CD3, interleukin-2 production, or proliferation, whereas a combination of phorbol ester and calcium ionophore does. Stimulation with concanavalin A or anti-CD3 induces phosphoinositide hydrolysis. The rise in inositol bisphosphate, inositol triphosphate, and inositol tetrakisphosphate, identified by HPLC, is similar in +/+ and lpr T cells. The concentration of cytoplasmic free calcium ([Ca2+]i), however, under basal and stimulated conditions is significantly lower in lpr T cells. The lower basal [Ca2+]i may explain why induction of proliferation with phorbol ester and calcium ionophore requires a higher concentration of ionophore in these cells than in normal T cells. The lower [Ca2+]i obtained on stimulation may contribute to the activation defect of CD4-CD8- lpr T cells.     

Properties of different Ca2+ pools in permeabilized rat thymocytes

The regulation of free Ca2+ concentration by intracellular pools and their participation in the mitogen-induced changes of the cytosolic free Ca2+ concentration, [Ca2+]i, was studied in digitonin-permeabilized and intact rat thymocytes using a Ca2+-selective electrode, chlortetracycline fluorescence and the Ca2+ indicator quin-2. It is shown that in permeabilized thymocytes Ca2+ can be accumulated by two intracellular compartments, mitochondrial and non-mitochondrial. Ca2+ uptake by the non-mitochondrial compartment, presumably the endoplasmic reticulum, is observed only in the presence of MgATP, is increased by oxalate and inhibited by vanadate. The mitochondria do not accumulate calcium at a free Ca2+ concentration below 1 microM. The non-mitochondrial compartment has a greater affinity for calcium and is capable of sequestering Ca2+ at a free Ca2+ concentration less than 1 microM. At free Ca2+ concentration close to the cytoplasmic (0.1 microM) the main calcium pool in permeabilized thymocytes is localized in the non-mitochondrial compartment. Ca2+ accumulated in the non-mitochondrial pool can be released by inositol 1,4,5-triphosphate (IP3) which has been inferred to mediate Ca2+ mobilization in a number of cell types. Under experimental conditions in which ATP-dependent Ca2+ influx is blocked, the addition of IP3 results in a large Ca2+ release from the non-mitochondrial pool; thus IP3 acts by activation of a specific efflux pathway rather than by inhibiting Ca2+ influx. SH reagents do not prevent IP3-induced Ca2+ mobilization. Addition of the mitochondrial uncouplers, FCCP or ClCCP, to intact thymocytes results in no increase in [Ca2+]i measured with quin-2 tetraoxymethyl ester whereas the Ca2+ ionophore A23187 induces a Ca2+ release from the non-mitochondrial store(s). Thus, the data obtained on intact cells agree with those obtained in permeabilized thymocytes. The mitogen concanavalin A increases [Ca2+]i in intact thymocytes suspended in both Ca2+-containing an Ca2+-free medium. This indicates a mitogen-induced mobilization of an intracellular Ca2+ pool, probably via the IP3 pathway.     

Bimodal regulation of secretion by cytoplasmic Ca2+ as demonstrated by the parathyroid

Bovine parathyroid cells were used to study parathyroid hormone (PTH) release and the cytoplasmic Ca2+ concentration (Cai2+). When the extracellular Ca2+ concentration was decreased from 3.0 to 0.5 mM, perifused cells reacted with rapid stimulation of PTH release. However, a further reduction of extracellular Ca2+ to less than 10 nM resulted in prompt inhibition. Both effects were readily reversible. Using the intracellular Ca2+ indicator quin-2 also as a buffer for calcium it was possible to control Cai2+ within the 20-600 nM range. PTH release was found to increase with Cai2+ up to 200 nM but was gradually suppressed above this concentration.     

Inhibitors of neutral cholesteryl ester hydrolase

p-Nitrophenyl N-butyl, N-octyl, and N-dodecyl carbamates and a newly synthesized diethyl phosphate compound were studied as potential inhibitors of the cholesteryl ester hydrolases of Fu5AH rat hepatoma cells. Whole homogenates of Fu5AH cells were used as an enzyme source for the assay of cholesteryl ester hydrolase activity. All four compounds led to marked inhibition (70-80%) of neutral cholesteryl ester hydrolase activity (assayed at pH 7) at concentrations where the activity of acid cholesteryl ester hydrolase (assayed at pH 4) was unaffected. Cholesteryl ester hydrolysis was also evaluated in intact cultured cells induced to accumulate cholesteryl esters in cytoplasmic lipid droplets by exposure to cholesterol-rich phospholipid dispersions. Hydrolysis was then assessed during subsequent incubations in the presence of an inhibitor of cholesterol esterification. All compounds caused significant inhibition of cholesterol ester hydrolysis with the diethyl phosphate being the most effective. At a concentration that caused greater than 90% inhibition of the hydrolysis of cytoplasmic cholesteryl esters, the compound had only a minimal effect on lysosomal hydrolysis of cholesteryl esters. These results suggest that diethyl phosphates and N-alkylcarbamates may be of value in future studies on the substrate specificities, regulation, and physiological role(s) of cholesteryl ester hydrolases.     

Bethanechol inhibition of chicken intestinal brush border Na/H exchange: role of protein kinase C and other calcium-dependent processes.

Bethanechol, a muscarinic agonist, inhibits the initial rate of amiloride-sensitive Na uptake by intact mucosa of avian small intestine as well as by isolated chicken villus enterocytes, an effect that is maximal at 90 seconds and reverses by 6 minutes. Bethanechol similarly decreases intracellular pH in isolated cells suspended in bicarbonate-free buffer in a time course similar to inhibition of enterocyte Na uptake, suggesting inhibition of Na/H exchange. In brush border membrane vesicles rapidly prepared from cells stimulated with bethanechol, proton-dependent 22Na uptake is transiently inhibited in a time course similar to inhibition of cell Na uptake. Bethanechol also stimulates transient translocation of protein kinase C from the cytosol to the particulate fraction, a portion of this activity translocating to the brush border membrane. To determine the calcium dependence of bethanechol's action, enterocytes were loaded with varying concentrations of the calcium buffering agent quin-2. Inhibition of cell Na uptake by the calcium ionophore ionomycin could be completely reversed by quin-2 buffering in a concentration-dependent manner. In contrast, quin-2 buffering had little or no effect on the inhibition of Na uptake caused by the protein kinase C activators phorbol esters and oleoylacetylglycerol. Bethanechol's inhibitory effects were partially, but not completely reversed by quin-2 buffering. These data suggest that the effects of bethanechol on chicken villus enterocyte brush border Na/H exchange are mediated by calcium-dependent process(es) as well as by protein kinase C.     

Effects of extra- and intracellular calcium concentration on DNA replication,lateral growth,and differentiation of human epidermal cells in culture

Variation in the extra- and intra-cellular concentration of calcium ([Ca]e and [Ca]i) affected the 3H-thymidine labeling pattern of sorted S-phase cells in human epidermal cultures. A lowering of [Ca]e resulted in retarded lateral growth but, unless [Ca]e was extremely low, caused an increase in the proportion of strongly labelled (rapidly cycling) S-phase cells. An increased desquamation of superficial cells due to a reduced cellular cohesiveness was also observed in low calcium medium. Thus, a lowering of [Ca]e might stimulate the proliferation of a pool of cycling cells destined for rapid terminal differentiation and tissue regeneration, whereas proliferation destined for lateral growth is inhibited. Attempts to decrease the [Ca]i with the calcium chelator quin-2 at low [Ca]e seemed to elevate the proportion of strongly labelled S-phase cells, whereas an increased [Ca]i obtained with the ionophore A23187 caused a dramatic decrease in the proportion of S-phase cells that showed strong 3H-thymidine incorporation. This implies that variation in both [Ca]i and [Ca]e may play a role in the regulation of proliferation and differentiation, in keratinocytes.     

凝血酶引致的血小板内钙,镁离子浓度及分布状态的变化

我们使用荧光探针ｆｕｒａ２、ｍａｇ－ｆｕｒａ２和ｆｌｕｏ３测定了凝血酶引致的血小板凝聚过程中细胞内钙、镁离子浓度的变化及分布状态。在０．５Ｕ／ｍｌ凝血酶作用下,血小板细胞内钙离子浓度呈双时相变化。血小板细胞群中细胞内钙离子浓度呈正态分布。伴随血小板凝聚时细胞内钙离子浓度增加,血小板细胞内游离镁离子浓度也明显增加,提示镁离子在血小板凝聚中有重要的作用。