Spatial microenvironment defines Ca2+ entry and Ca2+ release in salivary gland cells

The difference of Ca(2+) mobilization induced by muscarinic receptor activation between parotid acinar and duct cells was examined. Oxotremorine, a muscarinic-cholinergic agonist, induced intracellular Ca(2+) release and extracellular Ca(2+) entry through store-operated Ca(2+) entry (SOC) and non-SOC channels in acinar cells, but it activated only Ca(2+) entry from non-SOC channels in duct cells. RT-PCR experiments showed that both types of cells expressed the same muscarinic receptor, M3. Given that ATP activated the intracellular Ca(2+) stores, the machinery for intracellular Ca(2+) release was intact in the duct cells. By immunocytochemical experiments, IP(3)R2 colocalized with M3 receptors in the plasma membrane area of acinar cells; in duct cells, IP(3)R2 resided in the region on the opposite side of the M3 receptors. On the other hand, purinergic P2Y2 receptors were found in the apical area of duct cells where they colocalized with IP(3)R2. These results suggest that the expression of the IP(3)Rs near G-protein-coupled receptors is necessary for the activation of intracellular Ca(2+) stores. Therefore, the microenvironment probably affects intracellular Ca(2+) release and Ca(2+) entry.     

Role of Ca2+,Mg2+-ATPases in Diabetes-Induced Alterations in Calcium Homeostasis in Input Neurons of the Nociceptive System

In a rat model of streptozotocin (STZ)-induced diabetes, we earlier showed that under these conditions the concentration of free cytosolic Ca²⁺ in input neurons of the nociceptive system increases, Ca²⁺ signals are prolonged, while Ca²⁺ release from intracellular calcium stores decreases. The aim of our study was to test the hypothesis that changes in the activities of Ca²⁺,Mg²⁺-ATPases of the endoplasmic reticulum (SERCA) and plasmalemma (PMCA) could be responsible for diabetes-induced disorders of calcium homeostasis in nociceptive neurons. We measured the Ca²⁺,Mg²⁺-ATPase activities in microsomal fractions obtained from tissues of the dorsal root ganglia (DRG) and spinal dorsal horn (DH) of control rats and rats with experimentally induced diabetes. The integral specific Ca²⁺,Mg²⁺-ATPase activity in microsomes from diabetic rats was lower than that in the control group. The activity of SERCA in samples of DRG and DH of diabetic rats was reduced by 50 ± 8 and 48 ± 12%, respectively, as compared with the control (P < 0.01). At the same time, the activity of PMCA decreased by 63 ± 6% in DRG and by 60 ± 9% in DH samples (P < 0.01). We conclude that diabetic polyneuropathy is associated with the reduction of the rate of recovery of the Ca²⁺ level in the cytosol of DRG and DH neurons due to down-regulation of the SERCA and PMCA activities.     

Ca2+, Mg2+, Zn2+ levels in histone fractions from normal and tumor cells

Distribution of some bivalent cations (Ca2+, Mg2+, Zn2+) in histones isolated from healthy mice liver and ascitic hepatoma 22A cells has been investigated by atomic-absorption analysis. It has been shown that the content of these cations is higher in normal and diseased H3, H2B and H1 fractions and lower--in H2A; however, in the H4 fraction these metals are not detected. A significant increase of Ca2+, Mg2+ and Zn2+ levels has been established in ascitic H3, H2B and H1 fractions. An increase of bivalent cations (Ca2+, Mg2+, Zn2+) content in some histone fractions apparently is bound with the changes of histone--histone and histone--DNA interactions.     

Role of extracellular Ca2+ in acetylcholine-induced repetitive Ca2+ release in submandibular gland acinar cells of the rat

Acetylcholine (ACh) caused repetitive transient Cl⁻ currents activated by intracellular Ca²⁺ in single rat submandibular grand acinar cells. As the concentration of ACh increased the amplitude and the frequency of the transient Cl⁻ currents increased. These responses occurred also in the absence of extracellular Ca²⁺ but disappeared after several minutes. Repetitive transient Cl⁻ currents were restored by readmission of Ca²⁺ to the extracellular solution. The higher the concentration of extracellular Ca²⁺ readmitted, the larger the amplitude of the transient Cl⁻ currents. Ca²⁺ entry through a store-coupled pathway was detected by application of Ca²⁺ to the extracellular solution during a brief cessation of stimulation with ACh. In these experiments too, the higher the concentration of Ca²⁺, the larger the transient Cl⁻ currents activated by Ca²⁺ released from the stores. The time course of decrease in total charge movements of repetitive transient responses to ACh with removal of extracellular Ca²⁺ depended on a decrease in charge movements of each transient event rather than a decrease in frequency of the repetitive events. The decrease of charge movements of each transient event was due to a decrease in its amplitude rather than its duration. The results suggest that in this cell type an amplitude-modulated mechanism is involved in repetitive Ca²⁺ release and that Ca²⁺ entry is essential to maintain the repetitive release of Ca²⁺. The results further suggest that the magnitude of Ca²⁺ entry determines the number of unitary stores filled with Ca²⁺ which can synchronously respond to ACh. © 1996 Wiley-Liss, Inc.     

Fluxes of Ca2+, Sr2+ and Mg2+ in synaptosomes.

Synaptosomes isolated from sheep brain cortex accumulate Ca²⁺, Sr²⁺ and Mg²⁺ when incubated in isosmotic sucrose media containing 5 mM of either of these cations. The maximal levels of cations retained per mg of protein are 100 nmol of Ca²⁺, 85 nmol of Mg²⁺ and 80 nmol of Sr²⁺. The loss of Ca²⁺ or Sr²⁺ from the preloaded synaptosomes is increased by monovalent cations in the following order: Na⁺> K⁺ > Li⁺> choline, whereas for the loss of Mg²⁺ this order is different: K⁺ > Na⁺ > Li ～ choline. The efflux of Ca²⁺ or Sr²⁺ induced by monovalent cations decreases as the temperature is lowered and it is nearly abolished at 0°C, whereas the efflux of Mg²⁺ is much less influenced by temperature. The results suggest that the mechanism of exchange of Ca²⁺ for Na⁺ in synaptosomes operates similarly for Sr²⁺, but not for Mg²⁺.     

Purification and characteristics of Ca2+,Mg2+- and Ca2+,Mn2+-dependent and acid DNases from spermatozoa of the sea urchin Strongylocentrotus intermedius

Ca²⁺,Mg²⁺- and Ca²⁺,Mn²⁺-dependent and acid DNases were isolated from spermatozoa of the sea urchin Strongylocentrotus intermedius. The enzymes have been purified by successive chromatography on DEAE-cellulose, phenyl-Sepharose, Source 15Q, and by gel filtration, and the principal physicochemical and enzymatic properties of the purified enzymes were determined. Ca²⁺,Mg²⁺-dependent DNase (Ca,Mg-DNase) is a nuclear protein with molecular mass of 63 kD as the native form and its activity optimum is at pH 7.5. The enzyme activity in the presence of bivalent metal ions decreases in the series (Ca²⁺ + Mg²⁺) > Mn²⁺ = (Ca²⁺ + Mn²⁺) > (Mg²⁺ + EGTA) > Ca²⁺. Ca,Mg-DNase retains its maximal activity in sea water and is not inhibited by G-actin and N-ethylmaleimide, whereas Zn²⁺ inhibits the enzyme. The endogenous Ca,Mg-DNase is responsible for the internucleosomal cleavage of chromosomal DNA of spermatozoa. Ca²⁺,Mn²⁺-dependent DNase (Ca,Mn-DNase) has molecular mass of 25 kD as the native form and the activity optimum at pH 8.5. The enzyme activity in the presence of bivalent metal ions decreases in the series (Ca²⁺ + Mn²⁺) > (Ca²⁺ + Mg²⁺) > Mn²⁺ > (Mg²⁺ + EGTA). In seawater the enzyme is inactive. Zinc ions inhibit Ca,Mn-DNase. Acid DNase of spermatozoa (A-DNase) is not a nuclear protein, it has molecular mass of 37 kD as a native form and the activity optimum at pH 5.5, it is not activated by bivalent metal ions, and it is inhibited by N-ethylmaleimide and iodoacetic acid. Mechanisms of the endonuclease cleavage of double-stranded DNA have been established for the three enzymes. The possible involvement of DNases from sea urchin spermatozoa in programmed cell death is discussed.     

Human submandibular gland (HSG) cell line as a model for studying salivary gland Ca2+ signalling mechanisms

The human submandibular gland cell line (HSG) has been used as a model for studying the molecular mechanisms of salivary cells. The aim of this study was to investigate some aspects of salivary Ca2+ signalling. We focused on the presence and function of specific molecular markers of salivary cells to see whether this cell line retained normal salivary characteristics, despite the neoplastic changes. We detected the M3 acetylcholine receptor and intracellular salivary amylase mRNA with RT-PCR. Carbachol treatment caused a rapid, transient elevation of [Ca2+]i, showing that the cholinergic receptors are functional in HSG cells. Protein kinase C activation by phorbol-esther PMA, prior to carbachol treatment, inhibited the normal Ca2+ signalling pathway in HSG cells. Using selective antagonists, we also identified the dominant muscarinic receptor subtype M3 on HSG cells. We also observed that functional extracellular purinergic receptors were present on HSG cells and coupled to intracellular Ca2+ signalling. Our results suggested that the coupling mechanisms of these receptors remained relatively intact despite the neoplastic transformation. This enables us to use this cell line to model the role of muscarinic and purinergic control of salivary gland function, cell proliferation and differentiation.     

Changes in functioning of rat submandibular salivary gland under streptozotocin-induced diabetes are associated with alterations of Ca2+ signaling and Ca2+ transporting pumps

Xerostomia and pathological thirst are troublesome complications of diabetes mellitus associated with impaired functioning of salivary glands; however, their cellular mechanisms are not yet determined. Isolated acinar cells were loaded with Ca2+ indicators fura-2/AM for measuring cytosolic Ca2+ concentration ([Ca2+]i) or mag-fura-2/AM-inside the endoplasmic reticulum (ER). We found a dramatic decrease in pilocarpine-stimulated saliva flow, protein content and amylase activity in rats after 6 weeks of diabetes vs. healthy animals. This was accompanied with rise in resting [Ca2+]i and increased potency of acetylcholine (ACh) and carbachol (CCh) but not norepinephrine (NE) to induce [Ca2+]i transients in acinar cells from diabetic animals. However, [Ca2+]i transients mediated by Ca2+ release from ER stores (induced by application of either ACh, CCh, NE, or ionomycin in Ca2+-free extracellular medium) were decreased under diabetes. Application of inositol-1,4,5-trisphosphate led to smaller Ca2+ release from ER under the diabetes. Both plasmalemma and ER Ca2+-ATPases activity was reduced and the latter showed the increased affinity to ATP under the diabetes. We conclude that the diabetes caused impairment of salivary cells functions that, on the cellular level, associates with Ca2+ overload, increased Ca2+-mobilizing ability of muscarinic but not adrenergic receptors, decreased Ca2+-ATPases activity and ER Ca2+ content.     

Swelling-induced Ca2+ release from intracellular calcium stores in rat submandibular gland acinar cells

The effects of osmotically-induced cell swelling on cytoplasmic free Ca2+ concentration ([Ca2+]i) were studied in acinar cells from rat submandibular gland using microspectrofluorimetry. Video-imaging techniques were also used to measure cell volume. Hypotonic stress (78% control tonicity) caused rapid cell swelling reaching a maximum relative volume of 1.78 +/- 0.05 (n = 5) compared to control. This swelling was followed by regulatory volume decrease, since relative cell volume decreased significantly to 1.61 +/- 0.08 (n = 5) after 10 min exposure to hypotonic medium. Osmotically induced cell swelling evoked by medium of either 78% or 66% tonicity caused a biphasic increase of [Ca2+]i. The rapid phase of this increase in [Ca2+]i was due to release of Ca2 + from intracellular stores, since it was also observed in cells bathed in Ca2+-free solution. The peak increase of [Ca2+]i induced by cell swelling was 3.40 +/- 0.49 (Fura-2 F340/F380 fluorescence ratio, n = 11) and 3.17 +/- 0.43 (n = 17) in the presence and the absence of extracellular Ca2+, respectively, corresponding to an absolute [Ca2+]i of around 1 microm. We found that around two-thirds of cells tested still showed some swelling-induced Ca2+ release (SICR) even after maximal concentrations (10(-5) M - 10(-4) M) of carbachol had been applied to empty agonist-sensitive intracellular Ca2+ stores. This result was confirmed and extended using thapsigargin to deplete intracellular Ca2+ pools. Hypotonic shock still raised [Ca2+]i in cells pretreated with thapsigargin, confirming that at least some SICR occurred from agonist-insensitive stores. Furthermore, SICR was largely inhibited by pretreatment of cells with carbonyl cyanide m-cholorophenyl hydrazone (CCCP) or ruthenium red, inhibitors of mitochondrial Ca2+ uptake. Our results suggest that the increase in [Ca2+]i, which underlies regulatory volume decrease in submandibular acinar cells, results from release of Ca2+ from both agonist-sensitive and mitochondrial Ca2+ stores.     

Modulation of Ca2+- and voltage-activated K+ channels by internal Mg2+ in salivary acinar cells

High-conductance K+ channels are known to be activated by internal Ca2+ and membrane depolarization. The effects of changes in internal Mg2+ concentration have now been investigated in patch-clamp single-channel current experiments on excised membrane fragments from mouse acinar cells. It is shown that Mg2+ in the concentration range 10(-6)-10(-3) M evokes a dose-dependent K+ channel activation at a constant Ca2+ concentration of 10(-8) M. The demonstration that changes in [Mg2+]i between 2.5 X 10(-4) and 1.13 X 10(-3) M has effects on the channel open-state probability indicates that fluctuations in [Mg2+]i in intact cells may influence the control of channel opening.     

Structural features of the submandibular salivary gland of gnotobiotic rats

The submandibular salivary gland was histochemically and electron microscopically studied in gnotobiotic and conventional Wistar rats at the age of 15 days--10 months. By the first month of age, the submandibular salivary glands in both groups of animals complete differentiation of their acini, and the gland, according to the type of its secretion, becomes seromucous with predominance of albuminous component in it. Succinate dehydrogenase activity and nonspecific esterase predominate in epithelium of the excretory ducts. At the second month of life some signs of moreasing ductal part of the gland appear in the gnotobiotic rats. This part greatly increases by the 4th--10th month of life, mainly at the expense of twisted granular sections. This increase in number and volume of the twisted granular ducts results in compressing acini and in ultrastructural disorders of granulocytes, with destruction of some mitochondria, increasing number of lysosomes, decreasing size and alterations in character of secretory granules, in structural disorders of the laminar complex. All these manifest depressing secretory function of granulocytes in the gland of gnotobiotic animals.     

SIMS Investigation of the Distribution of K+, Na+, Mg2+ and Ca2+ Cations in Birch Pollen

Two microanalytical techniques were used to investigate the inorganic cation content and distributions in birch (Betula verrucosa Ehrh.) pollen. With intact pollen grains. X-ray microanalysis (EDX) could only give a mean ionic composition. Secondary Ion Microscopy and Spectrometry (SIMS) appeared to be a more suitable technique to image ion distributions in the different pollen structures. This was carried out with samples prepared using a new vapour phase technique designed to improve ion retention. Transmission electron microscopy (TEM)showed good structural preservation of the samples. Monovalent ion (K⁺, Na⁺) distribution showed features different from those of the divalent cations (Ca²⁺, Mg²⁺). In the vegetative cell, the alkaline cations were mainly distributed in the most internal part of the cytoplasm and they were probably associated with starch grains or concentrated in dry vacuoles. Calcium distribution correlated well with the areas in the cytoplasm of the vegetative cell containing a dense network of mitochondria and endoplasmic reticulum. Within the pollen grain, the sperm cell appeared to contain the most calcium. Calcium was also abundant in the sporoderm. These results reveal the potential of SIMS for pollen studies that include germination, the monitoring of air pollutants and the allergens-ion interactions.     

Ca2+,Mg2+-ATPase of microsomal membranes from bovine aortic smooth muscle: effects of Sr2+ and Cd2+ on Ca2+ uptake and formation of the phosphorylated intermediate of the Ca2+,Mg2+-ATPase

The effects of various divalent cations on the Ca2+ uptake by microsomes from bovine aortic smooth muscle were studied. High concentrations (1 mM) of Co2+, Zn2+, Mn2+, Fe2+, and Ni2+ inhibited neither the Ca2+ uptake by the microsomes nor the formation of the phosphorylated intermediate (E approximately P) of the Ca2+,Mg2+-ATPase of the microsomes. The cadmium ion, however, inhibited both the Ca2+ uptake and the E approximately P formation by the microsomes. Dixon plot analysis indicated Cd2+ inhibited (Ki = 135 microM) the Ca2+ dependent E approximately P formation in a non-competitive manner. The inhibitory effect of Cd2+ was lessened by cysteine or dithiothreitol. The strontium ion inhibited the Ca2+ uptake competitively, while the E approximately P formation increased on the addition of Sr2+ at low Ca2+ concentrations. At a low Ca2+ concentration (1 microM), Sr2+ was taken up by the aortic microsomes in the presence of 1 mM ATP. It is thus suggested that Sr2+ replaces Ca2+ at the Ca2+ binding site on the ATPase.     

Role of Mg2+ in the Ca2+-Ca2+ exchange mediated by the membrane-bound (Ca2+, Mg2+)-ATPase of sarcoplasmic reticulum vesicles

Sarcoplasmic reticulum vesicles were preloaded with either 45Ca2+ or unlabeled Ca2+. The unidirectional Ca2+ efflux and influx, together with Ca2+-dependent ATP hydrolysis and phosphorylation of the membrane-bound (Ca2+, Mg2+)-ATPase, were determined in the presence of ATP and ADP. The Ca2+ efflux depended on ATP (or ADP or both). It also required the external Ca2+. The Ca2+ concentration dependence of the efflux was similar to the Ca2+ concentration dependences of Ca2+ influx, Ca2+-dependent ATP hydrolysis, and phosphoenzyme formation. The rate of the efflux was approximately in proportion to the concentration of the phosphoenzyme up to 10 microM Ca2+. These results and other findings indicate that the Ca2+ efflux represents the Ca2+-Ca2+ exchange (between the external medium and the internal medium) mediated by the phosphoenzyme. In the range of 0.6-5.2 microM Mg2+, no appreciable Ca2+-Ca2+ exchange was detected although phosphoenzyme formation occurred to a large extent. Elevation of Mg2+ in the range 5.2 microM-4.8 mM caused a remarkable activation of the exchange, whereas the amount of the phosphoenzyme only approximately doubled. The kinetic analysis shows that this activation results largely from the Mg2+-induced acceleration of an exchange between the bound Ca2+ of the phosphoenzyme and the free Ca2+ in the internal medium. It is concluded that Mg2+ is essential for the exposure of the bound Ca2+ of the phosphoenzyme to the internal medium.     

Ca2+-transporting properties of myometrial plasma cell membrane Ca2+, Mg2+-ATPase reconstituted in liposomes

Purified myometrium cells plasma membrane Ca2+, Mg(2+)-ATPase was reconstitute in liposomes in functionally active state by the method of cholate dialysis: it showed ATP-hydrolase activity increased by 0.8 microM A23187 average 4 times and it showed Mg2+, ATP-dependent Ca(2+)-transporting activity. Reconstituted system transported Ca2+ at an initial rate of 114.4 +/- 16.3 nmol.min-1.mg-1 with the stoichiometry Ca2+: ATP = 1: (3.2-3.7). Calmodulin increased by 30% the initial rate of Ca(2+)-accumulation by the proteoliposomes with reconstituted Ca2+, Mg(2+)-ATPase; 0.1 mM orthovanadate decreased by 80% Ca(2+)-accumulation by this system. Ca2+, Mg(2+)-ATPase reconstituted in liposomes is just Ca(2+)-transporting ATPase of the plasma membrane. Obtained enzyme preparate can be utilised for study of the properties of this important energy-dependent Ca(2+)-transporting system of smooth muscle cell.     

盐胁迫下杨树根际系统盐分离子分布特性

在温室条件下,采用盆栽根箱培养的方法研究盐胁迫下I 69杨(PopulusdeltoidesBartr.cv.'Lux')和NL 1381杨〔PopulusdeltoidesBartr.cv.'Lux'×P.euramericana(Dode)GeninierCL'I 45 51'〕根际、非根际土壤盐分分布特征。盐处理浓度共设3个水平:CK(NaCl0g kg)、处理A(NaCl1g kg)和处理B(NaCl2g kg),采用完全随机设计。结果表明,2个杨树无性系根际水溶性K+亏缺,水溶性Na+、Ca2+和Mg2+富集。K+的亏缺率及Na+的富集率随NaCl处理浓度的增大而减小,Ca2+和Mg2+的富集率在非盐渍条件下最低,处理A达最高,处理B较处理A略有下降。在盐胁迫下,无性系NL 1381杨根际土壤Na+的浓度和电导率均低于无性系I 69杨,可以有效减轻盐分对根系的渗透胁迫,相对而言具有较强的抗盐性。     

Effects of Mg2+, anions and cations on the Ca2+ + Mg2+-activated ATPase of sarcoplasmic reticulum.

In a previous paper [Gould, East, Froud, McWhirter, Stefanova & Lee (1986) Biochem. J. 237, 217-227] we presented a kinetic model for the activity of the Ca2+ + Mg2+-activated ATPase of sarcoplasmic reticulum. Here we extend the model to account for the effects on ATPase activity of Mg2+, cations and anions. We find that Mg2+ concentrations in the millimolar range inhibit ATPase activity, which we attribute to competition between Mg2+ and MgATP for binding to the nucleotide-binding site on the E1 and E2 conformations of the ATPase and on the phosphorylated forms of the ATPase. Competition is also suggested between Mg2+ and MgADP for binding to the phosphorylated form of the ATPase. ATPase activity is increased by low concentrations of K+, Na+ and NH4+, but inhibited by higher concentrations. It is proposed that these effects follow from an increase in the rate of dephosphorylation but a decrease in the rate of the conformational transition E1'PCa2-E2'PCa2 with increasing cation concentration. Li+ and choline+ decrease ATPase activity. Anions also decrease ATPase activity, the effects of I- and SCN- being more marked than that of Cl-. These effects are attributed to binding at the nucleotide-binding site, with a decrease in binding affinity and an increase in 'off' rate constant for the nucleotide.     

Control of puffing activity in three chromosomal segments of explanted salivary gland cells of Chironomus thummi by variation in extracellular Na+,K+ and Mg2+

Salivary glands of Chironomus thummi larvae were incubated in media composed of those $\text{NaCl}\text{KCl}\text{,}\text{MgCl}{}_2\text{NaCl}\text{or}\text{MgCl}{}_2\text{KCl}$ combinations and at concentrations which they tolerated without visible damage. Resulting changes in puffing activity were recorded for three chromosomal segments. Within certain combinatorial ranges $\text{NaCl}\text{KCl}\text{,}\text{MgCl}{}_2\text{NaCl}\text{and}\text{MgCl}{}_2\text{KCl}$ induced puffs in the three segments. Each inducing range is depicted as a ‘puff-inducing field’ for extracellular ion concentrations (IF^e) in a two-dimensional lattice. The IF^e_s are coherent, distinctly delineated and highly overlapping. At most places a transition from 0 to 100 % puff induction (induction of respective puff in each nucleus) depends on changes in media composition of 10–20 mM. Ion sensitivities of the three chromosomal segments were computed for NaCl/KCl/MgCl₂ combinations and were found to conform to actual puff-inducing capacities of selected NaCl/KCl/MgCl₂ media.