Ca2+-Mg2+-activated adenosine triphosphatase in plasma and granule membranes in non-secreting and secreting mast cells

An adenosine triphosphatase (ATP) activated by Ca²⁺ or Mg²⁺ is shown morphologically on the outer surface of non-secreting and secreting rat peritoneal mast cells. ATPase having the same properties is also seen on the external surface of the other peritoneal cells, i.e. macrophages, mononuclear cells and lymphocytes. When histamine release from the mast cells was induced by exposing them to antigen (anaphylactic reaction) or compound 48/80, ATPase activated by Ca²⁺ or Mg²⁺ could in addition be demonstrated in the granule membranes. Granule membrane ATPase is also shown in non-secreting mast cells after freezing and thawing. ATPase on the outer surface of the plasma membrane is seen in the secreting mast cells as in the non-secreting cells except in the areas where the plasma membrane fuses with the granule membrane. The role of ATPase in granule secretion process has been discussed.     

Presence of a high-affinity Ca2+- and Mg2+-dependent ATPase in rat peritoneal mast-cell membranes.

Purified perigranular and plasma membranes isolated from rat peritoneal mast cells were examined for Ca2+- and Mg2+-dependent ATPase activity. Isolated perigranular membranes contained only a low-affinity Ca2+- or Mg2+-dependent ATPase (Km greater than 0.5 mM). The plasma membranes contained both a low-affinity Ca2+- or Mg2+-dependent ATPase (Km = 0.4 mM, Vmax. = 20 nmol of Pi/min per mg), as well as a high-affinity Ca2+- and Mg2+-dependent ATPase (Km = 0.2 microM, Vmax. = 6 nmol of Pi/min per mg).     

Response of pleural and peritoneal mastocyte populations in the rat to agents with different mechanisms of action

Histamine release from rat pleural and peritoneal mast cells not previously purified is presented. Cells are stimulated by different mechanism-acting pharmacologic agents. FNa, theophylline, ruthenium red, chlorpromazine and propranolol are used. Results show that both cell populations are pharmacologically different, with distinct responses in the presence of FNa or chlorpromazine. Chlorpromazine and propranolol are cytolytic agents.     

Induction of telomerase activity during development of human mast cells from peripheral blood CD34+ cells: comparisons with tumor mast-cell lines

To further characterize the development of mast cells from human hemopoietic pluripotent cells we have investigated the expression of telomerase activity in cultured human peripheral blood CD34+ cells, and CD34+ /CD117+ /CD13+ progenitor mast cells selected therefrom, with the idea that induction of telomerase is associated with clonal expansion of CD34+ /CD117+ /CD13+ cells. A rapid increase in telomerase activity preceded proliferation of both populations of cells in the presence of stem cell factor and either IL-3 or IL-6. The induction was transient, and telomerase activity declined to basal levels well before the appearance of mature mast cells. Studies with pharmacologic inhibitors suggested that this induction was initially dependent on the p38 mitogen-activated protein kinase and phosphatidylinositol 3'-kinase, but once cell replication was underway telomerase activity, but not cell replication, became resistant to the effects of inhibitors. Tumor mast cell lines, in contrast, expressed persistently high telomerase activity throughout the cell cycle, and this expression was unaffected by inhibitors of all known signaling pathways in mast cells even when cell proliferation was blocked for extended periods. These results suggest that the transient induction of telomerase activity in human progenitor mast cells was initially dependent on growth factor-mediated signals, whereas maintenance of high activity in tumor mast cell lines was not dependent on intracellular signals or cell replication.     

Regulation of the Na(+)-K+ pump activity and estimation of the reserve capacity in intact rat peritoneal mast cells

Evidence is provided that regulation of the Na(+)-K+ pump activity in rat peritoneal mast cells occurs mainly through stimulation of the pump from inside the plasma membrane by sodium. It is demonstrated that there is a large reserve capacity for the exchange of intracellular sodium with extracellular potassium in these cells. The maximal pump activity was estimated to be 3230 pmol/10(6) cells per min and Km for extracellular potassium was 1.5 mM.     

Epinephrine stimulates the Na+-K+ ATPase in isolated rat jejunal crypt cells

The effect of epinephrine on the activity of the Na+-K+ ATPase was studied in isolated rat jejunal cells. The activity of the pump was assessed by measuring the ouabain inhibitable K+ accumulation by the enterocytes using 86Rb as a tracer. Epinephrine stimulated significantly the Na+-K+ ATPase in crypt cells but not in villus cells. This effect was still apparent in presence of propranolol and prazocin but disappeared in presence of yohimbine. Amiloride did not affect the epinephrine-induced stimulation. Calcium channel blockers and dibutyryl cAMP enhanced the activity of the pump, and exerted respectively overlapping and additive effects with epinephrine, when added simultaneously. The calcium ionophore A23187 inhibited the basal activity of the ATPase and the stimulatory effect of epinephrine disappeared in its presence. These results suggest that epinephrine stimulates the Na+-K+ ATPase in jejunal crypt cells by activating alpha2 receptors and decreasing intracellular calcium, and not by altering cAMP levels.     

Localized mast cell degranulation induced by concanavalin A-sepharose beads. Implications for the Ca2+ hypothesis of stimulus-secretion coupling

Concanavalin A (Con A) covalently linked to Sepharose 4B beads induced localized degranulation of sensitized rat peritoneal mast cells in regions of contact between beads and cells. This degranulation was Ca2+ dependent and was not seen when sensitized mast cells bound to beads conjugated with a nonstimulating lectin, wheat germ agglutinin, or when unsensitized mast cells bound to Con A-Sepharose. The finding that sensitized mast cells which had adhered to Con A-Sepharose beads degranulated in regions of the cell away from the area of bead contact if exposed to soluble Con A excluded the possibility that the localized release was due to a redistribution of the IgE receptors or putative Ca2+ channels to the region of bead contact. The results suggest that, if an influx of Ca2+ is the mechanism for initiating mast cell degranulation, then the opening of Ca2+ channels in the plasma membrane of activated mast cells is a localized event and that Ca2+ acts locally within the cell to initiate exocytosis.     

Histamine release by pharmacological agents in the absence of external free Ca2+

The involvement of extracellular free Ca2+ in histamine release was investigated in rat peritoneal mast cells. Incubation of non-antigenized cells in a media with high extracellular potassium did not increase histamine release. Secretion induced by A23187 and compound 48/80 in the presence of Ca2+ requires metabolic energy. In the absence of external free Ca2+ (2.5 microM) histamine release induced by A23187 is reduced but not abolished. Secretion induced by compound 48/80 is independent of extracellular Ca2+. These results lead us to suggest that mast cell plasma membranes probably lack voltage-gated Ca2+ channels and that external Ca2+ may not be an absolute requisite for histamine secretion.     

Redistribution of phospholipid/Ca2+-dependent protein kinase in mast cells activated by various agonists

Three types of agonists; receptor-mediated concanavalin A), direct (phorbol ester), and membrane-perturbing (compound 48/80), elicit histamine secretion from rat peritoneal mast cells. We tested whether activation of the mast cells by these agents is accompanied by subcellular redistribution of protein kinase C. Phorbol ester treatment predictably caused a profound decrease of phospholipid/Ca2+-dependent histone kinase activity in the cytosol and a concomitant increase of [3H]PMA-binding capacity in the membrane fraction, in a time- and concentration-dependent manner. Similar, but less marked effects were observed with stimulations by concanavalin A and compound 48/80. When mast cells labeled with [32P] and then stimulated with the agents, phosphorylation of a 50,000-Dalton protein was enhanced in the membrane fraction. These results suggest that protein kinase C may play a role in mast cell activation through phosphorylation of the membrane protein.     

Upregulated expression of substance P (SP) and NK1R in eczema and SP-induced mast cell accumulation

Substance P (SP) was reported to be associated with eczema and acts as a potent skin mast cell secretagogue. However, little is known of its expression in inflammatory cells in eczema and its ability in induction of mast cell accumulation. In the present study, we investigated expression of SP and neurokinin-1 receptor (NK1R) on peripheral blood leukocytes and mast cells from patients with eczema and influence of SP on mast cell accumulation by using flow cytometry analysis, trans-epithelial cell migration assay and mouse peritoneal model. The results showed that plasma SP and IL-17A levels in eczema patients were higher than that in healthy control subject. The percentages of SP+ and NK1R+ expression populations of monocytes, helper T cells, natural killer T cells and basophils in peripheral blood of eczema patients were markedly elevated. It was observed that not only absolute number of mast cells but also SP+ and NK1R+ mast cells are enhanced in the lesion skin of eczema. SP showed a potent chemoattractant action on mast cells as assessed by a mouse peritoneal model and a trans-endothelium cell migration assay. SP-induced mast cell accumulation appears a CD18/CD11a complex, l-selectin and ICAM-1-dependent event which can be blocked by a NK-1R antagonist RP67580. In conclusion, elevated expression of SP in patients with eczema and the ability of SP in induction of mast cell accumulation indicate strongly that SP is a potent proinflammatory mediator, which contributes to the pathogenesis of eczema. Inhibitors of SP and blockers of NK1R are likely useful agents for treatment of eczema.     

Effect of calcium on histamine release from pleural and peritoneal mast cells induced by catechol

Histamine release from rat pleural and peritoneal mast cells induced by catechol (1, 10, 50, 250 microM and 1 mM) has been studied. The dose-response induced by catechol is non-cytotoxic, is not modified by purification of mast cells and is calcium independent. The sensitivity and maximum response to catechol is the same irrespective of the presence or absence of Ca++, except on purified pleural mast cells, that showed a plateau response at 250 microM catechol in the absence of Ca++, and on unpurified peritoneal mast cells which exhibited a lower maximum response equally in the absence of Ca++. The release is induced by catechol at concentrations as low as 50 microM in all cases, and the maximum response is reached at 1 mM.     

Dexamethasone modulates the activity of the eel branchial Na+/K+ATPase in both chloride and pavement cells

In fish, gills actively accumulate ions in freshwater (FW) with Na+ absorption taking place at the level of pavement cells, and excrete monovalent ions, mainly Na+ and Cl-, through the chloride cells in sea water (SW). The Na+/K+ATPase plays a crucial role in the functionality of osmoregulatory cells and we showed previously that angiotensin II modulates its activity in the eel gill (1). We here show the effects of synthetic steroid dexamethasone (DEX) on the activity of Na+/K+ATPase in both gill pavement and chloride cells from FW- and SW-adapted animals. Results showed that in the chloride cells 100 nM DEX provoked a significant increment in the activity of Na+/K+ATPase in both SW- and FW-adapted animals. This effect was greatest at 2 hours in SW, and at 6 hours in FW. The increment in the activity of the Na+/K+ATPase was dose-dependent in both environmental adaptations. Conversely, in pavement cells from FW-adapted eels 100 nM DEX decremented the activity of Na+/K+ATPase (4-fold reduction after 6 hour incubations), while in SW, DEX increased the enzyme activity of about 25% at 2 hours, and of about 55% at 6 hours. These results are consistent with the different physiological roles that pavement and chloride cells have in the two different adaptive conditions.     

Morphological and functional characteristics of peritoneal mast cells from young rats

To study why neonatal and young rats are resistant to the effects of some secretagogues, such as compound 48/80 and 2.5-S nerve growth factor, we examined peritoneal mast cells from 14–15-day-old rats (young rats) and compared them to peritoneal mast cells from adults. Peritoneal mast cells from young rats contain approximately one-tenth of the amount of histamine observed in adult peritoneal mast cells. However, both cell populations contained similar low levels of the mucosal mast cell-associated protease rat mast cell protease II. Histochemical analysis of peritoneal mast cells from young rats using safranin O and berberine sulphate suggested that only a portion of the granules of these cells contained heparin. At an ultrastructural level the young rat peritoneal mast cell contains relatively few granules. The majority of mast cells from young rats have a bilobed or indented nucleus which is only rarely observed in adult cells. Functionally, the young rat peritoneal mast cell demonstrates a significantly reduced histamine release in response to the connective tissue mast cellspecific secretagogues compound 48/80 and 2.5-S nerve growth factor. In contrast, the percent histamine release in response to the neurotransmitter substance P, which degranulates both connective tissue mast cells and intestinal mucosal mast cells, was similar in the adult cells and the young rat cells. This study demonstrates substantial differences between the young rat and adult peritoneal mast cells which may explain the ability of very young animals to withstand large doses of certain secretagogues.     

The effect of Na+-K+ ATPase inhibition by ouabain on histamine release from human cutaneous mast cells

Background: There are controversial reports on the effect of sodium-potassium adenosine triphosphatase (Na⁺-K⁺ ATPase) inhibition on mast cell mediator release. Some of them have indicated that ouabain (strophanthin G), a specific Na⁺-K⁺ ATPase inhibitor, inhibited the release, whereas the others have shown that ouabain had no effect or even had a stimulatory effect on the mediator secretion. Most of these studies have utilized animal-derived mast cells. The aim of this study was to determine the effect of Na⁺-K⁺ ATPase inhibition on human skin mast cells. Methods: Unpurified and purified mast cells were obtained from newborn foreskins and stimulated by calcium ionophore A23187 (1 μM) for 30 min following a 1 hr incubation with various concentrations (10⁻⁴ to 10⁻⁸ M) of ouabain. Histamine release was assayed by enzyme-linked immunosorbent assay (ELISA). Results: The results indicated that ouabain had no significant effect on the non-immunologic histamine release from human skin mast cells, in vitro. Conclusions: Na⁺-K⁺ ATPase inhibition by ouabain had no significant effect on the non-immunologic histamine release from human cutaneous mast cells and suggested differences between human and animal mast cells.     

Tumor-selective cytolysis is executed exclusively by CD45R+ CTL whereas allo-specific cytotoxicity can be executed also by CD45R- CTL

Naive and memory CD4+ T helper cells can be distinguished on the basis of expression of the CD45R molecule. Whether this dichotomy applies also to CD8+ T cells has not yet been established. In the present investigation the cytolytic activity of peritoneal CD8+CD45R+ and CD8+CD45R- T cells from tumor- and allo-immunized rats has been studied. More than 90% of the CD8+ peripheral blood T lymphocytes expressed the CD45R molecule, whereas in the peritoneal cavity about 60% of the CD8+ T cells displayed the CD45R+ phenotype. Analysis of cytotoxicity of sorted peritoneal cells of W439 tumor-immunized donors demonstrated selective cytolytic activity of the CD5+CD4-CD8+CD45R+ subpopulation to W439 lymphoma target cells but no effect of CD5+CD4-CD8+CD45R- lymphocytes. None of these lymphocyte populations exhibited cytolytic activity to the NK-sensitive cell line YAC-1, whereas the CD5-CD45R+ population showed strong cytotoxicity to YAC-1 cells. In allo-immunized rats both CD5+CD4- CD8+CD45R+ and CD5+CD4-CD8+CD45R- peritoneal cells exhibited strong allo-specific cytolytic activity, but no activity to YAC-1 cells. Both CD5+CD4-CD8+CD45R+ and CD5+CD4-CD8+CD45R- cells from tumor-immunized rats proliferated in response to Con A and rIL-2. This is the first study demonstrating that tumor-selective cytolytic CD8+ T cells express the CD45R molecule and that allo-specific cytolytic CD8+ T cells are found in both the CD45R+ and CD45R- populations.     

Stimulation of mouse connective tissue-type mast cells by hemopoietic stem cell factor, a ligand for the c-kit receptor.

The proliferative capacity of mouse connective tissue-type mast cells (CTMC) was analyzed by using a newly discovered c-kit ligand, termed stem cell factor (SCF). More than 90% of CTMC in the peritoneal cavity responded to recombinant rat SCF (rrSCF) and were able to give rise to pure mast cell colonies in methylcellulose culture. Serial observation (mapping) of growth of individual CTMC in culture containing rrSCF confirmed their striking proliferative ability. No serum but accessory cells (non-CTMC cells) in the peritoneal population were required for the clonal growth of CTMC induced by rrSCF in our methylcellulose culture of whole peritoneal cells. The rrSCF-induced mast cell colony formation from peritoneal CTMC was completely inhibited by the addition of anti-c-kit antibody, which can block the binding of SCF to c-kit, to the culture. When IL-3 was combined with rrSCF, mast cell colonies dramatically increased in size. Mapping studies revealed that the combination of the two factors augmented the proliferative rate of CTMC. Approximately 60% of the constituent cells of the mast cell colonies which were formed from peritoneal CTMC in the culture containing rrSCF alone were stained with berberine sulfate, which is a characteristic of CTMC. However, most mast cells which were induced by rrSCF+IL-3 from peritoneal CTMC contained berberine(-)-safranin(-)-Alcian blue(+) granules. Although IL-4 exhibited little synergism with rrSCF in the induction of CTMC proliferation, the addition of IL-4 to the culture containing rrSCF+IL-3 resulted in an increase in mast cells which retained CTMC characteristics.     

A high affinity, calmodulin-responsive (Ca2+ + Mg2+)-ATPase in isolated bone cells

Although acute alterations in Ca2+ fluxes may mediate the skeletal responses to certain humoral agents, the processes subserving those fluxes are not well understood. We have sought evidence for Ca2+-dependent ATPase activity in isolated osteoblast-like cells maintained in primary culture. Two Ca2+-dependent ATPase components were found in a plasma membrane fraction: a high affinity component (half-saturation constant for Ca2+ of 280 nM, Vmax of 13.5 nmol/mg per min) and a low affinity component, which was in reality a divalent cation ATPase, since Mg2+ could replace Ca2+ without loss of activity. The high affinity component exhibited a pH optimum of 7.2 and required Mg2+ for full activity. It was unaffected by potassium or sodium chloride, ouabain or sodium azide, but was inhibited by lanthanum and by the calmodulin antagonist trifluoperazine. This component was prevalent in a subcellular fraction which was also enriched in 5'-nucleotidase and adenylate cyclase activities, suggesting the plasma membrane as its principal location. Osteosarcoma cells, known to resemble osteoblasts in their biological characteristics and responses to bone-seeking hormones, contained similar ATPase activities. Inclusion of purified calmodulin in the assay system caused small non-reproducible increases in the Ca2+-dependent ATPase activity of EGTA-washed membranes. Marked, consistent calmodulin stimulation was demonstrated in membranes exposed previously to trifluoperazine and then washed in trifluoperazine-free buffer. These results indicate the presence of a high affinity, calmodulin-sensitive Ca2+-dependent ATPase in osteoblast-like bone cells. As one determinant of Ca2+ fluxes in bone cells, this enzyme may participate in the hormonal regulation of bone cell function.     

PGE2 reduces net water and chloride absorption from the rat colon by targeting the Na+/H+ exchanger and the Na+ K+ 2Cl- cotransporter

An effect of PGE2 on water and chloride absorption was already established in a previous work. This study is an attempt to find the mechanism of action of the prostaglandin by investigating the involvement of three major transporters namely the Na+ -K+ ATPase, the Na+/H+ exchanger and the Na+ K+ 2Cl- cotransporter. Rats were injected with PGE2 and 15 min later, the colon was perfused in situ with Krebs Ringer buffer, and net water and chloride absorption were determined. When the involvement of the cotransporter and/or the exchanger was investigated, animals were injected with, respectively, furosemide and amiloride 10 min before PGE2. Superficial and crypt colonocytes were then isolated and the protein expression of the Na+ -K+ ATPase and the Na+ K+ 2Cl- was determined by western blot analysis. The effect of PGE2 on the pump activity in presence or absence of the transporters' inhibitors was also studied. PGE2 decreased net water and chloride absorption from the colon, increased the Na+ -K+ ATPase activity in superficial cells and reduced it in crypt cells. The prostaglandin was found to stimulate secretion in superficial cells by targeting the Na+ K+ 2Cl- symporter, and reduce absorption in crypt cells by targeting the Na+/H+ antiporter. Changes in the activity of the pump are secondary to changes in the activity of the other transporters.     

Altered expression of the H+ ATPase in Streptococcus faecalis membranes

Evidence is presented that expression of the H+ ATPase in S. faecalis is influenced by the extracellular pH and K+ level during growth. Altered expression was detected by assay of F1 ATPase and electrophoretic analysis of membrane proteins. K+-limited growth caused about a 2-fold increase in the F1 ATPase. The effect of growth at pH 6, 7 and 9 was studied. Compared to cells grown at pH 7, growth at pH 6 increased the F1 ATPase about 2-fold while growth at pH 9 reduced the F1 ATPase by nearly 4-fold. The elevated F1 ATPase activity in the pH 6 cells was associated with an increase in the F1 ATPase alpha and beta subunits in the membrane while the decrease in F1 ATPase in the pH 9 cells was associated with a marked loss of the alpha subunit. It is suggested that intracellular protons may act as effectors which regulate expression of the F1F0 gene cluster at the level of translation.     

DNA distribution of mast cell populations in growing rats

The proliferation of rat peritoneal mast cells was examined under normal conditions in vivo. DNA content of individual mast cells was measured by cytofluorometry after staining with the bibenzimidazole dye Hoechst 33258. Diploid non mast cells from each rat were used as a biological standard, which resulted in small long-term variations in the method. The proportion of mast cells in the S + G2 region of the DNA distribution was about 4% for young rats (24 days old, body-weights about 60 g). It decreased in relation to body-weight, and was less than 1% for 105-day-old rats weighing 400 g. During the same growth period the total number of mast cells in the peritoneal cavity increased about 8-fold. The total number of proliferating cells, about 30,000, remained constant throughout the observation period. No evidence of polyploidization or accumulation in G2 of mast cell nuclei was found. It is concluded that peritoneal mast cells increase in number by mitotic proliferation of differentiated cells.