Dual effect of dihydropyridines on 45Ca uptake induced by the K+ —channel blocker 4‐aminopyridin on mast cells

Eleno, Nélida; Botana, Luís M.; Espinosa, Joaquín M.

doi:10.1002/jcp.1041370224

Cited by 12 publications

(4 citation statements)

References 23 publications

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“…We have previously shown that both pleural and peritoneal mast cells have no specific sodium channel (Vieytes et al, 1991b) and that cation fluxes may take place through common channels (Eleno et al, 1988). Also, the existence of a Na+/K+ pump which contributes to sodium efflux was demonstrated in rat mast cells.…”

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confidence: 99%

Amiloride‐dependent transport is the main mechanism implicated in sodium iinflux regulation in rat mast cells

Cabado¹,

Vieytes²,

Botana³

1993

Journal Cellular Physiology

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Mast cell sodium regulation is a largely unknown field. In our effort to study the mechanisms by which mast cells regulate sodium levels, we have examined the effect of amiloride and ouabain on 22Na entry in rat mast cells in isotonic and hypertonic conditions. Ouabain (0.5 mM) enhances sodium uptake by 32% in isotonic conditions. Hypertonicity increases by 400% the uptake of sodium through an amiloride (1 mM) dependent mechanism. Ouabain has no appreciable effect on the entry of 22Na in hypertonic conditions.

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mentioning

confidence: 99%

Amiloride‐dependent transport is the main mechanism implicated in sodium iinflux regulation in rat mast cells

Cabado¹,

Vieytes²,

Botana³

1993

Journal Cellular Physiology

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“…Ouabain does not cause any appreciable change on the membrane potential confirming that the Na+/K+ ATPase pump is not directly implicated in maintaining the resting potential in these cells (Mohr and Fewtrell, 1987b). RBL cells or basophils appear to be different to many secretory cells, since they fail to secrete when they are depolarized in high potassium medium (Eleno et al, 1988;Mohr and Fewtrell, 1987a).…”

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confidence: 99%

Effect of ion composition on the changes in membrane potential induced with several stimuli in rat mast cells

Cabado

Vieytes

Botana

1994

Journal Cellular Physiology

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We studied, in different ionic conditions, the effect of various agents on the membrane potential of rat peritoneal mast cells using the fluorescent probe bisoxonol. Ouabain and ionophore A23187 lead to a fast depolarization of the plasma membrane of mast cells, while compound 48/80 and thapsigargin induced membrane hyperpolarization, which was more pronounced in the case of compound 48/80. When using compound 48/80, the amount of gramicidin necessary to depolarize the cells was twice the amount required in resting cells, which indicates that compound 48/80 increases considerably the activity of the Na+/K+ pump. On the other hand, the ionophore A23187 elicited a clear depolarization which was oblated in the absence of intracellular calcium. The increase in the osmolarity of the medium causes a depolarization in the plasma membrane of mast cells. Hypertonicity-stimulated depolarization is inhibited by removing sodium and potassium.

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“…The total activity added to each test tube was 500±30x 103 dpm. The method used has been de scribed previously [7]; briefly, a layer of immersion oil was placed at the bottom of Akes cylindroconical polyethylene tubes (500 pi). A suspension of purified mast cells was carefully decanted onto this layer and incubated for 20 min at 37 °C in BSS without protein.…”

Section: Measurement O F Isca Uptakementioning

confidence: 99%

“…Sensi tized mast cells secrete a wide variety of inflammatory mediators upon cross-linking of plasma membrane IgE receptors. Attempts to determine how mast cell secretion may be regulated have included the identifi cation of several receptors and N a+-, K+-, and Ca2+-specific ionic channels [4,7,12,16,25], How ever, it is not fully understood how the activation of the receptors of IgE initiates the exocytosis. There is little and conflicting information about the electrophysiological properties of mast cells.…”

Section: Introductionmentioning

confidence: 99%

K-Channel Blocking Drugs Induce Histamine Release and 45Ca Uptake in Isolated Mast Cells

Eleno

Botana²,

Espinosa³

1990

Int Arch Allergy Immunol

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Histamine secretion and ⁴⁵Ca uptake processes were studied in mast cells treated with four K⁺ channel blocking drugs in physiological saline and in media containing different ionic concentrations. Quinine, 4-aminopyridine and sparteine were effective as histamine-releasing agents when mast cells were incubated in physiologic saline solution. The dose-response profile obtained was in the range of 0.1–0.5 mM for quinine, 1–10 for 4-aminopyridine and 0.5–5 mM for sparteine and did not show significant differences between purified and unpurified mast cells. By contrast, tetraethylammonium (1–100 mM) did not induce histamine release. The presence of high K⁺ or Rb⁺ concentrations in the medium (Tris-K⁺ or Tris-Rb⁺, both at 150 mM) displaced the profile obtained to the right in cells stimulated with 4-aminopyridine or sparteine, but abolished histamine release induced by quinine. Additionally, all three K⁺ channel blockers increased ⁴⁵Ca uptake in mast cells. The exact mechanism of the action of K⁺ channel blockers on mast cells is unknown. However, the fact that the drugs used were effective as histamine-releasing and ⁴⁵Ca uptake promoters suggests both that mast cells might be endowed with a K⁺ channel activity and that the blockade of this should open certain calcium channels, leading to elevated intracellular Ca²⁺ levels which in turn activate mast cell secretion.

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Dual effect of dihydropyridines on ⁴⁵Ca uptake induced by the K⁺ —channel blocker 4‐aminopyridin on mast cells

Cited by 12 publications

References 23 publications

Amiloride‐dependent transport is the main mechanism implicated in sodium iinflux regulation in rat mast cells

Amiloride‐dependent transport is the main mechanism implicated in sodium iinflux regulation in rat mast cells

Effect of ion composition on the changes in membrane potential induced with several stimuli in rat mast cells

K-Channel Blocking Drugs Induce Histamine Release and <sup>45</sup>Ca Uptake in Isolated Mast Cells

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