Na-Ca exchange current in mammalian heart cells

Kimura, Junko; Noma, Akinori; Irisawa, Hiroshi

doi:10.1038/319596a0

Cited by 359 publications

(212 citation statements)

References 13 publications

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“…Secondly Na+/H+ exchange will be blocked. This could result in an intracellular acidification in the resting cells and/or prevent the intracellular alkalinization that is reported during secretory stimulation 1141, It is possible that the calcium influx in salivary acinar cells is regulated by either [Na+]i or [H+], (see [15,16]). …”

Section: Resultsmentioning

confidence: 99%

Cholinergic receptors regulate a voltage‐insensitive but Na⁺‐dependent calcium influx pathway in salivary acinar cells

Morris¹,

Fuller²,

Gallacher³

1987

FEBS Letters

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The calcium-sensitive fluorescent probe, quin 2, was employed to investigate the cholinergic receptor regulation of cytosolic free calcium concentration ([Ca2+],) in isolated rat submandibular acinar cells. Cholinergic receptor stimulation results in a marked and sustained elevation [Ca*+],. The major component of this response is shown to be due to activation of a calcium influx pathway. There is no evidence in K+-depolarized cells of any voltage-gated calcium influx. Acetylcholine failed to activate the calcium influx pathway in cells bathed in Na+-free solutions. The choline@ receptors thus regulate a voltage-insensitive but Na+-dependent transport system for calcium entry in submandibular acinar cells.

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Section: Resultsmentioning

confidence: 99%

Cholinergic receptors regulate a voltage‐insensitive but Na⁺‐dependent calcium influx pathway in salivary acinar cells

Morris¹,

Fuller²,

Gallacher³

1987

FEBS Letters

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“…Omission of external K + and internal Na + also prevented currents generated by the Na+/K + pump (Gadsby and Nakao, 1989). Na+/Ca 2+ exchange current (Kimura, Noma, and Irisawa, 1986) was prevented by lack of internal Na + and internal and external Ca 2÷.…”

Section: Whole-cell Current Recordingmentioning

confidence: 95%

Functionally distinct phospho-forms underlie incremental activation of protein kinase-regulated Cl- conductance in mammalian heart.

Hwang

Horie

Gadsby

1993

The Journal of General Physiology

107

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The regulation of cardiac CI-conductance by cAMP-dependent protein kinase (PKA) and cellular phosphatases was studied in isolated guinea pig ventricular myocytes by using wide-tipped, perfused pipettes to record whole-cell currents. Exposure to forskolin (Fsk) or isoproterenol (Iso) elicits a CI-conductance that results exclusively from PKA-dependent phosphorylation because it can be completely abolished, or its activation fully prevented, by switching to pipette solution containing PKI, a synthetic peptide inhibitor of PKA. The CI-conductance activated by micromolar concentrations of either agonist reached its steady-state amplitude in 1-2 min and was deactivated promptly and entirely, usually within 2 min, upon washing out the agonist, implying a continuous high level of activity of endogenous protein phosphatases. Accordingly, intraceUular application of okadaic acid or microcystin, both potent inhibitors of protein phosphatases 1 and 2A, during exposure to Fsk enhanced the steady-state CI-conductance and slowed its deactivation after washing out the Fsk. Maximal potentiation of the conductance, by ~ 60%, was obtained with pipette concentrations of ~ 10 I~M okadaic acid (or ~ 5 ~tM microcystin) and did not result from an increase in the apparent affirfity for Fsk. In the presence of maximally effective concentrations of okadaic acid and/or microcystin, deactivation of the enhanced CI-conductance upon washout of agonist was incomplete, with about half of the conductance persisting indefinitely. That residual conductance did not reflect continued action of PKA because it was insensitive to PKI, but was identified as a fraction of the activated CI-conductance by its biophysical characteristics. The results suggest that complete deactivation of the PKA-regulated cardiac CI-conductance requires dephosphorylation by a type 1 and/or 2A phosphatase, but that partial deactivation can be accomplished by activity of some other phosphatase(s). These findings are' consistent with sequential phosphorylation of a protein, probably the CI-channel itself, at two different kinds

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“…The advent of the whole-cell patch clamp technique has been instrumental recently in advancing our understanding of Na+-Ca2+ exchange in heart cells (Hume & Uehara, 1986;Kimura, Noma, & Irisawa, 1986;Mechmann & Pott, 1986). The advantage of this approach is that it is possible to measure in great detail the kinetics of the exchange-generated current, while controlling the electrochemical gradients of Na+ and Ca2+ with some degree of confidence (Kimura, Miyamae & Noma, 1987;Lipp & Pott, 1988).…”

Section: Introductionmentioning

confidence: 99%

Alterations in [Ca2+]i mediated by sodium‐calcium exchange in smooth muscle cells isolated from the guinea‐pig ureter.

Aaronson

Benham

1989

The Journal of Physiology

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Na-Ca exchange current in mammalian heart cells

Cited by 359 publications

References 13 publications

Cholinergic receptors regulate a voltage‐insensitive but Na⁺‐dependent calcium influx pathway in salivary acinar cells

Cholinergic receptors regulate a voltage‐insensitive but Na⁺‐dependent calcium influx pathway in salivary acinar cells

Functionally distinct phospho-forms underlie incremental activation of protein kinase-regulated Cl- conductance in mammalian heart.

Alterations in [Ca2+]i mediated by sodium‐calcium exchange in smooth muscle cells isolated from the guinea‐pig ureter.

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Na-Ca exchange current in mammalian heart cells

Cited by 359 publications

References 13 publications

Cholinergic receptors regulate a voltage‐insensitive but Na+‐dependent calcium influx pathway in salivary acinar cells

Cholinergic receptors regulate a voltage‐insensitive but Na+‐dependent calcium influx pathway in salivary acinar cells

Functionally distinct phospho-forms underlie incremental activation of protein kinase-regulated Cl- conductance in mammalian heart.

Alterations in [Ca2+]i mediated by sodium‐calcium exchange in smooth muscle cells isolated from the guinea‐pig ureter.

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Cholinergic receptors regulate a voltage‐insensitive but Na⁺‐dependent calcium influx pathway in salivary acinar cells

Cholinergic receptors regulate a voltage‐insensitive but Na⁺‐dependent calcium influx pathway in salivary acinar cells