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1

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Transmembrane secretory potentials in the cat submandibular gland during perfusion with potassium-free and low sodium Locke solutions (1970)

Petersen, O. H.

Springer

Cellular and molecular life sciences 26 (1970), S. 612-613

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ISSN: 1420-9071

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Zusammenfassung Während der Perfusion der Submandibulardrüse der Katze mit kaliumfreier Lockelösung oder mit einer Lockelösung, in der das meiste Kochsalz durch Tetraethylammoniumchlorid ersetzt wurde, sind die sekretorischen Potentialdifferenzen der basalen Azinuszellmembran vergrössert. Ein Kaliumstrom aus der Azinuszelle, der teilweise von einem Natriumstrom in die Zelle kurzgeschlossen wird, könnte die sekretorischen Potentialdifferenzen erklären.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01898718

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2

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Effects of pyridine nucleotides on the gating of ATP-sensitive potassium channels in insulin-secreting cells (1988)

Dunne, M. J. ; Findlay, I. ; Petersen, O. H.

Springer

The journal of membrane biology 102 (1988), S. 205-216

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ISSN: 1432-1424

Keywords: K+ channel ; ATP ; NAD(P) ; NAD(P)H ; RINm5F cell

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The single-channel current recording technique has been used to study the influences that the pyridine nucleotides NAD, NADH, NADP and NADPH have on the gating of ATP-sensitive K+ channels in an insulin-secreting cell line (RINm5F). The effects of the nucleotides were studied at the intracellular surface using either excised inside-out membrane patches or permeabilized cells. All four pyridine nucleotides were found to evoke similar effects. At low concentrations, 100 μm and less, each promoted channel opening whereas high concentrations, 500 μm and above, evoked channel closure. The degree of K+ channel activation by pyridine nucleotides (low conc.) was found to be similar to that evoked by the same concentrations of ADP or GTP, whereas the degree of K+ channel inhibition (high conc.) was less marked than that evoked by the same concentrations of ATP, and never resulted in refreshment of K+ channels following removal. The effects of NAD, NADH, NADP and NADPH seemed to interact with those of ATP and ADP. In the presence of 1mm ADP and 4mm ATP, 10 to 100 μm concentrations of the pyridine nucleotides could not evoke channel opening, whereas concentrations of 500 μm and above were found to evoke channel closure. In the presence of 2mm ATP and 0.5mm ADP, however, 10 to 100 μm concentrations of the pyridine nucleotides were able to activate K+ channels.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01925714

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3

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Membrane potential and resistance changes induced in salivary gland acinar cells by microiontophoretic application of acetylcholine and adrenergic agonists (1978)

Roberts, M. L. ; Petersen, O. H.

Springer

The journal of membrane biology 39 (1978), S. 297-312

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The effects of microiontophoretic applications of catecholamines and acetylcholine on parotid acinar cell membrane potential and resistance were investigated using intracellular microelectrode recording in superfused segments of mouse parotid or rat submandibular glands. Short pulses of acetylcholine and α-adrenergic agonists had similar effects, consisting of a marked decrease in membrane resistance accompanied by an initial depolarization or hyperpolarization depending on the level of the resting membrane potential. This initial response was followed by a slow hyperpolarization occurring at a time when the resistance was increasing towards the prestimulation level. The equilibrium potential for the initial potential change caused by excitation of the cholinergic receptors was investigated directly by setting the membrane potential at different levels by injecting direct current and stimulating the same cell repeatedly with equal doses of acetylcholine. The equilibrium potential was found to be about −55 mV. The delayed hyperpolarization could not be reversed by passing hyperpolarizing current, but actually increased in size with higher membrane potentials. The minimum latency of the effect of acetylcholine or α-adrenergic agonists was 200–500 msec. Excitation of β-adrenoceptors caused, after a long latency of several seconds, a small depolarization. Epinephrine induced a combined α- and β-adrenergic response, with the α-component predominating. Blocking the α-adrenoceptors with phentolamine revealed the β-adrenergic depolarization, while blocking the β-adrenoceptors with propranolol caused the components of the α-adrenergic response to become more pronounced. All three receptors (α- and β-adrenoceptors and cholinergic receptors) were present in individual acini.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869896

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4

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ATP-sensitive inward rectifier and voltage- and calcium-activated K+ channels in cultured pancreatic islet cells (1985)

Findlay, I. ; Dunne, M. J. ; Petersen, O. H.

Springer

The journal of membrane biology 88 (1985), S. 165-172

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ISSN: 1432-1424

Keywords: islet ; K+ channels ; ATP ; Ca2+ ; patch-clamp

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary K+ channels in cultured rat pancreatic islet cells have been studied using patch-clamp single-channel recording techniques in cell-attached and excised inside-out and outside-out membrane patches. Three different K+-selective channels have been found. Two inward rectifier K+ channels with slope conductances of about 4 and 17 pS recorded under quasi-physiological cation gradients (Na+ outside, K+ inside) and maximal conductances recorded in symmetrical K+-rich solutions of about 30 and 75 pS, respectively. A voltage- and calcium-activated K− channel was recorded with a slope conductance of about 90 pS under the same conditions and a maximal conductance recorded in symmetrical K+-rich solutions of about 250 pS. Single-channel current recording in the cell-attached conformation revealed a continuous low level of activity in an apparently small number of both the inward rectifier K+ channels. But when membrane patches were excised from the intact cell a much larger number of inward rectifier K+ channels became transiently activated before showing an irreversible decline. In excised patches opening and closing of both the inward rectifier K+ channels were unaffected by voltage, internal Ca2+ or externally applied tetraethyl-ammonium (TEA) but the probability of opening of both inward rectifier K+ channels was reduced by internally applied 1–5mm adenosine-5′-triphosphate (ATP). The large K+ channel was not operational in cell-attached membrane patches, but in excised patches it could be activated at negative membrane potentials by 10−7 to 10−6 m internal Ca2+ and blocked by 5–10mm external TEA.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868430

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5

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ATP-sensitive K+ channels in an insulin-secreting cell line are inhibited byd-glyceraldehyde and activated by membrane permeabilization (1986)

Dunne, M. J. ; Findlay, I. ; Petersen, O. H. ; [et al.]

Springer

The journal of membrane biology 93 (1986), S. 271-279

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ISSN: 1432-1424

Keywords: K+ channel ; ATP ; glyceraldehyde ; RINm5F cell

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The control of K+ channels in the insulin-secreting cell line RINm5F has been investigated by patch-clamp singlechannel current recording experiments. The unitary current events recorded from cell-attached patches are due to large and small inwardly rectifying ATP-sensitive K+ channels with conductance properties similar to the two channels previously identified in primary cultured rat islet cells (Findlay, I., Dunne, M.J., & Petersen, O. H.J. Membrane Biol. 88:165–172, 1985). Cell permeabilization through brief exposure to 10 μm digitonin or 0.05% saponin (outside the isolated membrane patch area) results in a dramatic increase in current through the cell-attached patch due to opening of many large and small K+-selective channels. These channels are inhibited in a dose-dependent manner by ATP applied to the bath (near-complete inhibition by 5mm ATP). During prolonged ATP exposure (1–5 min) the initial inhibition is followed by partial recovery of channel activity, although further activation does occur when ATP is subsequently removed. From the maximal number of coincident channel openings in the permeabilized cells (in the absence of ATP), it is estimated that there are on average 12 large ATP-sensitive K+ channels per membrane patch, but in the intact cells less than 5% of the membrane patches exhibited three or more coincident K+ channel openings, indicating the degree to which the channels are inhibited in the resting condition by endogenous ATP. Stimulation of RINm5F cells to secrete insulin was carried out by challenging intact cells with 10mm d-glyceraldehyde.d-glyceraldehyde induced depolarization of the membrane from about −70 to −20 mV and evoked a marked reduction in the open-state probability of both the large and small ATP-sensitive channels.d-glyceraldehyde also induced action potentials in a number of cases. All effects of stimulation were largely transient, lasting about 100 sec. The two ATP-sensitive K+ channels are probably responsible for the resting potential and play a crucial role in coupling metabolism to membrane depolarization.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871181

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6

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Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: I. Tight-seal whole-cell recordings (1986)

Jauch, P. ; Petersen, O. H. ; Läuger, P.

Springer

The journal of membrane biology 94 (1986), S. 99-115

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ISSN: 1432-1424

Keywords: cotransport ; electrogenic transport ; sodium-coupled amino-acid transport ; pancreatic acinar cells ; whole-cell recording

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Electrical currents associated with sodium-coupled alanine transport in mouse pancreatic acinar cells were studied using the method of whole-cell recording with patch pipettes. Single cells or small clusters of (electrically coupled) cells were isolated by collagenase treatment. The composition of the intracellular solution could be controlled by internal perfusion of the patch pipette. In this way both inward and outward currents could be measured under “zero-trans” conditions, i.e., with finite concentrations of sodium andl-alanine on one side and zero concentrations on the other. Inward andoutward currents for equal but opposite concentration gradients were found to be of similar magnitude, meaning that the cotransporter is functionally nearly symmetric. The dependence of current on the concentrations of sodium andl-alanine exhibited a Michaelis-Menten behavior. From the sodium-concentration dependence of current as well as from the reversal potential of the current in the presence of an alanine-concentration, gradient, a sodium/alanine stoichiometric ratio of 1:1 can be inferred. The finding that N-methylated amino acids may substitute, forl-alanine, as well as the observed pH dependence of currents indicate that the pancreatic alanine transport system is similar to (or identical with) the “A-system” which is widespread in animal cells. The transport system is tightly coupled with respect to Na+; alanine-coupled inward flow of Na+ is at least 30 times higher than uncoupled Na+ flow mediated by the cotransporter. The current-voltage characteristic of the cotransporter could be (approximately) determined from the difference of transmembrane current in the presence and in the absence ofl-alanine. The sodium-concentration dependence of the current-voltage characteristic indicates that a Na+ ion approaching the binding site from the extracellular medium has to cross part of the transmembrane electric field.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871191

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7

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Stimulant-evoked depolarization and increase in [Ca2+] i in insulin-secreting cells is dependent on external Na+ (1990)

Dunne, M. J. ; Yule, D. I. ; Gallacher, D. V. ; [et al.]

Springer

The journal of membrane biology 113 (1990), S. 131-138

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ISSN: 1432-1424

Keywords: patch clamp ; [Ca2+] i ; Na+ dependency ; RINm5F cell ; fura-2 ; whole cell

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The patch-clamp technique and measurements of single cell [Ca2+] i have been used to investigate the importance of extracellular Na+ for carbohydrate-induced stimulation of RINm5F insulin-secreting cells. Using patch-clamp whole-cell (current-clamp) recordings the average cellular transmembrane potential was estimated to be −60±1 mV (n=83) and the average basal [Ca2+] i 102±6nm (n=37). When challenged with either glucose (2.5–10mm) ord-glyceraldehyde (10mm) the cells depolarized, which led to the initiation of Ca2+ spike potentials and a sharp rise in [Ca2+] i . Similar effects were also observed with the sulphonylurea compound tolbutamide (0.01–0.1mm). Both the generation of the spike potentials and the increase in [Ca2+] i were abolished when Ca2+ was removed from the bathing media. When all external Na+ was replaced with N-methyl-d-glucamine, in the continued presence of either glucose,d-glyceraldehyde or tolbutamide, a membrane repolarization resulted, which terminated Ca2+ spike potentials and attenuated the rise in [Ca2+] i . Tetrodotoxin (TTX) (1–2 μm) was also found to both repolarize the membrane and abolish secretagogue-induced rises in [Ca2+] i .

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01872887

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8

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Comparative study of the effects of cromakalim (BRL 34915) and diazoxide on membrane potential, [Ca2+] i and ATP-sensitive potassium currents in insulin-secreting cells (1990)

Dunne, M. J. ; Yule, D. I. ; Gallacher, D. V. ; [et al.]

Springer

The journal of membrane biology 114 (1990), S. 53-60

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ISSN: 1432-1424

Keywords: patch-clamp ; fura-2 ; KATP channels ; [Ca2+] i ; insulin-secreting cell ; RINm5F cell ; diazoxide ; cromakalim (BRL 34915) ; tolbutamide

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Patch-clamp and single cell [Ca2+] i measurements have been used to investigate the effects of the potassium channel modulators cromakalim, diazoxide and tolbutamide on the insulin-secreting cell line RINm5F. In intact cells, with an average cellular transmembrane potential of −62±2 mV (n=42) and an average basal [Ca2+] i of 102±6nm (n=37), glucose (2.5–10mm): (i) depolarized the membrane, through a decrease in the outward KATP current, (ii) evoked Ca2+ spike potentials, and (iii) caused a sharp rise in [Ca2+] i . In the continued presence of glucose both cromakalim (100–200 μm) and diazoxide (100 μm) repolarized the membrane, terminated Ca2+ spike potentials and attenuated the secretagogue-induced rise in [Ca2+] i . In whole cells (voltage-clamp records) and excised outside-out membrane patches, both cromakalim and diazoxide enhanced the current by opening ATP-sensitive K+ channels. Diazoxide was consistently found to be more potent than cromakalim. Tolbutamide, a specific inhibitor of ATP-sensitive K+ channels, reversed the effects of cromakalim on membrane potential and KATP currents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869384

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9

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Action of tetraethylammonium on calcium-activated potassium channels in pig pancreatic acinar cells studied by patch-clamp single-channel and whole-cell current recording (1985)

Iwatsuki, N. ; Petersen, O. H.

Springer

The journal of membrane biology 86 (1985), S. 139-144

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ISSN: 1432-1424

Keywords: pancreatic acinar cell ; patch clamp ; Ca2+-activated K+ channel ; TEA action ; block of K+ channel

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The effects of tetraethylammonium ions on currents through high-conductance voltage- and Ca2+-activated K+ channels have been studied with the help of patch-clamp single-channel and whole-cell current recording on pig pancreatic acinar cells. In excised outside-out membrane patches TEA (1 to 2 mM) added to the bath solution virtually abolishes unitary current activity except at very positive membrane potentials when unitary currents corresponding to a markedly reduced conductance are observed. TEA in a lower concentration (0.2 mM) markedly reduces the open-state probability and causes some reduction of the single-channel conductance. In inside-out membrane patches bath application of TEA in concentrations up to 2 mM has no effect on single-channel currents. At a higher concentration (10 mM) slight reductions in single-channel conductance occur. In whole-cell current recording experiments TEA (1 to 2 mM) added to the bath solution completely suppresses the outward currents associated with depolarizing voltage jumps to membrane potentials of 0 mV and blocks the major part (70 to 90%) of the outward currents even at very positive membrane potentials (30 to 40 mV). In contrast TEA (2 mM) added to the cell interior (pipette solution) has no effect on the outward K+ current. Our results demonstrate that TEA in low concentrations (1 to 2 mM) acts specifically on the outside of the plasma membrane to block current through the high-conductance Ca2+- and voltage-activated K+ channels

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870780

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High-conductance K+ channel in pancreatic islet cells can be activated and inactivated by internal calcium (1985)

Findlay, I. ; Dunne, M. J. ; Petersen, O. H.

Springer

The journal of membrane biology 83 (1985), S. 169-175

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ISSN: 1432-1424

Keywords: pancreatic islet cells ; K+ channel ; patchclamp ; single-channel recording ; Ca2+ activation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The Ca2+-activated K+ channel in rat pancreatic islet cells has been studied using patch-clamp single-channel current recording in excised inside-out and outside-out membrane patches. In membrane patches exposed to quasi-physiological cation gradients (Na+ outside, K+ inside) large outward current steps were observed when the membrane was depolarized. The single-channel current voltage (I/V) relationship showed outward rectification and the null potential was more negative than −40 mV. In symmetrical K+-rich solutions the single-channelI/V relationship was linear, the null potential was 0 mV and the singlechannel conductance was about 250 pS. Membrane depolarization evoked channel opening also when the inside of the membrane was exposed to a Ca2+-free solution containing 2mm EGTA, but large positive membrane potentials (70 to 80 mV) were required in order to obtain open-state probabilities (P) above 0.1. Raising the free Ca2+ concentration in contact with the membrane inside ([Ca2+]i) to 1.5×10−7 m had little effect on the relationship between membrane potential andP. When [Ca2+]i was increased to 3×10−7 m and 6×10−7 m smaller potential changes were required to open the channels. Increasing [Ca2+]i further to 8×10−7 m again activated the channels, but the relationship between membrane potential andP was complex. Changing the membrane potential from −50 mV to +20 mV increasedP from near 0 to 0.6 but further polarization to +50 mV decreasedP to about 0.2. The pattern of voltage activation and inactivation was even more pronounced at [Ca2+]i=1 and 2 μm. In this situation a membrane potential change from −70 to +20 mV increasedP from near 0 to about 0.7 but further polarization to +80 mV reducedP to less than 0.1. The high-conductance K+ channel in rat pancreatic islet cells is remarkably sensitive to changes in [Ca2+]i within the range 0.1 to 1 μm which suggests a physiological role for this channel in regulating the membrane potential and Ca2+ influx through voltage-activated Ca2+ channels.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868748

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