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Comparative study of K channel behavior inβ cell lines with different secretory responses to glucose (1989)

Eddlestone, G. T. ; Ribalet, B. ; Ciani, S.

Springer

The journal of membrane biology 109 (1989), S. 123-134

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ISSN: 1432-1424

Keywords: insulin-secreting cells ; glucose modulated K+ channels ; patch clamp ; single channel recording

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The patch-clamp technique was used to identify and investigate two K channels in the cell membrane of the HIT cell, an insulin secreting cell line with glucose-sensitive secretion. Channel characteristics were compared with those of glucose-modulated K channels in the RINm5F cell, an insulin secreting cell line in which secretion is largely glucose insensitive. A 65.7 pS channel, identified with the ATP-sensitive K channel was seen in HIT cell-attached patches. Channel activity was dose-dependently inhibited by glucose, by 50 and 100% at 450 μm and 8mm glucose, respectively, similar to the values previously reported for RIN cells. In inside-out patches channel activity was 50% inhibited by 56 μm ATP and completely blocked between 500 μm and 1mm, again, similar to the values reported for RIN cells. As in RIN cells a second, considerably larger (184 pS), K channel was glucose sensitive; the glucose sensitivity was similar to that in RIN cells with 50 and 100% channel inhibition at 7.5 and 25mm, respectively. After patch excision the mean channel conductance increased from 184 to 215 pS. Under these conditions activity was strongly calcium dependent in the rangepCa 5–7, identifying this as a calcium- and voltage-dependent K (K(Ca,V)) channel; the calcium sensitivity was similar to that of the adult rat β cell K(Ca,V) channel. In inside-out RIN cell patches, the large K channel was less abundant but displayed a similar conductance (223 pS). However, its calcium sensitivity was more than 10 times lower than in HIT cells, similar to that of the K(Ca,V) channel in the neonatal rat β cell, which also displays a reduced secretory response to glucose. Based on these observations, it is proposed that the low calcium sensitivity of the K(Ca,V) channel may be causally associated with secretory deficiency in RIN cells and the immature secretory response of the neonatal β cell.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870851

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Characterization of the G protein coupling of SRIF and β-adrenergic receptors to the maxi KCa channel in insulin-secreting cells (1995)

Ribalet, B. ; Eddlestone, G. T.

Springer

The journal of membrane biology 148 (1995), S. 111-125

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ISSN: 1432-1424

Keywords: KCa ; channel ; G proteins ; SRIF ; β agonists ; Protein kinase C

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Modulation of the Ca- and voltage-dependent K channel—KCa—by receptors coupled to the G proteins G i /G o and G s has been studied in insulin-secreting cells using the patch clamp technique. In excised outside-out patches somatostatin (somatotropin-releasing inhibitory factor; SRIF) caused concentration-dependent inhibition of the KCa channel, an effect that was prevented by pertussis toxin (PTX). In inside-out patches, exogenous α subunits of either G i or G o -type G proteins also inhibited the KCa channel (IC50 5.9 and 5.7 pM, respectively). These data indicate that SRIF suppresses KCa channel activity via a membrane-delimited pathway that involves the α subunits of PTX-sensitive G proteins G i and/or G o . In outside-out patches, activation of G s either by β-agonists or with cholera toxin (CTX) increased KCa channel activity, consistent with a membrane-delimited stimulatory pathway linking the β-adrenergic receptor to the KCa channel via G s . In outside-out patches, channel inhibition by SRIF suppressed the stimulatory effect of β-agonists but not that of CTX, while in inside-out patches CTX reversed channel inhibition induced by exogenous α i or α o . Taken together these data suggest that KCa channel activity is enhanced by activation of G s and blocked by activated G i and/or G o . Further, KCa channel stimulation by activated G s may be “direct,” while inhibition by G i /G o may involve deactivation of G s . In inside-out patches KCa channel activity was reduced by an activator of protein kinase C (PKC) and enhanced by inhibitors of PKC, indicating that PKC also acts to inhibit the KCa channel via a membrane delimited pathway. In outside-out patches, chelerythrine, a membrane permeant inhibitor of PKC prevented the inhibitory effect of SRIF, and in inside-out patches PKC inhibitors prevented the inhibitory effect of exogenous α i or α o . These data indicate that PKC facilitates the inhibitory effect of the PTX-sensitive G proteins which are activated by coupling to SRIF receptors. To account for these results a mechanism is proposed whereby PKC may be involved in G i /G o -induced deactivation of G s .

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00207268

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Electrical coupling between cells in islets of langerhans from mouse (1984)

Eddlestone, G. T. ; Gonçalves, A. ; Bangham, J. A. ; [et al.]

Springer

The journal of membrane biology 77 (1984), S. 1-14

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ISSN: 1432-1424

Keywords: β-cells ; electrical coupling ; islets of Langerhans ; cell-to-cell coupling ; intercellular communication

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Two microelectrodes have been used to measure membrane potentials simultaneously in pairs of mouse pancreatic islet cells. In the presence of glucose at concentrations between 5.6 and 22.2mm, injection of currenti into cell 1 caused a membrane potential change in this cell,V 1, and, provided the second microelectrode was less than 35 μm away, in a second impaled cell 2,V 2. This result establishes that there is electrical coupling between islet cells and suggests that the space constant of the coupling ratio within the islet tissue is of the order of a few β-cell diameters. The current-membrane potential curvesi-V 1 andi-V 2 are very similar. By exchange of the roles of the microelectrodes, no evidence of rectification of the current through the intercellular pathways was found. Removal of glucose caused a rapid decrease in the coupling ratioV 2 /V 1 . In steady-state conditions, the coupling ratio increases with the concentration of glucose in the range from 0 up to 22mm. Values of the equivalent resistance of the junctional and nonjunctional membranes have been estimated and found to change with the concentration of glucose. Externally applied mitochondrial blockers induced a moderate increase in the junctional resistance possibly mediated by an increase in intracellular Ca2+.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871095

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