Gating of gap junction channels as revealed in cells stably transfected with wild type and mutant connexin cDNAs

Focal mechanical stimulation of single neonatal mouse cardiac myocytes in culture induced intercellular Ca2+ waves that propagated with mean velocities of ∼14 μm/s, reaching ∼80% of the cells in the field. Deletion of connexin43 (Cx43), the main cardiac gap junction channel protein, did not prevent communication of mechanically induced Ca2+ waves, although the velocity and number of cells communicated by the Ca2+ signal were significantly reduced. Similar effects were observed in wild-type cardiac myocytes treated with heptanol, a gap junction channel blocker. Fewer cells were involved in intercellular Ca2+ signaling in both wild-type and Cx43-null cultures in the presence of suramin, a P2-receptor blocker; blockage was more effective in Cx43-null than in wild-type cells. Thus gap junction channels provide the main pathway for communication of slow intercellular Ca2+ signals in wild-type neonatal mouse cardiac myocytes. Activation of P2-receptors induced by ATP release contributes a secondary, extracellular pathway for transmission of Ca2+ signals. The importance of such ATP-mediated Ca2+ signaling would be expected to be enhanced under ischemic conditions, when release of ATP is increased and gap junction channels conductance is significantly reduced.

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Inhibition of connexin 36 hemichannels by glucose contributes to the stimulation of insulin secretion

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.00358.2013 ◽

2014 ◽

Vol 306 (12) ◽

pp. E1354-E1366 ◽

Cited By ~ 10

Author(s):

Javier Pizarro-Delgado ◽

Ilaria Fasciani ◽

Ana Temperan ◽

María Romero ◽

Daniel González-Nieto ◽

...

Keyword(s):

Insulin Secretion ◽

Gap Junction ◽

Atp Release ◽

Sugar Metabolism ◽

Atp Content ◽

Wild Type ◽

Β Cells ◽

Gap Junction Channels ◽

Connexin 36 ◽

Stimulation Of

The existence of functional connexin36 ( Cx36) hemichannels in β-cells was investigated in pancreatic islets of rat and wild-type ( Cx36+/+), monoallelic ( Cx36+/−), and biallelic ( Cx36−/−) knockout mice. Hemichannel opening by KCl depolarization was studied by measuring ATP release and changes of intracellular ATP (ADP). Cx36+/+ islets lost ATP after depolarization with 70 mM KCl at 5 mM glucose; ATP loss was prevented by 8 and 20 mM glucose or 50 μM mefloquine (connexin inhibitor). ATP content was higher in Cx36−/− than Cx36+/+ islets and was not decreased by KCl depolarization; Cx36+/− islets showed values between that of control and homozygous islets. Five minimolar extracellular ATP increased ATP content and ATP/ADP ratio and induced a biphasic insulin secretion in depolarized Cx36+/+ and Cx36+/− but not Cx36−/− islets. Cx36 hemichannels expressed in oocytes opened upon depolarization of membrane potential, and their activation was inhibited by mefloquine and glucose (IC50 ∼8 mM). It is postulated that glucose-induced inhibition of Cx36 hemichannels in islet β-cells might avoid depolarization-induced ATP loss, allowing an optimum increase of the ATP/ADP ratio by sugar metabolism and a biphasic stimulation of insulin secretion. Gradual suppression of glucose-induced insulin release in Cx36+/− and Cx36−/− islets confirms that Cx36 gap junction channels are necessary for a full secretory stimulation and might account for the glucose intolerance observed in mice with defective Cx36 expression. Mefloquine targeting of Cx36 on both gap junctions and hemichannels also suppresses glucose-stimulated secretion. By contrast, glucose stimulation of insulin secretion requires Cx36 hemichannels' closure but keeping gap junction channels opened.

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Permeability and Regulation of Gap Junction Channels in Cells and in Artificial Lipid Bilayers

Cell-to-Cell Communication ◽

10.1007/978-1-4613-1917-7_3 ◽

1987 ◽

pp. 65-102 ◽

Cited By ~ 6

Author(s):

Camillo Peracchia

Keyword(s):

Gap Junction ◽

Lipid Bilayers ◽

Gap Junction Channels ◽

Artificial Lipid Bilayers ◽

In Cells

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Critical role of the first transmembrane domain of Cx26 in regulating oligomerization and function

Molecular Biology of the Cell ◽

10.1091/mbc.e11-12-1058 ◽

2012 ◽

Vol 23 (17) ◽

pp. 3299-3311 ◽

Cited By ~ 23

Author(s):

Oscar Jara ◽

Rodrigo Acuña ◽

Isaac E. García ◽

Jaime Maripillán ◽

Vania Figueroa ◽

...

Keyword(s):

Gap Junction ◽

Transmembrane Domain ◽

Critical Role ◽

Full Length ◽

Intermediate Step ◽

Wild Type ◽

Gap Junction Channels ◽

Junction Protein ◽

And Function ◽

Pore Domain

To identify motifs involved in oligomerization of the gap junction protein Cx26, we studied individual transmembrane (TM) domains and the full-length protein. Using the TOXCAT assay for interactions of isolated TM α-helices, we found that TM1, a Cx26 pore domain, had a strong propensity to homodimerize. We identified amino acids Val-37–Ala-40 (VVAA) as the TM1 motif required for homodimerization. Two deafness-associated Cx26 mutations localized in this region, Cx26V37I and Cx26A40G, differentially affected dimerization. TM1-V37I dimerized only weakly, whereas TM1-A40G did not dimerize. When the full-length mutants were expressed in HeLa cells, both Cx26V37I and Cx26A40G formed oligomers less efficiently than wild-type Cx26. A Cx26 cysteine substitution mutant, Cx26V37C formed dithiothreitol-sensitive dimers. Substitution mutants of Val-37 formed intercellular channels with reduced function, while mutants of Ala-40 did not form functional gap junction channels. Unlike wild-type Cx26, neither Cx26V37I nor Cx26A40G formed functional hemichannels in low extracellular calcium. Thus the VVAA motif of Cx26 is critical for TM1 dimerization, hexamer formation, and channel function. The differential effects of VVAA mutants on hemichannels and gap junction channels imply that inter-TM interactions can differ in unapposed and docked hemichannels. Moreover, Cx26 oligomerization appears dependent on transient TM1 dimerization as an intermediate step.

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