Connexin 43 acts as a cytoprotective mediator of signal transduction by stimulating mitochondrial KATP channels in mouse cardiomyocytes
Dennis Rottlaender, … , Gerd Heusch, Uta C. Hoppe
Dennis Rottlaender, … , Gerd Heusch, Uta C. Hoppe
Published April 1, 2010
Citation Information: J Clin Invest. 2010;120(5):1441-1453. https://doi.org/10.1172/JCI40927.
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Research Article Cardiology

Connexin 43 acts as a cytoprotective mediator of signal transduction by stimulating mitochondrial KATP channels in mouse cardiomyocytes

Abstract

Potassium (K+) channels in the inner mitochondrial membrane influence cell function and survival. Increasing evidence indicates that multiple signaling pathways and pharmacological actions converge on mitochondrial ATP-sensitive K+ (mitoKATP) channels and PKC to confer cytoprotection against necrotic and apoptotic cell injury. However, the molecular structure of mitoKATP channels remains unresolved, and the mitochondrial phosphoprotein(s) that mediate cytoprotection by PKC remain to be determined. As mice deficient in the main sarcolemmal gap junction protein connexin 43 (Cx43) lack this cytoprotection, we set out to investigate a possible link among mitochondrial Cx43, mitoKATP channel function, and PKC activation. By patch-clamping the inner membrane of subsarcolemmal murine cardiac mitochondria, we found that genetic Cx43 deficiency, pharmacological connexin inhibition by carbenoxolone, and Cx43 blockade by the mimetic peptide 43GAP27 each substantially reduced diazoxide-mediated stimulation of mitoKATP channels. Suppression of mitochondrial Cx43 inhibited mitoKATP channel activation by PKC. MitoKATP channels of interfibrillar mitochondria, which do not contain any detectable Cx43, were insensitive to both PKC activation and diazoxide, further demonstrating the role of Cx43 in mitoKATP channel stimulation and the compartmentation of mitochondria in cell signaling. Our results define a role for mitochondrial Cx43 in protecting cardiac cells from death and provide a link between cytoprotective stimuli and mitoKATP channel opening, making Cx43 an attractive therapeutic target for protection against cell injury.

Authors

Dennis Rottlaender, Kerstin Boengler, Martin Wolny, Guido Michels, Jeannette Endres-Becker, Lukas J. Motloch, Astrid Schwaiger, Astrid Buechert, Rainer Schulz, Gerd Heusch, Uta C. Hoppe

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Figure 3

MitoKATP single-channel activation by diazoxide (100 μM) is dependent on the presence of mitochondrial Cx43.

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MitoKATP single-channel activation by diazoxide (100 μM) is dependent on...
(A) The diazoxide effect on mitoKATP channel activity (at –60 mV) was reduced in wild-type mice by carbenoxolone (10 μM) (upper left) and 43GAP27 (250 μM) (upper right); in Cx43+/– mice (lower left); and in Cx43Cre-ER(T)/fl + 4-OHT mice (lower right) compared with control (Figure 2A). (B) Single-channel amplitude as a function of test potentials in the absence (left) and presence (right) of diazoxide. Slope conductances were similar in all groups. (C) Mean values of the open probability (Po,total) in control, Cx43+/– mice, wild-type + carbenoxolone, wild-type + 43GAP27, and Cx43+/– mice + 43GAP27 in the absence and presence of diazoxide, as indicated; n values are shown in parentheses. *P < 0.05 versus control. (D) Mean values of the open probability (Po,total) in Cx43fl/fl control mice (black) and Cx43Cre-ER(T)/fl + 4-OHT mice (white) in the absence and presence of diazoxide and MgATP, as indicated; n values are shown in parentheses. *P < 0.05 versus Cx43fl/fl control; §P < 0.05 versus Cx43fl/fl control + diazoxide; #P < 0.05 versus Cx43Cre-ER(T)/fl + 4-OHT. (E) Effect of various voltages on diazoxide-stimulated mitoKATP open probability (Po,total) in control, wild-type + carbenoxolone, and Cx43+/– mice. (F) Western blot analysis of Cx43 and MN-SOD protein level in mitochondria from Cx43+/+ control mice, Cx43+/– mice, Cx43fl/fl control mice, and Cx43Cre-ER(T)/fl + 4-OHT mice. Bar graphs represent ratios of mitochondrial Cx43 level normalized to MN-SOD; n values are shown in parentheses. *P < 0.05 versus control.