Ghayda Hawat scite author profile

Unapposed connexin 43 hemichannels (Cx43Hc) are present on sarcolemma of cardiomyocytes. Whereas Cx43Hc remain closed during physiological conditions, their opening under ischemic stress contributes to irreversible tissue injury and cell death. To date, conventional blockers of connexin channels act unselectively on both gap junction channels and unapposed hemichannels. Here, we test the hypothesis that Gap26, a synthetic structural mimetic peptide deriving from the first extracellular loop of Cx43 and a presumed selective blocker of Cx43Hc, confers resistance to intact rat heart against ischemia injury. Langendorff-perfused intact rat hearts were utilized. Regional ischemia was induced by 40-min occlusion of the left anterior descendent coronary and followed by 180 min of reperfusion. Gap26 was applied either 10 min before or 30 min after the initiation of ischemia. Interestingly, myocardial infarct size was reduced by 48% and 55% in hearts treated with Gap26 before or during ischemia, respectively, compared to untreated hearts. Additionally, myocardial perfusate flow was increased in both groups during reperfusion by 37% and 32%, respectively. Application of Gap26 increased survival of isolated cardiomyocytes after simulated ischemia-reperfusion by nearly twofold compared to untreated cells. On the other hand, superfusion of tsA201 cells transiently expressing Cx43 with Gap26 caused 61% inhibition of Cx43Hc-mediated currents recorded using the patch clamp technique. In summary, we demonstrate for the first time that Cx43 mimetic peptide Gap26 confers protection to intact heart against ischemia-reperfusion injury whether administered before or after the occurrence of ischemia. In addition, we provide unequivocal evidence for the inhibitory effect of Gap26 on genuine Cx43Hc.

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Single intravenous low-dose injections of connexin 43 mimetic peptides protect ischemic heart in vivo against myocardial infarction

Hawat

Hélie

Baroudi

2012

Journal of Molecular and Cellular Cardiology

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Differential modulation of unapposed connexin 43 hemichannel electrical conductance by protein kinase C isoforms

Hawat

Baroudi

2008

Pflugers Arch - Eur J Physiol

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Opening of unapposed connexin 43 hemichannels (Cx43Hc) in the plasma membrane results in altered ionic homeostasis leading to cell damage. Although it is generally acknowledged that Cx43Hc function is regulated by protein kinase C (PKC), information regarding the functional role of PKC in the modulation of Cx43Hc electrical conductance is lacking. In this work, we used the patch-clamp technique to study the effect of phorbol 12-myristate 13-acetate (PMA), a general PKC activator, on the electrical conductance of exogenous Cx43Hc expressed in tsA201 cells. Subsequently, a matrix of synthetic PKC isoform-specific inhibitor peptides was used to dissect the functional role of individual PKC isoforms in Cx43Hc regulation. Superfusion with 10 nM PMA abolished Cx43Hc currents by 74%, an effect that was prevented by pretreatment with a general PKC inhibitor, GF109203X. It is interesting to note that intracellular diffusion of epsilon V1-2 (0.1 microM), an epsilon PKC-specific inhibitor peptide, completely antagonized PMA-induced current inhibition. Cell dialysis with either beta II- or delta PKC inhibitor peptides partially decreased PMA effect. Neither alpha- nor beta I PKC inhibition altered PMA-induced current reduction. This study shows for the first time that Cx43Hc electrical conductance is inhibited after PKC activation. Moreover, this inhibition is predominantly mediated by the "novel" epsilon PKC isoform, whereas partial inhibition may be provided by the "conventional" beta II PKC as well as the "novel" delta PKC isoforms.

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Ghayda Hawat

Connexin 43 mimetic peptide Gap26 confers protection to intact heart against myocardial ischemia injury

Single intravenous low-dose injections of connexin 43 mimetic peptides protect ischemic heart in vivo against myocardial infarction

Differential modulation of unapposed connexin 43 hemichannel electrical conductance by protein kinase C isoforms

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