Michael V. Cohen scite author profile

Abstract-The critical time for opening mitochondrial (mito) K ATP channels, putative end effectors of ischemic preconditioning (PC), was examined. In isolated rabbit hearts 29Ϯ3% of risk zone infarcted after 30 minutes of regional ischemia. Ischemic PC or 5-minute exposure to 10 mol/L diazoxide, a mito K ATP channel opener, reduced infarction to 3Ϯ1% and 8Ϯ1%, respectively. The mito K ATP channel closer 5-hydroxydecanoate (200 mol/L), bracketing either 5-minute PC ischemia or diazoxide infusion, blocked protection (24Ϯ3 and 28Ϯ6% infarction, respectively). However, 5-hydroxydecanoate starting 5 minutes before long ischemia did not affect protection. Glibenclamide (5 mol/L), another K ATP channel closer, blocked the protection by PC only when administered early. These data suggest that K ATP channel opening triggers protection but is not the final step. Five minutes of diazoxide followed by a 30-minute washout still reduced infarct size (8Ϯ3%), implying memory as seen with other PC triggers. The protection by diazoxide was not blocked by 5 mol/L chelerythrine, a protein kinase C antagonist, given either to bracket diazoxide infusion or just before the index ischemia. Bracketing preischemic exposure to diazoxide with 50 mol/L genistein, a tyrosine kinase antagonist, did not affect infarction, but genistein blocked the protection by diazoxide when administered shortly before the index ischemia. Thus, although it is not protein kinase C-dependent, the protection by diazoxide involves tyrosine kinase. Bracketing diazoxide perfusion with N-(2-mercaptopropionyl) glycine (300 mol/L) or Mn(III)tetrakis(4-benzoic acid) porphyrin chloride (7 mol/L), each of which is a free radical scavenger, blocked protection, indicating that diazoxide triggers protection through free radicals. Therefore, mito K ATP channels are not the end effectors of protection, but rather their opening before ischemia generates free radicals that trigger entrance into a preconditioned state and activation of kinases. (Circ Res. 2000;87:460-466.)

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Multiple, brief coronary occlusions during early reperfusion protect rabbit hearts by targeting cell signaling pathways

Yang¹,

Proctor²,

Cui³

et al. 2004

Journal of the American College of Cardiology

472

391

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Multiple, short, regional coronary occlusions immediately after prolonged myocardial ischemia are an effective cardioprotective intervention in the rabbit, and the mechanism of protection involves activation of ERK, production of nitric oxide, and opening of mitochondrial K(ATP) channels. These observations suggest that a similar approach could be applied in the cardiac catheterization laboratory to protect reperfused myocardium after primary angioplasty in patients with acute myocardial infarction.

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Ischemic Preconditioning: From Adenosine Receptor to K_ATP Channel

Cohen

Baines²,

Downey³

2000

Annu. Rev. Physiol.

445

317

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Ischemic preconditioning is a phenomenon whereby exposure of the myocardium to a brief episode of ischemia and reperfusion markedly reduces tissue necrosis induced by a subsequent prolonged ischemia. It is hoped that elucidation of the mechanism for preconditioning will yield therapeutic strategies capable of reducing myocardial infarction. In the rabbit, the brief period of preconditioning ischemia and reperfusion releases adenosine, bradykinin, opioids, and oxygen radicals. The combined effect of the release of these substances on G proteins and the cell's phospholipases induces the translocation and activation of the epsilon isozyme of protein kinase C. Protein kinase C appears to be the first element of a complex kinase cascade that is activated during the prolonged ischemia in preconditioned hearts. Current evidence indicates that this cascade contains at least one tyrosine kinase and ultimately leads to the activation of p38 mitogen-activated protein kinase. p38 Mitogen-activated protein kinase phosphorylates mitogen-activated protein kinase-activated protein kinase 2. Mitogen-activated protein kinase-activated protein kinase 2 phosphorylates HSP27, a 27-kDa heat shock protein that controls actin filament polymerization, and, therefore, affects the integrity of the cytoskeleton. Finally, mitochondrial adenosine 5'-triphosphate-sensitive K+ channels open, and the latter may be the final mediator of protection for ischemic preconditioning. The protective pathway has many built-in redundancies, perhaps creating a safety factor. These redundancies may also explain some of the species-related differences seen in ischemic preconditioning in which one redundant pathway may predominate over another.

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Role of Bradykinin in Protection of Ischemic Preconditioning in Rabbit Hearts

Goto

Liu

Yang

et al. 1995

Circulation Research

456

283

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Bradykinin receptor activation has been proposed to be involved in ischemic preconditioning. In the present study, we further investigated the role of this agent in preconditioning in both isolated and in situ rabbit hearts. All hearts were subjected to 30 minutes of regional ischemia followed by reperfusion for 2 hours (in vitro hearts) and 3 hours (in situ hearts). Infarct size was measured by tetrazolium staining and expressed as a percentage of the size of the risk zone. Preconditioning in situ hearts with 5 minutes of ischemia and 10 minutes of reperfusion significantly reduced infarct size to 10.2 +/- 2.2% of the risk region (P < .0005 versus control infarct size of 36.7 +/- 2.6%). Pretreatment with HOE 140 (26 micrograms/kg), a bradykinin B2 receptor blocker, did not alter infarct size in nonpreconditioned hearts (40.6 +/- 5.3% infarction) but abolished protection from ischemic preconditioning (34.1 +/- 1.6% infarction). However, when HOE 140 was administered during the initial reflow period following 5 minutes of ischemia, protection was no longer abolished (15.6 +/- 3.9% infarction versus 13.3 +/- 3.8% without HOE 140, P = NS). Bradykinin infusion in isolated hearts mimicked preconditioning, and protection was not affected by pretreatment with the nitric oxide synthase inhibitor N omega-nitro-L-arginine methyl ester or the prostaglandin synthesis inhibitor indomethacin but could be completely abolished by the protein kinase C (PKC) inhibitors polymyxin B and staurosporine as well as by HOE 140. HOE 140 could not block the protection of ischemic preconditioning in isolated hearts. That failure was apparently due to the absence of blood-borne kininogens rather than autonomic nerves. When the preconditioning stimulus in the in situ model was amplified with four cycles of 5-minute ischemia/10-minute reperfusion, HOE 140 pretreatment could no longer block protection (infarct size was 10.7 +/- 3.5% versus 6.4 +/- 2.0% without HOE 140, P = NS). We propose that bradykinin receptors protect by coupling to PKC as do adenosine receptors, and blockade of either receptor will diminish the total stimulus of PKC below threshold and prevent protection. A more intense preconditioning ischemic stimulus can overcome bradykinin receptor blockade, however, by simply enhancing the amount of adenosine and possibly other agonists released.

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Postconditioning protects rabbit hearts through a protein kinase C-adenosine A2b receptor cascade

Philipp¹,

Yang²,

Cui³

et al. 2006

Cardiovascular Research

245

225

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Michael V. Cohen

Opening of Mitochondrial K _ATP Channels Triggers the Preconditioned State by Generating Free Radicals

Multiple, brief coronary occlusions during early reperfusion protect rabbit hearts by targeting cell signaling pathways

Ischemic Preconditioning: From Adenosine Receptor to K_ATP Channel

Role of Bradykinin in Protection of Ischemic Preconditioning in Rabbit Hearts

Postconditioning protects rabbit hearts through a protein kinase C-adenosine A2b receptor cascade

Contact Info

Product

Resources

About

Michael V. Cohen

Opening of Mitochondrial K ATP Channels Triggers the Preconditioned State by Generating Free Radicals

Multiple, brief coronary occlusions during early reperfusion protect rabbit hearts by targeting cell signaling pathways

Ischemic Preconditioning: From Adenosine Receptor to KATP Channel

Role of Bradykinin in Protection of Ischemic Preconditioning in Rabbit Hearts

Postconditioning protects rabbit hearts through a protein kinase C-adenosine A2b receptor cascade

Contact Info

Product

Resources

About

Opening of Mitochondrial K _ATP Channels Triggers the Preconditioned State by Generating Free Radicals

Ischemic Preconditioning: From Adenosine Receptor to K_ATP Channel