Type II secretory phospholipase A<sub>2</sub>binds to ischemic flip-flopped cardiomyocytes and subsequently induces cell death

Nijmeijer, R.; Willemsen, M; Meijer, Chris J.L.M.; Visser, Cees A.; Verheijen, René H.M.; Gottlieb, Roberta A.; Hack, C. Erik; Niessen, H.W.M.

doi:10.1152/ajpheart.00887.2002

Cited by 41 publications

(40 citation statements)

References 17 publications

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“…16,17,19,22 Our observation is in agreement, however, with reversible availability of externalized phosphatidylserines in response to mild hypoxia or ischemia as has been reported by others. 21,23,24 Alternatively, one might argue that targeting of Annexin A5 in our experiments is driven mainly by reactive hyperemia. Although this concept provides an explanation for the lack of uptake of Annexin A5 when injected 1 hour after reperfusion, it does not explain why Annexin A5 targeting was prevented by ischemic preconditioning or adenosine infusion.…”

Section: Discussionmentioning

confidence: 92%

Annexin A5 Scintigraphy of Forearm as a Novel In Vivo Model of Skeletal Muscle Preconditioning in Humans

et al. 2005

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Background-Nonlethal ischemia and reperfusion reduce ischemia-reperfusion-induced cell death, a phenomenon called ischemic preconditioning. In animal models, this potent endogenous protection is mimicked in vivo by administration of adenosine. In humans, exploitation of ischemic preconditioning is hindered by the lack of an appropriate in vivo model to study this phenomenon. To solve this problem, we aimed to set up an easy-to-use human in vivo model to study ischemic or pharmacological preconditioning. Methods and Results-Healthy male volunteers performed unilateral ischemic handgrip. At reperfusion, we intravenously injected technetium-99m-labeled Annexin A5, a presumed marker of ischemic injury, and we imaged both forearms and hands simultaneously with a gamma camera. Region of interest analysis (counts per pixel) and subsequent calculation of the percentage difference in radioactivity between experimental and control hands (thenar muscle; meanϮSE) revealed significant uptake to the ischemically exercised tissue (26Ϯ3% at 4 hours after reperfusion; PϽ0.05). This selective localization of Annexin A5 was reduced by ischemic preconditioning (10 minutes of ischemia plus reperfusion before ischemic exercise) or by infusion of adenosine into the brachial artery to 6Ϯ1% and 10Ϯ3%, respectively (PϽ0.05 versus ischemic exercise alone), resembling observations in animal models with infarct size as an end point.Appropriate control experiments supported our conclusion. Conclusions-Annexin

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Section: Discussionmentioning

confidence: 92%

Annexin A5 Scintigraphy of Forearm as a Novel In Vivo Model of Skeletal Muscle Preconditioning in Humans

et al. 2005

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“…As a result, the anionic phospholipids phosphatidylserine and phosphatidylethanolamine, which under normal conditions are kept within the inner plasma membrane leaflet, are exposed in the outer membrane leaflet, a process called flip-flop [6]. We and others have shown that this flip-flop can be reversible [7,8]. However, during reperfusion the inflammatory mediator type IIA secretory-type phospholipase A 2 (sPLA 2 -IIA) was shown to bind to and to induce death in these flip-flopped cardiomyocytes [4,8,9].…”

Section: Introductionmentioning

confidence: 99%

“…We and others have shown that this flip-flop can be reversible [7,8]. However, during reperfusion the inflammatory mediator type IIA secretory-type phospholipase A 2 (sPLA 2 -IIA) was shown to bind to and to induce death in these flip-flopped cardiomyocytes [4,8,9]. sPLA 2 -IIA is a 14 kDa acute-phase protein that catalyses the hydrolysis of cellular phospholipids to liberate nonesterified fatty acids [10].…”

Section: Introductionmentioning

confidence: 99%

“…This binding of CRP then induces binding and activation of complement, resulting in further tissue damage [12]. In addition sPLA 2 -IIA can not only induce cell death via CRP and complement activation, but also via a direct cytotoxic effect, independent of other inflammatory mediators [8].…”

Section: Introductionmentioning

confidence: 99%

“…We further hypothesized that inhibition of sPLA 2 -IIA would not impair wound healing after AMI, since sPLA 2 -IIA inhibition would protect the reversibly damaged cardiomyocytes, while the irreversibly damaged cardiomyocytes would still be cleared from the myocardium independent of sPLA 2 -IIA [8]. In this study, we therefore analyzed the effect of PX-18 on membrane flip-flop (reversibly damaged and/or apoptotic cells), both in vitro and in vivo in a rat AMI model.…”

Section: Introductionmentioning

confidence: 99%

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Inhibition of type 2A secretory phospholipase A2 reduces death of cardiomyocytes in acute myocardial infarction

et al. 2009

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During acute myocardial infarction (AMI), ischemia leads to necrotic areas surrounded by border zones of reversibly damaged cardiomyocytes, showing membrane flip-flop. During reperfusion type IIA secretory phopholipase A 2 (sPLA 2 -IIA) induces direct cell-toxicity and facilitates binding of other inflammatory mediators on these cardiomyocytes. Therefore, we hypothesized that the specific sPLA 2 -IIA-inhibitor PX-18 would reduce cardiomyocyte death and infarct size in vivo. Wistar rats were treated with PX-18 starting minutes after reperfusion, and at day 1 and 2 post AMI. After 28 days hearts were analyzed. Furthermore, the effect of PX-18 on membrane flipflop and apoptosis was investigated in vitro. PX-18 significantly inhibited sPLA 2 -IIA activity and reduced infarct size (reduction 73 ± 9%, P \ 0.05), compared to the vehicle-treated group, without impairing wound healing. In vitro, PX-18 significantly reduced reversible membrane flip-flop and apoptosis in cardiomyocytes. However, no sPLA 2 -IIA activity could be detected, suggesting that PX-18 also exerted a protective effect independent of sPLA 2 -IIA. In conclusion, PX-18 is a potent therapeutic to reduce infarct size by inhibiting sPLA 2 -IIA, and possibly also by inhibiting apoptosis of cardiomyocytes in a sPLA 2 -IIA independent manner.

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Phospholipases A₂: structure and function

Wilton

2005

Eur. J. Lipid Sci. Technol.

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Phospholipases A 2 (PLA 2 ) are an example of peripheral membrane proteins that must first bind to the phospholipid interface to allow phospholipid hydrolysis to occur. The interfacial (membrane) binding step plays a crucial role in the biological function of the enzyme and membrane affinity may be determined both by the phospholipid composition of the membrane and the properties of the interfacial binding surface of the protein. There are now three major categories of these enzymes, secreted PLA 2 (sPLA 2 ), cytosolic PLA 2 (cPLA 2 ) and Ca 2+ -independent PLA 2 (iPLA 2 ). The structure and function of each category is discussed highlighting how both membrane binding and phospholipid substrate specificity may contribute to the overall functions of these enzymes.

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Type II secretory phospholipase A₂binds to ischemic flip-flopped cardiomyocytes and subsequently induces cell death

Cited by 41 publications

References 17 publications

Annexin A5 Scintigraphy of Forearm as a Novel In Vivo Model of Skeletal Muscle Preconditioning in Humans

Annexin A5 Scintigraphy of Forearm as a Novel In Vivo Model of Skeletal Muscle Preconditioning in Humans

Inhibition of type 2A secretory phospholipase A2 reduces death of cardiomyocytes in acute myocardial infarction

Phospholipases A₂: structure and function

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Type II secretory phospholipase A2binds to ischemic flip-flopped cardiomyocytes and subsequently induces cell death

Cited by 41 publications

References 17 publications

Annexin A5 Scintigraphy of Forearm as a Novel In Vivo Model of Skeletal Muscle Preconditioning in Humans

Annexin A5 Scintigraphy of Forearm as a Novel In Vivo Model of Skeletal Muscle Preconditioning in Humans

Inhibition of type 2A secretory phospholipase A2 reduces death of cardiomyocytes in acute myocardial infarction

Phospholipases A2: structure and function

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Type II secretory phospholipase A₂binds to ischemic flip-flopped cardiomyocytes and subsequently induces cell death

Phospholipases A₂: structure and function