The Calpain-Calpastatin System and the Calcium Paradox in the Isolated Perfused Pigeon Heart

Gaitanaki, Catherine; Papazafiri, Panagiota; Beis, Isidoros

doi:10.1159/000071868

Cited by 8 publications

(8 citation statements)

References 45 publications

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“…In the present study, we found increased calpain‐mediated degradation of α‐fodrin during Ca 2+ repletion, which was attenuated by the selective calpain inhibitor MDL 28170. These findings are indicative of calpain activation during the Ca 2+ paradox and are consistent with those of a previous study that reported increased in vitro cleavage products of denatured casein by extracts from Ca 2+ ‐paradoxic hearts . Moreover, confocal image analysis showed the translocation of both μ‐ and m‐calpain to the sarcolemmal membrane during Ca 2+ repletion, suggesting that both isoforms contribute to Ca 2+ paradox‐induced heart injury.…”

Section: Discussionsupporting

confidence: 91%

“…In addition, other proteins, including Na + /K + ‐ATPase and nitric oxide synthase, have been shown to be targets of calpain activation in the heart . A previous study in pigeon hearts demonstrated that the Ca 2+ paradox may trigger a transient increase in calpain activity . However, it has not been determined whether calpain mediates Ca 2+ paradox‐induced heart injury and, if so, which isoform of calpain is involved.…”

Section: Introductionmentioning

confidence: 99%

“…13,24 A previous study in pigeon hearts demonstrated that the Ca 2+ paradox may trigger a transient increase in calpain activity. 25 However, it has not been determined whether calpain mediates Ca 2+ paradoxinduced heart injury and, if so, which isoform of calpain is involved. In addition, the underlying mechanism needs to be clarified.…”

Section: Introductionmentioning

confidence: 99%

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Calpain inhibitor MDL 28170 protects against the Ca²⁺ paradox in rat hearts

Jin

Zhang

et al. 2012

Clin Exp Pharma Physio

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The calcium paradox represents an important model in which to study myocardial injuries due to intracellular Ca(2+) overload. In a previous study, calpain was transiently activated in Ca(2+) -paradoxic hearts. The aim of the present study was to determine the role of calpain in myocardial dysfunction in hearts subjected to the Ca(2+) paradox and to elucidate the underlying mechanisms. Rat hearts were isolated, Langendorff perfused and subjected to the Ca(2+) paradox, which was induced by 3 min Ca(2+) depletion followed by 30 min Ca(2+) repletion, in the presence or absence of the calpain inhibitor 10 umol/L MDL 28170. Cardiac function was evaluated. Furthermore, cell death and the degradation of troponin I (TnI) were assessed and calpain activity was determined by measurement of the α-fodrin fragment and confocal image analysis. Upon Ca(2+) repletion, the hearts immediately deteriorated, exhibiting a marked depression in cardiac function and an enlarged myocardial injury area. This was accompanied by significant increases in lactate dehydrogenase, mitochondrial release of cytochrome c, the apoptotic index and degraded TnI. These changes were significantly inhibited by MDL 28170, with the exception of TnI degradation. Compared with the control group, Ca(2+) -paradoxic hearts showed a marked increase in cleaved 150 kDa fragments resulting from specific calpain-mediated proteolysis of α-fodrin. This effect was attenuated by MDL 28170. Confocal image analysis revealed the translocation of both μ- and m-calpain to the sarcolemmal membrane in Ca(2+) -paradoxic hearts, indicating increased activity of both isoforms. The results suggest that the Ca(2+) paradox promotes calpain activity, leading to necrosis, apoptosis and myocardial dysfunction.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

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Calpain inhibitor MDL 28170 protects against the Ca²⁺ paradox in rat hearts

Jin

Zhang

et al. 2012

Clin Exp Pharma Physio

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“…Calcium overload associated with ischemia and reperfusion activates calpains and reduces calpastatin levels (17, 18). Until recently, no in vivo studies have examined calpain regulation of the NF-κB pathway during reperfusion of immature myocardium.…”

Section: Discussionmentioning

confidence: 99%

Modulation of nuclear factor-kappaB improves cardiac dysfunction associated with cardiopulmonary bypass and deep hypothermic circulatory arrest*

Duffy

McLean

Lyons

et al. 2009

Critical Care Medicine

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Objective-The hypothesis is that partial nuclear factor-kappaB (NF-κB) inhibition can alleviate cardiopulmonary dysfunction associated with ischemia and reperfusion injury following CPB/ DHCA in a pediatric model. Design-Animal case study. Subjects-Two week-old piglets (5-7 kg).Interventions-Piglets received 100 mcg•kg −1 of SN50, a peptide inhibitor of NF-κB translocation and activation, 1 hr before CPB. The control group received saline. Animals were cooled to 18oC with CPB, the piglets were in DHCA for 120 min, and were then rewarmed on CPB to 38°C and maintained for 120 min after CPB/DHCA.Measurements-Sonomicrometry and pressure catheters collected hemodynamic data. Transmural left and right ventricular tissues were obtained at the terminal time point for determination of NF-κB activity by ELISA. Data are expressed as mean ± SD.Main Points-Oxygen delivery was maintained at 76±13 mL•min −1 at baseline and 75±5 mL•min −1 at 120 min after CPB/DHCA (P=.75) in SN50-treated animals vs. 99±26 mL•min −1 at baseline and 63±20 mL•min −1 at 120 min in the untreated group (P=.0001). Pulmonary vascular resistance (dynes•s −1 •cm −5 ) increased from 124±59 at baseline to 369±104 at 120 min in the untreated piglets (P=.001) compared with SN50-treated animals (100±24 at baseline and 169±88 at 120 minutes, P=.1). NF-κB activity was reduced 74% in left ventricles of SN50-treated compared with untreated animals (P<.001). Plasma endothelin-1 (pg•mL −1 ), an important vasoconstrictor regulated by NF-κB, increased from 2.1±0.4 to 14.2±5.7 in untreated animals (P=.004) but was elevated to only 4.5±2 with SN50 treatment (P=.005).Conclusions-Improvement of cardiopulmonary function after ischemia/reperfusion was associated with the reduction of NF-κB activity in piglet hearts. Maintenance of systemic oxygen delivery and alleviation of pulmonary hypertension after CPB/DHCA in piglets administered SN50, Address reprint requests to: Jodie Y. Duffy, PhD, Division of Cardiothoracic Surgery, Cincinnati Children's Hospital Medical Center, 3333 Burnet Ave., ML2004, Cincinnati, OH 45229, Phone: 513-636-8147, Fax: 513-636-6309, jodie.duffy@cchmc possibly through a reduction of circulating endothelin-1, suggest that selective inhibition of NF-κB activity may reduce ischemia and reperfusion injury after pediatric cardiac surgery.

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“…Although the amount of Ca 2+ required for the in vitro activation of μ-calpain and m-calpain was different and m-calpain was regulated by binding to phosphatidylinositol 4,5-bisphosphate [12], [13], ample studies have shown that calpains are activated during ischemia/reperfusion, resulting in the cleavage of its substrates, such as Na + /K + -ATPase, α-fodrin, a prominent component of the membrane skeleton, and consequently heart injury [16], [17], [18], [19]. We and others have previously found that after Ca 2+ repletion, calpains are activated and both μ- and m-calpain are anchored to the sarcolemmal membrane [20], [21]; moreover, the addition of MDL28170, an inhibitor of calpain, reduced the cleavage of α-fodrin and rescued myocardial dysfunction and cell death [20]. However, MDL28170 did not substantially reduce the level of LVEDP and the degradation of troponin I [20], a regulatory protein involved in maintaining the diastolic state.…”

Section: Introductionmentioning

confidence: 99%

Different Roles for Contracture and Calpain in Calcium Paradox-Induced Heart Injury

Zhang

Wei

et al. 2012

PLoS ONE

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The Ca2+ paradox represents a good model to study Ca2+ overload injury in ischemic heart diseases. We and others have demonstrated that contracture and calpain are involved in the Ca2+ paradox-induced injury. This study aimed to elucidate their roles in this model. The Ca2+ paradox was elicited by perfusing isolated rat hearts with Ca2+-free KH media for 3 min or 5 min followed by 30 min of Ca2+ repletion. The LVDP was measured to reflect contractile function, and the LVEDP was measured to indicate contracture. TTC staining and the quantification of LDH release were used to define cell death. Calpain activity and troponin I release were measured after Ca2+ repletion. Ca2+ repletion of the once 3-min Ca2+ depleted hearts resulted in almost no viable tissues and the disappearance of contractile function. Compared to the effects of the calpain inhibitor MDL28170, KB-R7943, an inhibitor of the Na+/Ca2+ exchanger, reduced the LVEDP level to a greater extent, which was well correlated with improved contractile function recovery and tissue survival. The depletion of Ca2+ for 5 min had the same effects on injury as the 3-min Ca2+ depletion, except that the LVEDP in the 5-min Ca2+ depletion group was lower than the level in the 3-min Ca2+ depletion group. KB-R7943 failed to reduce the level of LVEDP, with no improvement in the LVDP recovery in the hearts subjected to the 5-min Ca2+ depletion treatment; however, KB-R7943 preserved its protective effects in surviving tissue. Both KB-R7943 and MDL28170 attenuated the Ca2+ repletion-induced increase in calpain activity in 3 min or 5 min Ca2+ depleted hearts. However, only KB-R7943 reduced the release of troponin I from the Ca2+ paradoxic heart. These results provide evidence suggesting that contracture is the main cause for contractile dysfunction, while activation of calpain mediates cell death in the Ca2+ paradox.

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The Calpain-Calpastatin System and the Calcium Paradox in the Isolated Perfused Pigeon Heart

Cited by 8 publications

References 45 publications

Calpain inhibitor MDL 28170 protects against the Ca²⁺ paradox in rat hearts

Calpain inhibitor MDL 28170 protects against the Ca²⁺ paradox in rat hearts

Modulation of nuclear factor-kappaB improves cardiac dysfunction associated with cardiopulmonary bypass and deep hypothermic circulatory arrest*

Different Roles for Contracture and Calpain in Calcium Paradox-Induced Heart Injury

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The Calpain-Calpastatin System and the Calcium Paradox in the Isolated Perfused Pigeon Heart

Cited by 8 publications

References 45 publications

Calpain inhibitor MDL 28170 protects against the Ca2+ paradox in rat hearts

Calpain inhibitor MDL 28170 protects against the Ca2+ paradox in rat hearts

Modulation of nuclear factor-kappaB improves cardiac dysfunction associated with cardiopulmonary bypass and deep hypothermic circulatory arrest*

Different Roles for Contracture and Calpain in Calcium Paradox-Induced Heart Injury

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Product

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Calpain inhibitor MDL 28170 protects against the Ca²⁺ paradox in rat hearts

Calpain inhibitor MDL 28170 protects against the Ca²⁺ paradox in rat hearts