Cardiac remodeling and subcellular defects in heart failure due to myocardial infarction and aging

Dhalla, Naranjan S.; Rangi, Shashanka; Babick, Andrea P.; Zieroth, Shelley; Elimban, Vijayan

doi:10.1007/s10741-011-9278-7

Cited by 64 publications

(49 citation statements)

References 141 publications

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“…due to reduced glomerular filtration rate), or by the combined action of these two mechanisms. Indeed, as recently shown in detail [43,44], several age-associated disorders can cause the death of cardiomyocytes, with the consequent release of sarcolemma proteins, including cTnI and cTnT. On the other hand, circulating cTnI and cTnT are fragmented into molecules small enough to be cleared by the kidney of healthy subjects [45].…”

Section: Agementioning

confidence: 94%

The 99th percentile of reference population for cTnI and cTnT assay: methodology, pathophysiology and clinical implications

Clerico

Zaninotto

Ripoli

et al. 2017

Clinical Chemistry and Laboratory Medicine (CCLM)

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According to recent international guidelines, including the 2012 Third Universal Definiton of Myocardial Infarction by the Joint ESC/ACCF/AHA/WHF Task Force, an increase in cardiac troponin (cTn) levels over the 99th percentile upper reference limit (99th URL) should be considered clinically relevant, this cut-off being measured with an imprecision ≤10 CV%. In theory 99th URL values strongly depend not only on demographic and physiological variables (i.e. criteria for considering the reference population "healthy"), but also on the analytical performance of cTn methods and mathematical algorithms used for the calculation. The aim of the present article was therefore to review the methodological and pathophysiological factors affecting the evaluation and calculation of the 99th URL for cTn assay. The critical analysis made showed that no uniform procedure is followed, and nor have experts or regulatory bodies provided uniform guidelines for researchers or cTn assays manufacturers as an aid in "their quest to define normality". In particular, little attention has been paid to the way in which a healthy reference population is to be selected, or the criteria for calculating the 99th URL value for cTn assays, thus highlighting the need for international recommendations not only for demographic and physiological variables criteria for defining a healthy reference population, but also for calculating mathematical algorithms for establishing/ calculating clinical decision values. An expert consensus group, comprising laboratory and clinical scientists, biomedical statisticians, industrial and regulatory representatives, should be responsible for drawing up these guidelines.

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Section: Agementioning

confidence: 94%

The 99th percentile of reference population for cTnI and cTnT assay: methodology, pathophysiology and clinical implications

Clerico

Zaninotto

Ripoli

et al. 2017

Clinical Chemistry and Laboratory Medicine (CCLM)

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“…Cardiac dysfunction in heart failure is invariably explained on the basis of changes in shape and size of the heart (cardiac remodeling) [22] as well as defects in subcellular organelles such as Sarcoplasmic Reticulum (SR) and Myofibrils (MF) [23][24][25]. Since the sympathetic nervous system is markedly activated in heart failure [26,27], the elevated levels of plasma catecholamines are known to play a critical role in the pathogenesis of cardiac dysfunction, cardiac remodelingmediated through the participation of both α-AR and β-AR in the myocardium.…”

Section: Introductionmentioning

confidence: 99%

“…This study was therefore undertaken to investigate if the depressed cardiac function in rats with heart failure due to MI is improved and cardiac remodeling is attenuated upon treatment with prazosin, a well-known α-AR blocker. Since both SR and MF are intimately involved in determining the status of cardiac contraction and relaxation [23][24][25] -stimulated ATPase were examined in MI animals with or without prazosin treatment. Furthermore, to test if the beneficial effects of α-AR blockade on subcellular activities occur at the level of cardiac gene expression [23][24][25], changes in mRNA levels for both SR and MF proteins were measured in untreated and prazosin treated hearts.…”

Section: Introductionmentioning

confidence: 99%

“…Since both SR and MF are intimately involved in determining the status of cardiac contraction and relaxation [23][24][25] -stimulated ATPase were examined in MI animals with or without prazosin treatment. Furthermore, to test if the beneficial effects of α-AR blockade on subcellular activities occur at the level of cardiac gene expression [23][24][25], changes in mRNA levels for both SR and MF proteins were measured in untreated and prazosin treated hearts. Because of the involvement of sympathetic nervous system activation and subsequent elevated levels of plasma catecholamines in heart failure [26,27], the status of plasma NE, Epinephrine (EPI) and dopamine in MI-induced heart failure was monitored upon treatment with prazosin.…”

Section: Introductionmentioning

confidence: 99%

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Reversal of Cardiac Remodeling and Subcellular Defects by Prazosin in Heart Failure Due to Myocardial Infarction

Babick¹,

Elimban²,

Dhalla³

2012

J Clinic Experiment Cardiol

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Background: This study was undertaken to test if α-Adrenoceptor (AR) blockade with prazosin reverses cardiac remodeling and ameliorates subcellular defects in heart failure due to Myocardial Infarction (MI).Methods: Heart failure in rats was induced by MI for 12 wks and then treated with or without prazosin (10 mg/kg/ day) for 8 wks. Both control and experimental animals were assessed hemodynamically and echocardiographically for evaluating changes in heart function and cardiac remodeling, respectively. Left Ventricle (LV) was used for determining biomedical and molecular activities.Results: Cardiac dysfunction, as evident from depressed LV systolic pressure, rates of changes in pressure development and decay, cardiac output, ejection fraction and fractional shortening as well as increased LV end diastolic pressure, in 20 wks infarcted animals, was corrected partially by prazosin treatment. Different parameters of cardiac remodeling including increased LV posterior wall thickness and LV systolic diameter in failing hearts were fully or partially reversed whereas increased LV diastolic diameter was unaltered by prazosin therapy. Reversal of lung congestion and cardiac hypertrophy in MI animals by prazosin was associated with depression in the elevated levels of plasma norepinephrine, unlike epinephrine or dopamine. Depressions in Sarcoplasmic Reticular (SR) Ca 2+ -uptake activity as well as protein content for Ca 2+ -pump ATPase and phospholamban in failing hearts were reversed partially whereas depressed SR Ca 2+ -release activity and myofibrillar Ca 2+ -stimulated ATPase activity were not affected by prazosin. Alterations in mRNA levels for SR Ca 2+ -pump ATPase, SR Ca 2+ -release channels, and α-myosin heavy chain and β-myosin heavy chain in MI-induced heart failure were not influenced by prazosin treatment. Conclusions:It is suggested that the activation of α-AR system may be associated with cardiac remodeling and heart failure and the reverse cardiac remodeling by α-AR blockade may improve cardiac performance by attenuating defects in SR Ca 2+ -pump.

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“…An increase in cytoplasmic Ca 2 + concentration in myocardial cells with hypoxia has been reported (Song et al, 2005;Liu et al, 2009), and intracellular Ca 2 + overload is an important cause for damage and dysfunction in the myocardium (Tang et al, 2011;Dhalla et al, 2012). As Ca V 1.2 is involved in the major route for Ca 2 + to enter into myocardial cells, the decreased expression of Ca V 1.2 and the overload of intracellular Ca 2 + seemed to be paradoxical, which suggests that intracellular Ca 2 + overload of MI may be related to other regulatory proteins of Ca V 1.2, such as Na + /Ca 2 + exchanger, Na + /H + exchanger, RyR, and SER-CA (Zima and Blatter, 2006;Vittone et al, 2008).…”

Section: Discussionmentioning

confidence: 99%

Dynamic Alterations in the Ca_V1.2/CaM/CaMKII Signaling Pathway in the Left Ventricular Myocardium of Ischemic Rat Hearts

Zhao

Sun

et al. 2014

DNA and Cell Biology

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Cardiac L-type calcium channel (Ca V 1.2), calmodulin (CaM), and Ca 2 + /calmodulin-dependent protein kinase II (CaMKII) form the Ca V 1.2/CaM/CaMKII signaling pathway, which plays an important role in maintaining intracellular Ca 2 + homeostasis. The roles of CaM and CaMKII in the regulation of Ca V 1.2 in Ca 2 + -dependent inactivation and facilitation have been reported; however, alterations in this signaling pathway in the heart after myocardial ischemia (MI) had not been well characterized. In this study, we investigated the dynamic changes in Ca V 1.2, CaM, and CaMKII mRNA and protein expression levels in the left ventricles of the heart following MI in rats. The MI model was induced by ligating the left anterior descending coronary artery; the rats were divided into the following five groups: the 6 h post-MI group (MI-6h), 24 h post-MI group (MI-24h), 1 week post-MI group (MI-1w), 2 weeks post-MI group (MI-2w), and the sham group. The mRNA levels were measured by quantitative real-time polymerase chain reaction and the protein expression was determined by western blotting and immunohistochemistry. There were no observable differences in the Ca V 1.2 mRNA and protein levels at the early stages of MI, but these levels decreased at MI-2w. Both the mRNA and protein levels of CaM increased at MI-6h, peaked at MI-24h, and then reduced to normal levels at MI-2w. CaMKII mRNA and protein levels decreased at MI-6h and reached their lowest level at MI-24h. Taken together, these data demonstrate that there are dynamic changes in the Ca V 1.2/CaM/CaMKII signaling pathway following MI injuries, which suggests that different therapeutic regimens should be used at different time points after MI injuries.

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Cardiac remodeling and subcellular defects in heart failure due to myocardial infarction and aging

Cited by 64 publications

References 141 publications

The 99th percentile of reference population for cTnI and cTnT assay: methodology, pathophysiology and clinical implications

The 99th percentile of reference population for cTnI and cTnT assay: methodology, pathophysiology and clinical implications

Reversal of Cardiac Remodeling and Subcellular Defects by Prazosin in Heart Failure Due to Myocardial Infarction

Dynamic Alterations in the Ca_V1.2/CaM/CaMKII Signaling Pathway in the Left Ventricular Myocardium of Ischemic Rat Hearts

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Cardiac remodeling and subcellular defects in heart failure due to myocardial infarction and aging

Cited by 64 publications

References 141 publications

The 99th percentile of reference population for cTnI and cTnT assay: methodology, pathophysiology and clinical implications

The 99th percentile of reference population for cTnI and cTnT assay: methodology, pathophysiology and clinical implications

Reversal of Cardiac Remodeling and Subcellular Defects by Prazosin in Heart Failure Due to Myocardial Infarction

Dynamic Alterations in the CaV1.2/CaM/CaMKII Signaling Pathway in the Left Ventricular Myocardium of Ischemic Rat Hearts

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Product

Resources

About

Dynamic Alterations in the Ca_V1.2/CaM/CaMKII Signaling Pathway in the Left Ventricular Myocardium of Ischemic Rat Hearts