D. Habodaszova scite author profile

D. Habodaszova

3Publications

21Citation Statements Received

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Comenius University Bratislava

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Mitochondrial membrane fluidity, potential, and calcium transients in the myocardium from acute diabetic ratsThis paper is one of a selection of papers published in this Special Issue, entitled The Cellular and Molecular Basis of Cardiovascular Dysfunction, Dhalla 70th Birthday Tribute.

Waczulı́ková

Habodaszova

Cagalinec

et al. 2007

Can. J. Physiol. Pharmacol.

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In this study, we report for the first time concurrent measurements of membrane potential and dynamics and respiratory chain activities in rat heart mitochondria, as well as calcium transients in the hearts of rats in an early phase of streptozotocin diabetes, not yet accompanied with diabetes-induced complications. Quantitative relationships among these variables were assessed. The mitochondria from diabetic rats exhibited decreased fluorescence anisotropy values of diphenylhexatriene. This indicates that hydrophobic core of the membranes was more fluid compared with controls (p<0.05). We discuss the changes in fluidity as having been associated with augmented energy transduction through the diabetic membranes. Reduced ratio of JC-1 fluorescence (aggregates to monomers) in the mitochondria from diabetic hearts reflected descendent transmembrane potential. A significant negative association between membrane fluidity and potential in the diabetic group was found (p<0.05; r=0.67). Further, we observed an increase in calcium transient amplitude (CTA) in the diabetic cardiomyocytes (p=0.048). We conclude that some of the calcium-induced regulatory events that dictate fuel selection and capacity for ATP production in diabetic heart occur at the membrane level. Our findings offer new insight into acute diabetes-induced changes in cardiac mitochondria.

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Endogenous Protective Mechanisms in Remodeling of Rat Heart Mitochondrial Membranes in the Acute Phase of Streptozotocin-Induced Diabetes

Ferko¹,

Habodaszova²,

Waczulı́ková³

et al. 2008

Physiol Res

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The aim of present study was to investigate functional and physical alterations in membranes of heart mitochondria that are associated with remodeling of these organelles in acute phase of streptozotocin-induced diabetes and to elucidate the role of these changes in adaptation of the heart to acute streptozotocin-induced diabetes (evaluated 8 days after single dose streptozotocin application to male Wistar rats). Action of free radicals on the respiratory chain of diabetic-heart mitochondria was manifested by 17 % increase (p<0.05) in oxidized form of the coenzyme Q(10) and resulted in a decrease of states S3 and S4 respiration, the respiratory control index, rate of phosphorylation (all p<0.01) and the mitochondrial transmembrane potential (p<0.05), but the ADP/O ratio decreased only moderately (p>0.05). On the contrary, membrane fluidity and the total mitochondrial Mg2+-ATPase activity increased (both p<0.05). In diabetic heart mitochondria, linear regression analysis revealed a reciprocal relationship between the increase in membrane fluidity and decrease in trans-membrane potential (p<0.05, r = 0.67). Changes in membrane fluidity, transmembrane potential, Mg2+-ATPase activity and the almost preserved ADP/O ratio appear as the manifestation of endogenous protective mechanisms participating in the functional remodeling of mitochondria which contributes to adaptation of the heart to diabetes.

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Changes in biophysical properties of myocytes and subcellular membranes in early streptozotocin-diabetic heart

Waczulı́ková

Cagalinec

Habodaszova

et al. 2007

Journal of Molecular and Cellular Cardiology

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D. Habodaszova

Mitochondrial membrane fluidity, potential, and calcium transients in the myocardium from acute diabetic ratsThis paper is one of a selection of papers published in this Special Issue, entitled The Cellular and Molecular Basis of Cardiovascular Dysfunction, Dhalla 70th Birthday Tribute.

Endogenous Protective Mechanisms in Remodeling of Rat Heart Mitochondrial Membranes in the Acute Phase of Streptozotocin-Induced Diabetes

Changes in biophysical properties of myocytes and subcellular membranes in early streptozotocin-diabetic heart

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