M. Harte Federico scite author profile

The impact of cardiac apoptosis in pre-diabetic stages of diabetic cardiomyopathy is unknown. We show that myocytes from fructose-rich diet (FRD) animals exhibit arrhythmias produced by exacerbated Ca /calmodulin-protein kinase (CaMKII) activity, ryanodine receptor 2 (RyR2) phosphorylation and sarcoplasmic reticulum (SR) Ca leak. We tested the hypothesis that this mechanism also underlies cardiac apoptosis in pre-diabetes. We generated a pre-diabetic model in FRD mice. FRD mice showed an increase in oxidative stress, hypertrophy and systolic dysfunction. FRD myocytes exhibited enhanced SR Ca spontaneous events in the absence of SR Ca load alterations vs. control-diet (CD) myocytes. In HEK293 cells, hyperglycaemia significantly enhanced [ H]ryanodine binding and CaMKII phosphorylation of RyR2-S2814 residue vs. normoglycaemia. CaMKII inhibition prevented hyperglycaemia-induced alterations. FRD also evoked cardiac apoptosis in WT mice vs. CD-WT mice. Co-treatment with the reactive oxygen species scavenger Tempol prevented FRD-induced apoptosis in WT mice. In contrast, FRD enhanced oxidative stress but not apoptosis in FRD-SR-AIP mice, in which a CaMKII inhibitor is targeted to the SR. FRD produced mitochondrial membrane depolarization in WT mice but not in S2814A mice, in which the CaMKII phosphorylation site on RyR2 was ablated. Furthermore, FRD decreased mitochondrial area, mean Feret diameter and mean SR-mitochondrial distance vs. CD-WT hearts. This remodelling was prevented in AC3I mice, with cardiac-targeted CaMKII inhibition. CaMKII phosphorylation of RyR2, SR Ca leak and mitochondrial membrane depolarization are critically involved in the apoptotic pathway of the pre-diabetic heart. The FRD-induced decrease in SR-mitochondrial distance is likely to additionally favour Ca transit between the two organelles.

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Unbalance Between Sarcoplasmic Reticulum Ca2 + Uptake and Release: A First Step Toward Ca2 + Triggered Arrhythmias and Cardiac Damage

Federico

Valverde

Mattiazzi

et al. 2020

Front. Physiol.

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The present review focusses on the regulation and interplay of cardiac SR Ca 2+ handling proteins involved in SR Ca 2+ uptake and release, i.e., SERCa2/PLN and RyR2. Both RyR2 and SERCA2a/PLN are highly regulated by post-translational modifications and/or different partners' proteins. These control mechanisms guarantee a precise equilibrium between SR Ca 2+ reuptake and release. The review then discusses how disruption of this balance alters SR Ca 2+ handling and may constitute a first step toward cardiac damage and malignant arrhythmias. In the last part of the review, this concept is exemplified in different cardiac diseases, like prediabetic and diabetic cardiomyopathy, digitalis intoxication and ischemia-reperfusion injury.

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CaMKII activation in early diabetic hearts induces altered sarcoplasmic reticulum-mitochondria signaling

Federico

Zavala

Vico

et al. 2021

Sci Rep

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Prediabetic myocardium, induced by fructose-rich diet (FRD), is prone to increased sarcoplasmic reticulum (SR)-Ca2+ leak and arrhythmias due to increased activity of the Ca2+/calmodulin protein kinase II (CaMKII). However, little is known about the role of SR-mitochondria microdomains, mitochondrial structure, and mitochondrial metabolisms. To address this knowledge gap we measured SR-mitochondrial proximity, intracellular Ca2+, and mitochondrial metabolism in wild type (WT) and AC3-I transgenic mice, with myocardial-targeted CaMKII inhibition, fed with control diet (CD) or with FRD. Confocal images showed significantly increased spontaneous Ca2+ release events in FRD vs. CD WT cardiomyocytes. [3H]-Ryanodine binding assay revealed higher [3H]Ry binding in FRD than CD WT hearts. O2 consumption at State 4 and hydrogen peroxide (H2O2) production rate were increased, while respiratory control rate (RCR) and Ca2+ retention capacity (CRC) were decreased in FRD vs. CD WT isolated mitochondria. Transmission Electron Microscopy (TEM) images showed increased proximity at the SR-mitochondria microdomains, associated with increased tethering proteins, Mfn2, Grp75, and VDAC in FRD vs. CD WT. Mitochondria diameter was decrease and roundness and density were increased in FRD vs. CD WT specimens. The fission protein, Drp1 was significantly increased while the fusion protein, Opa1 was unchanged in FRD vs. CD WT hearts. These differences were prevented in AC3-I mice. We conclude that SR-mitochondria microdomains are subject to CaMKII-dependent remodeling, involving SR-Ca2+ leak and mitochondria fission, in prediabetic mice induced by FRD. We speculate that CaMKII hyperactivity induces SR-Ca2+ leak by RyR2 activation which in turn increases mitochondria Ca2+ content due to the enhanced SR-mitochondria tethering, decreasing CRC.

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Determinants of Ca2+ release restitution: Insights from genetically altered animals and mathematical modeling

Cely-Ortiz

Felice

Diaz-Zegarra

et al. 2020

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Each heartbeat is followed by a refractory period. Recovery from refractoriness is known as Ca2+ release restitution (CRR), and its alterations are potential triggers of Ca2+ arrhythmias. Although the control of CRR has been associated with SR Ca2+ load and RYR2 Ca2+ sensitivity, the relative role of some of the determinants of CRR remains largely undefined. An intriguing point, difficult to dissect and previously neglected, is the possible independent effect of SR Ca2+ content versus the velocity of SR Ca2+ refilling on CRR. To assess these interrogations, we used isolated myocytes with phospholamban (PLN) ablation (PLNKO), knock-in mice with pseudoconstitutive CaMKII phosphorylation of RYR2 S2814 (S2814D), S2814D crossed with PLNKO mice (SDKO), and a previously validated human cardiac myocyte model. Restitution of cytosolic Ca2+ (Fura-2 AM) and L-type calcium current (ICaL; patch-clamp) was evaluated with a two-pulse (S1/S2) protocol. CRR and ICaL restitution increased as a function of the (S2-S1) coupling interval, following an exponential curve. When SR Ca2+ load was increased by increasing extracellular [Ca2+] from 2.0 to 4.0 mM, CRR and ICaL restitution were enhanced, suggesting that ICaL restitution may contribute to the faster CRR observed at 4.0 mM [Ca2+]. In contrast, ICaL restitution did not differ among the different mouse models. For a given SR Ca2+ load, CRR was accelerated in S2814D myocytes versus WT, but not in PLNKO and SDKO myocytes versus WT and S2814D, respectively. The model mimics all experimental data. Moreover, when the PLN ablation-induced decrease in RYR2 expression was corrected, the model revealed that CRR was accelerated in PLNKO and SDKO versus WT and S2814D myocytes, consistent with the enhanced velocity of refilling, SR [Ca2+] recovery, and CRR. We speculate that refilling rate might enhance CRR independently of SR Ca2+ load.

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The role of mitochondria in metabolic disease: a special emphasis on heart dysfunction

Federico

Fuente

Palomeque

et al. 2021

The Journal of Physiology

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Metabolic diseases (MetDs) embrace a series of pathologies characterized by abnormal body glucose usage. The known diseases included in this group are metabolic syndrome, prediabetes and diabetes mellitus types 1 and 2. All of them are chronic pathologies that present metabolic disturbances and are classified as multi-organ diseases. Cardiomyopathy has been extensively described in diabetic patients without overt macrovascular complications. The heart Marilen Federico is a PhD student at Julieta Palomeque's Lab. Her work focuses on the mechanism of the apoptosis pathway in prediabetic heart emphasis on cytosolic Ca 2+ and mitochondrial Ca 2+ signalling. Sergio de La Fuente is a postdoctoral fellow at Dr Sheu's Lab. His research focuses on the mitochondrial Ca 2+ fluxes within adult cardiomyocytes, with emphasis on the mitochondrial Ca 2+ uniporter and the Na + /Ca 2+ exchanger. Julieta Palomeque is professor UNLP and Established Investigator at Cardiovascular Research Center, CONICET, UAI. Her research focuses on identifying molecular mechanisms in prediabetic hearts and high-glucose states related to CaMKII activity. Shey-Shing Sheu is William Wikoff Smith

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Non-conventional mitochondrial permeability transition: Its regulation by mitochondrial dynamics

Yoon

Lee

Federico

et al. 2023

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Acute high glucose perfusion induces arrhythmogenic events through CaMKII pathway in mouse cardiomyocytes

Lopez

Federico

Nuozzi

et al. 2020

Journal of Molecular and Cellular Cardiology

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Intracellular Signaling Pathway of Cardiac Apoptosis in the Prediabetic Heart

Sommese

Federico

Zanuzzi

et al. 2015

Biophysical Journal

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Since skeletal muscle-based precursor of cardiomyocytes (SPOC), a stem cell that potentially differentiates into heart cells, was reported for leg skeletal muscle of mouse [Winitsky et al. (2005) PloS Biol 3(4), e87], we have studied the environmental conditions, type of muscles, preparation methods which may allow us to estimate origin of cells and factors to make cells consistently turning into spontaneous beating cells. In this paper, whether or not satellite cells are their origin, either which exogenous factors or which pathway of signal transduction are required for differentiation to spontaneous beating cells. Medium condition and extracellular matrix to induce cells into spontaneous beating cells appeared to be different between whole muscle cells and satellite cells.

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M. Harte Federico

Calcium‐calmodulin‐dependent protein kinase mediates the intracellular signalling pathways of cardiac apoptosis in mice with impaired glucose tolerance

Unbalance Between Sarcoplasmic Reticulum Ca2 + Uptake and Release: A First Step Toward Ca2 + Triggered Arrhythmias and Cardiac Damage

CaMKII activation in early diabetic hearts induces altered sarcoplasmic reticulum-mitochondria signaling

Determinants of Ca2+ release restitution: Insights from genetically altered animals and mathematical modeling

The role of mitochondria in metabolic disease: a special emphasis on heart dysfunction

Non-conventional mitochondrial permeability transition: Its regulation by mitochondrial dynamics

Acute high glucose perfusion induces arrhythmogenic events through CaMKII pathway in mouse cardiomyocytes

Intracellular Signaling Pathway of Cardiac Apoptosis in the Prediabetic Heart

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