Masako Oya Masuda

Nandrolone decanoate impairs exercise-induced cardioprotection: Role of antioxidant enzymes

The beneficial effects of exercise in reducing the incidence of cardiovascular diseases are well known and the abuse of anabolic androgenic steroids (AAS) has been associated to cardiovascular disorders. Previous studies showed that heart protection to ischemic events would be mediated by increasing the antioxidant enzyme activities. Here, we investigated the impact of exercise and high doses of the AAS nandrolone decanoate (DECA), 10 mgkg(-1) body weight during 8 weeks, in cardiac tolerance to ischemic events as well as on the activity of antioxidant enzymes in rats. After a global ischemic event, hearts of control trained (CT) group recovered about 70% of left ventricular developed pressure, whereas DECA trained (DT), control sedentary (CS) and DECA sedentary (DS) animals recovered only about 20%. Similarly, heart infarct size was significantly lower in the CT group compared to animals of the three other groups. The activities of the antioxidant enzymes superoxide dismutase (SOD), glutathione peroxidase (GPx) and glutathione reductase (GR) were significantly higher in CT animals than in the other three groups, whereas catalase activity was not affected in any group. Together, these results indicate that chronic treatment with DECA cause an impairment of exercise induction of antioxidant enzyme activities, leading to a reduced cardioprotection upon ischemic events.

Ventricular Action Potential and L-Type Calcium Channel in Infarct-Induced Hypertrophy in Rats

Calcium Channel in Infarct‐Induced Hypertrophied Rat Ventricle. Introduction: The present investigation was aimed at characterization of: (1) action potential parameters; and (2) L‐type calcium channels in the hypertrophied ventricular tissue surviving an extensive healed myocardial infarction in the rat.

Human chagasic IgGs bind to cardiac muscarinic receptors and impair L-type Ca2+ currents

OBJECTIVES Antibodies against cardiac G protein-coupled receptors have been reported in sera from chronic chagasic patients (CChP) and other non-parasitic cardiomyopathies, but the effects and underlying mechanism of interaction between these antibodies and heart cells are not fully established. To address this point, binding of antibodies purified from sera of CChP patients and normal blood donors (NBD) to cardiac muscarinic acetylcholine receptors (mAChR) and their effect on L-type Ca(2+) currents were examined. METHODS AND RESULTS Saturation [3H]NMS binding experiments with porcine atrial membranes showed that B(max) in the presence of CChP-immunoglobulin G (IgG) decreased from 280.2+/-16.08 fmol/mg (control) to 91.00+/-5.98 fmol/mg, with no apparent change in K(D), while NBD-IgG did not significantly alter these parameters. At the single channel level, CChP-IgG decreased both the fast and slow mean open times and P(o) (from 0.074+/-0.023 to 0.025+/-0.007) without changes in single channel conductance. I/V plots of isoproterenol-stimulated whole-cell L-type Ca(2+) currents (I(Ca)) from rabbit ventricular cardiomyocytes showed a significant reduction in peak I(Ca) during perfusion with CChP-IgG (at 0 mV: from 10.61+/-2.97 to 8.45+/-2.54 pA/pF). NBD-IgGs had no effect on I(Ca). A CChP-IgG purified against a peptide corresponding to the second extracellular loop of the M(2) receptor also impaired L-type Ca(2+) currents. All effects of CChP-IgG were blocked by atropine. CONCLUSIONS Our results show that antibodies from CChP bind to mAChR in a non-competitive manner and are able to activate the receptor in an agonist-like form resulting in L-type Ca(2+) current inhibition.

Trypanosoma cruzi-cardiomyocytes: new contributions regarding a better understanding of this interaction

The present paper summarizes new approaches regarding the progress done to the understanding of the interaction of Trypanosoma cruzi-cardiomyocytes. Mannose receptors localized at the surface of heart muscle cell are involved in binding and uptake of the parasite. One of the most striking events in the parasite-heart muscle cells interaction is the disruption of the actin cytoskeleton. We have investigated the regulation of the actin mRNA during the cytopathology induced in myocardial cells by the parasite. T. cruzi invasion increases calcium resting levels in cardiomyocytes. We have previously shown that Ca2+ ATPase of the sarcoplasmic reticulum (SERCA) is involved in the invasion of T. cruzi in cardiomyocytes. Treating the cells with thapsigargin, a drug that binds to all SERCA ATPases and causes depletion of intracellular calcium stores, we found a 75% inhibition in the T. cruzi-cardiomyocytes invasion.

Autoantibodies Enhance Agonist Action and Binding to Cardiac Muscarinic Receptors in Chronic Chagas' Disease

Chronic Chagasic patient immunoglobulins (CChP-IgGs) recognize an acidic amino acid cluster at the second extracellular loop (el2) of cardiac M2-muscarinic acetylcholine receptors (M2AChRs). These residues correspond to a common binding site for various allosteric agents. We characterized the nature of the M2AChR/CChP-IgG interaction in functional and radioligand binding experiments applying the same mainstream strategies previously used for the characterization of other allosteric agents. Dose-response curves of acetylcholine effect on heart rate were constructed with data from isolated heart experiments in the presence of CChP or normal blood donor (NBD) sera. In these experiments, CChP sera but not NBD sera increased the efficacy of agonist action by augmenting the onset of bradyarrhythmias and inducing a Hill slope of 2.5. This effect was blocked by gallamine, an M2AChR allosteric antagonist. Correspondingly, CChP-IgGs increased acetylcholine affinity twofold and showed negative cooperativity for [3H]-N-methyl scopolamine ([3H]-NMS) in allosterism binding assays. A peptide corresponding to the M2AChR-el2 blocked this effect. Furthermore, dissociation assays showed that the effect of gallamine on the [3H]-NMS off-rate was reverted by CChP-IgGs. Finally, concentration-effect curves for the allosteric delay of W84 on [3H]-NMS dissociation right shifted from an IC50 of 33 nmol/L to 78 nmol/L, 992 nmol/L, and 1670 nmol/L in the presence of 6.7 × 10− 8, 1.33 × 10− 7, and 2.0 × 10− 7 mol/L of anti-el2 affinity-purified CChP-IgGs. Taken together, these findings confirmed a competitive interplay of these ligands at the common allosteric site and revealed the novel allosteric nature of the interaction of CChP-IgGs at the M2AChRs as a positive cooperativity effect on acetylcholine action.

Antibodies with beta-adrenergic activity from chronic chagasic patients modulate the QT interval and M cell action potential duration.

AIMS The aim of this study was to investigate whether the sera from chronic chagasic patients (CChPs) with beta-1 adrenergic activity (Ab-beta) can modulate ventricular repolarization. Beta-adrenergic activity has been described in CChP. It increases the L-type calcium current and heart rate in isolated hearts, but its effects on ventricular repolarization has not been described. METHODS AND RESULTS In isolated rabbit hearts, under pacing condition, QT interval was measured under Ab-beta perfusion. Beta-adrenergic activity was also tested in guinea pig ventricular M cells. Furthermore, the immunoglobulin fraction (IgG-beta) of the Ab-beta was tested on Ito, ICa, and Iks currents in rat, rabbit, and guinea pig myocytes, respectively. Beta-adrenergic activity shortened the QT interval. This effect was abolished in the presence of propranolol. In addition, sera from CChP without beta-adrenergic activity (Ab-beta) did not modulate QT interval. The M cell action potential duration (APD) was reversibly shortened by Ab-beta. Atenolol inhibited this effect of Ab-beta, and Ab- did not modulate the AP of M cells. Ito was not modulated by isoproterenol nor by IgG-beta. However, IgG-beta increased ICa and IKs. CONCLUSION The shortening of the QT interval and APD in M cells and the increase of IKs and ICa induced by IgG-beta contribute to repolarization changes that may trigger malignant ventricular arrhythmias observed in patients with chronic chagasic or idiopathic cardiomyopathy.

Characterization of [Ca2+]i responses in primary cultures of mouse cardiomyocytes induced by Trypanosoma cruzi trypomastigotes

Trypanosoma cruzi, the protozoan responsible for Chagas disease, employs distinct strategies to invade mammalian host cells. In the present work we investigated the participation of calcium ions on the invasion process using primary cultures of embryonic mice cardiomyocytes which exhibit spontaneous contraction in vitro. Using Fura 2-AM we found that T. cruzi was able to induce a sustained increase in basal intracellular Ca2+ level in heart muscle cells (HMC), the response being associated or not with Ca2+ transient peaks. Assays performed with both Y and CL strains indicated that the changes in intracellular Ca2+ started after parasites contacted with the cardiomyocytes and the evoked response was higher than the Ca2+ signal associated to the spontaneous contractions. The possible role of the extracellular and intracellular Ca2+ levels on T. cruzi invasion process was evaluated using the extracellular Ca2+ chelator EGTA alone or in association with the calcium ionophore A23187. Significant dose dependent inhibition of the invasion levels were found when intracellular calcium release was prevented by the association of EGTA +A23187 in calcium free medium. Dose response experiments indicated that EGTA 2.5 mM to 5 mM decreased the invasion level by 15.2 to 35.1% while A23187 (0.5 M) alone did not induce significant effects (17%); treatment of the cultures with the protease inhibitor leupeptin did not affect the endocytic index, thus arguing against the involvement of leupeptin sensitive proteases in the invasion of HMC.

Absence of Fas-L aggravates renal injury in acute Trypanosoma cruzi infection

Trypanosoma cruzi infection induces diverse alterations in immunocompetent cells and organs, myocarditis and congestive heart failure. However, the physiological network of disturbances imposed by the infection has not been addressed thoroughly. Regarding myocarditis induced by the infection, we observed in our previous work that Fas-L-/- mice (gld/gld) have very mild inflammatory infiltration when compared to BALB/c mice. However, all mice from both lineages die in the early acute phase. Therefore, in this work we studied the physiological connection relating arterial pressure, renal function/damage and cardiac insufficiency as causes of death. Our results show that a broader set of dysfunctions that could be classified as a cardio/anaemic/renal syndrome is more likely responsible for cardiac failure and death in both lineages. However, gld/gld mice had very early glomerular deposition of IgM and a more intense renal inflammatory response with reduced renal filtration, which is probably responsible for the premature death in the absence of significant myocarditis in gld/gld.

Cellular cardiomyoplasty in large myocardial infarction: Can the beneficial effect be enhanced by ACE‐inhibitor therapy?

Cellular cardiomyoplasty with bone marrow derived stromal (MSC) and mononuclear (BMNC) cells has been shown to improve performance of infarcted hearts. We performed a comparative study with MSC and BMNC and tested the hypothesis that captopril treatment could enhance the beneficial effect of cell therapy in large myocardial infarctions.

Characterization of isolated ventricular myocytes: Two levels of resting potential

Standard microelectrode and whole cell patch clamp techniques were used to characterize the resting properties of ventricular myocytes obtained by enzymatic dispersion from rabbit hearts. In 37 cells studied under current clamp using intracellular microelectrodes, three distinct group of cells can be recognized. The first group (23 cells) is constituted by permanently depolarized cells (RP = -24 +/- 5 mV; Rm = 8.1 +/- 3.4 K omega cm2; Cm = 2.4 +/- 1.2 microF/cm2). A second group (13 cells) is constituted by cells able to be in two distinct states: D state (RP = -28 +/- 11 mV; Rm = 15.2 +/- 9.1 k omega cm2; Cm = 3.8 +/- 0.8 microF/cm2) and H state (RP = -74 +/- 8 mV; Rm = 3.2 +/- 2.3 K omega cm2 and Cm = 2.9 +/- 2.3 microF/cm2). Some of these cells were able to switch between the two states. The third group is represented by one cell and had only one resting potential in the H state range. Resting potential of permanently depolarized cells and cells in D state did not depend on extracellular potassium concentration. In H state however, it varied with extracellular potassium for concentrations above 2.5 mM as expected for a potassium electrode; for lower concentrations a strong deviation was observed. Accordingly, the steady state current voltage plot obtained under whole cell voltage clamp conditions showed either one zero current potential with positive slope conductance at the D state resting range; two zero current voltages corresponding to D and H state resting levels or only one zero current potential at H state resting level.(ABSTRACT TRUNCATED AT 250 WORDS)