Your search keyword '"Tezini, Geisa C. S. V."' showing total 20 results

1. Neuronal cholinergic signaling constrains norepinephrine activity in the heart

Author

Guimarães, Diogo A., primary, Aquino, Nayara S. S., additional, Rocha-Resende, Cibele, additional, Jesus, Itamar C. G., additional, Silva, Mario Morais, additional, Scalzo, Sérgio A., additional, Fonseca, Roberta Cristelli, additional, Durand, Marina T., additional, Pereira, Vanessa, additional, Tezini, Geisa C. S. V., additional, Oliveira, André, additional, Prado, Vania F., additional, Stefanon, Ivanita, additional, Salgado, Helio C., additional, Prado, Marco Antônio Máximo, additional, Szawka, Raphael E., additional, and Guatimosim, Silvia, additional

Published

2022

2. Increased cholinergic activity under conditions of low estrogen leads to adverse cardiac remodeling

Author

Teixeira, Vanessa P., primary, Miranda, Kiany, additional, Scalzo, Sergio, additional, Rocha-Resende, Cibele, additional, Silva, Mário Morais, additional, Tezini, Geisa C. S. V., additional, Melo, Marcos B., additional, Souza-Neto, Fernando Pedro, additional, Silva, Kaoma S. C., additional, Jesus, Itamar C. G., additional, Santos, Anderson K., additional, de Oliveira, Mauro, additional, Szawka, Raphael E., additional, Salgado, Helio C., additional, Prado, Marco Antonio Máximo, additional, Poletini, Maristela O., additional, and Guatimosim, Silvia, additional

Published

2021

3. Carotid sinus nerve electrical stimulation in conscious rats attenuates systemic inflammation via chemoreceptor activation

Author

Santos-Almeida, Fernanda Machado, primary, Domingos-Souza, Gean, additional, Meschiari, César A., additional, Fávaro, Laura Campos, additional, Becari, Christiane, additional, Castania, Jaci A., additional, Lopes, Alexandre, additional, Cunha, Thiago M., additional, Moraes, Davi J. A., additional, Cunha, Fernando Q., additional, Ulloa, Luis, additional, Kanashiro, Alexandre, additional, Tezini, Geisa C. S. V., additional, and Salgado, Helio C., additional

Published

2017

4. Cardiovascular regulation in mice with attenuation or overexpression of the vesicular acetylcholine transporter (VAChT) gene: parasympathetic function in heart failure

Author

Tezini, Geisa C. S. V., primary, Martins Dias, Daniel P., additional, Oliveira, Mauro, additional, Guatimosim, Silvia, additional, Prado, Marco A. M., additional, and Salgado, Helio C., additional

Published

2017

5. Cardiac acetylcholine inhibits ventricular remodeling and dysfunction under pathologic conditions

Author

Roy, Ashbeel, primary, Dakroub, Mouhamed, additional, Tezini, Geisa C. S. V., additional, Liu, Yin, additional, Guatimosim, Silvia, additional, Feng, Qingping, additional, Salgado, Helio C., additional, Prado, Vania F., additional, Prado, Marco A. M., additional, and Gros, Robert, additional

Published

2015

6. Autonomic cardiocirculatory control in mice with reduced expression of the vesicular acetylcholine transporter

Author

Durand, Marina T., primary, Becari, Christiane, additional, Tezini, Geisa C. S. V., additional, Fazan, Rubens, additional, Oliveira, Mauro, additional, Guatimosim, Silvia, additional, Prado, Vania F., additional, Prado, Marco A. M., additional, and Salgado, Helio C., additional

Published

2015

7. Aerobic physical training increases contractile response and reduces cardiac fibrosis in rats subjected to early ovarian hormone deprivation

Author

Felix, Ana Carolina S., primary, Dutra, Sabrina G. V., additional, Tezini, Geisa C. S. V., additional, Simões, Marcus Vinicius, additional, and de Souza, Hugo Celso Dutra, additional

Published

2015

8. Cardiac Autonomic Modulation Is Determined by Gender and Is Independent of Aerobic Physical Capacity in Healthy Subjects

Author

Dutra, Sabrina G. V., primary, Pereira, Ana Paula M., additional, Tezini, Geisa C. S. V., additional, Mazon, José H., additional, Martins-Pinge, Marli C., additional, and Souza, Hugo C. D., additional

Published

2013

9. Cardiac acetylcholine inhibits ventricular remodeling and dysfunction under pathologic conditions.

Author

Roy, Ashbeel, Dakroub, Mouhamed, Tezini, Geisa C. S. V., Yin Liu, Guatimosim, Silvia, Qingping Feng, Salgado, Helio C., Prado, Vania F., Prado, Marco A. M., and Gros, Robert

Subjects

ACETYLCHOLINE, VENTRICULAR remodeling, DYSAUTONOMIA, HEART failure, HEART cells

Abstract

Autonomic dysfunction is a characteristic of cardiac disease and decreased vagal activity is observed in heart failure. Rodent cardiomyocytes produce de novo ACh, which is critical in maintaining cardiac homeostasis. We report that this nonneuronal cholinergic system is also found in human cardiomyocytes, which expressed choline acetyltransferase (ChAT) and the vesicular acetylcholine transporter (VAChT). Furthermore, VAChT expression was increased 3- and 1.5-fold at the mRNA and protein level, respectively, in ventricular tissue from patients with heart failure, suggesting increased ACh secretion in disease. We used mice with genetic deletion of cardiomyocyte-specific VAChT or ChAT and mice overexpressing VAChT to test the functional significance of cholinergic signaling. Mice deficient for VAChT displayed an 8% decrease in fractional shortening and 13% decrease in ejection fraction compared with angiotensin II (Ang II)-treated control animals, suggesting enhanced ventricular dysfunction and pathologic remodeling in response to Ang II. Similar results were observed in ChAT-deficient mice. Conversely, no decline in ventricular function was observed in Ang II-treated VAChT overexpressors. Furthermore, the fibrotic area was significantly greater (P < 0.05) in Ang II-treated VAChT-deficient mice (3.61 ± 0.64%) compared with wild-type animals (2.24 ± 0.11%). In contrast, VAChT overexpressing mice did not display an increase in collagen deposition. Our results provide new insight into cholinergic regulation of cardiac function, suggesting that a compensatory increase in cardiomyocyte VAChT levels may help offset cardiac remodeling in heart failure. [ABSTRACT FROM AUTHOR]

Published

2016

10. Autonomic Cardiovascular Damage during Postmenopause: the Role of Physical Training.

Author

Souza, Hugo C. D. and Tezini, Geisa C. S. V.

Subjects

*CARDIOVASCULAR diseases, *MEACHAM syndrome, *EXERCISE, *PHYSICAL training & conditioning, *HORMONES

Abstract

Menopause is part of the aging process and is characterized by the natural cessation of menstruation; during this time, the production of ovarian hormones, especially estrogen, is sharply reduced. This reduction can cause symptoms and disorders that affect most women and can interfere with their quality of life. Women are also more susceptible to cardiovascular diseases during this period, considering that these ovarian hormones would be associated with a protective effect on the cardiovascular system, by acting at various levels, contributing to the body homeostasis. Among several effects on the cardiovascular system, the ovarian hormones seem to play an important role in the autonomic control of heart rate and blood pressure. A reduction in ovarian hormones causes an autonomic imbalance and increases the risk of cardiovascular diseases. In fact, this increased risk is justified by the key role the autonomic nervous system plays in all cardiac regulatory mechanisms, exerting a tonic and reflexive influence on the main variables of the cardiovascular system. The autonomic system controls various cardiovascular parameters, such as the modulation of heart rate and blood pressure, myocardial contractility and venous capacitance, directly participating in the regulation of cardiac output. Over the years, the standard treatment for menopause symptoms and disorders has been hormone replacement therapy (HRT). However, many studies have indicated the risks of HRT, which justify the need for new non-pharmacological therapies. To this end, physical training, mainly aerobic, has been applied with excellent results on the cardiovascular autonomic nervous system, as it reduces the risk of cardiac diseases and improves the survival rate with direct beneficial effects on the quality of life of these women during the aging process. [ABSTRACT FROM AUTHOR]

Published

2013

11. Neuronal cholinergic signaling constrains norepinephrine activity in the heart.

Author

Guimarães DA, Aquino NSS, Rocha-Resende C, Jesus ICG, Silva MM, Scalzo SA, Fonseca RC, Durand MT, Pereira V, Tezini GCSV, Oliveira A, Prado VF, Stefanon I, Salgado HC, Prado MAM, Szawka RE, and Guatimosim S

Subjects

Adrenergic Agents, Animals, Mice, Myocytes, Cardiac, Vesicular Acetylcholine Transport Proteins genetics, Cholinergic Agents, Norepinephrine

Abstract

It is well known that cholinergic hypofunction contributes to cardiac pathology, yet, the mechanisms involved remain unclear. Our previous study has shown that genetically engineered model of cholinergic deficit, the vesicular acetylcholine transporter knockdown homozygous (VAChT KD HOM ) mice, exhibit pathological cardiac remodeling and a gradual increase in cardiac mass with aging. Given that an increase in cardiac mass is often caused by adrenergic hyperactivity, we hypothesized that VAChT KD HOM mice might have an increase in cardiac norepinephrine (NE) levels. We thus investigated the temporal changes in NE content in the heart from 3-, 6-, and 12-mo-old VAChT mutants. Interestingly, mice with cholinergic hypofunction showed a gradual elevation in cardiac NE content, which was already increased at 6 mo of age. Consistent with this finding, 6-mo-old VAChT KD HOM mice showed enhanced sympathetic activity and a greater abundance of tyrosine hydroxylase positive sympathetic nerves in the heart. VAChT mutants exhibited an increase in peak calcium transient, and mitochondrial oxidative stress in cardiomyocytes along with enhanced G protein-coupled receptor kinase 5 (GRK5) and nuclear factor of activated T-cells (NFAT) staining in the heart. These are known targets of adrenergic signaling in the cell. Moreover, vagotomized-mice displayed an increase in cardiac NE content confirming the data obtained in VAChT KD HOM mice. Establishing a causal relationship between acetylcholine and NE, VAChT KD HOM mice treated with pyridostigmine, a cholinesterase inhibitor, showed reduced cardiac NE content, rescuing the phenotype. Our findings unveil a yet unrecognized role of cholinergic signaling as a modulator of cardiac NE, providing novel insights into the mechanisms that drive autonomic imbalance.

Published

2022

12. Increased cholinergic activity under conditions of low estrogen leads to adverse cardiac remodeling.

Author

Teixeira VP, Miranda K, Scalzo S, Rocha-Resende C, Silva MM, Tezini GCSV, Melo MB, Souza-Neto FP, Silva KSC, Jesus ICG, Santos AK, de Oliveira M, Szawka RE, Salgado HC, Prado MAM, Poletini MO, and Guatimosim S

Subjects

Animals, Estradiol pharmacology, Estrogen Replacement Therapy, Female, Heart Rate, Hypertrophy, Left Ventricular pathology, Hypertrophy, Left Ventricular physiopathology, Hypertrophy, Left Ventricular prevention & control, Mice, Inbred C57BL, Mice, Transgenic, Myocardial Contraction, Myocytes, Cardiac drug effects, Myocytes, Cardiac pathology, Ovariectomy, Signal Transduction, Ventricular Dysfunction, Left pathology, Ventricular Dysfunction, Left physiopathology, Ventricular Dysfunction, Left prevention & control, Vesicular Acetylcholine Transport Proteins genetics, Mice, Acetylcholine metabolism, Cholinergic Fibers metabolism, Estrogens deficiency, Heart innervation, Hypertrophy, Left Ventricular metabolism, Myocytes, Cardiac metabolism, Ventricular Dysfunction, Left metabolism, Ventricular Function, Left drug effects, Ventricular Remodeling drug effects, Vesicular Acetylcholine Transport Proteins metabolism

Abstract

Cholinesterase inhibitors are used in postmenopausal women for the treatment of neurodegenerative diseases. Despite their widespread use in the clinical practice, little is known about the impact of augmented cholinergic signaling on cardiac function under reduced estrogen conditions. To address this gap, we subjected a genetically engineered murine model of systemic vesicular acetylcholine transporter overexpression ( Chat-ChR2 ) to ovariectomy and evaluated cardiac parameters. Left-ventricular function was similar between Chat-ChR2 and wild-type (WT) mice. Following ovariectomy, WT mice showed signs of cardiac hypertrophy. Conversely, ovariectomized (OVX) Chat-ChR2 mice evolved to cardiac dilation and failure. Transcript levels for cardiac stress markers atrial natriuretic peptide (ANP) and B-type natriuretic peptide (BNP) were similarly upregulated in WT/OVX and Chat-ChR2 /OVX mice. 17β-Estradiol (E 2 ) treatment normalized cardiac parameters in Chat-ChR2 /OVX to the Chat-ChR2 /SHAM levels, providing a link between E 2 status and the aggravated cardiac response in this model. To investigate the cellular basis underlying the cardiac alterations, ventricular myocytes were isolated and their cellular area and contractility were assessed. Myocytes from WT/OVX mice were wider than WT/SHAM, an indicative of concentric hypertrophy, but their fractional shortening was similar. Conversely, Chat-ChR2 /OVX myocytes were elongated and presented contractile dysfunction. E 2 treatment again prevented the structural and functional changes in Chat-ChR2 /OVX myocytes. We conclude that hypercholinergic mice under reduced estrogen conditions do not develop concentric hypertrophy, a critical compensatory adaptation, evolving toward cardiac dilation and failure. This study emphasizes the importance of understanding the consequences of cholinesterase inhibition, used clinically to treat dementia, for cardiac function in postmenopausal women.

Published

2021

13. Autonomic cardiocirculatory control in mice with reduced expression of the vesicular acetylcholine transporter.

Author

Durand MT, Becari C, Tezini GC, Fazan R Jr, Oliveira M, Guatimosim S, Prado VF, Prado MA, and Salgado HC

Subjects

Action Potentials, Animals, Autonomic Nervous System physiology, Baroreflex, Heart innervation, Male, Mice, Myocardium metabolism, Vesicular Acetylcholine Transport Proteins genetics, Arterial Pressure, Autonomic Nervous System metabolism, Heart physiology, Heart Rate, Vesicular Acetylcholine Transport Proteins metabolism

Abstract

In cardiovascular diseases, sympathetic tone has been comprehensively studied, whereas parasympathetic tone has received minor attention. The vesicular ACh transporter (VAChT) knockdown homozygous (VAChT KD(HOM)) mouse is a useful model for examining the cardiocirculatory sympathovagal balance. Therefore, we investigated whether cholinergic dysfunction caused by reduced VAChT expression could adversely impact hemodynamic parameter [arterial pressure (AP) and heart rate (HR)] daily oscillation, baroreflex sensitivity, hemodynamic variability, sympathovagal balance, and cardiovascular reactivity to restraint stress. Wild-type and VAChT KD(HOM) mice were anesthetized for telemetry transmitter implantation, and APs and HRs were recorded 10 days after surgical recovery. Changes in HR elicited by methylatropine and propranolol provided the indexes of sympathovagal tone. Cardiovascular reactivity in response to a restraint test was examined 24 h after continuous recordings of AP and HR. VAChT KD(HOM) mice exhibited reduced parasympathetic and elevated sympathetic tone. Daily oscillations of AP and HR as well as AP variability were similar between groups. Nevertheless, HR variability, patterns with two dissimilar variations from symbolic analysis, and baroreflex sensitivity were reduced in VAChT KD(HOM) mice. The change in mean AP due to restraint stress was greater in VAChT KD(HOM) mice, whereas the tachycardic response was not. These findings demonstrate that the cholinergic dysfunction present in the VAChT KD(HOM) mouse did not adversely impact basal hemodynamic parameters but promoted autonomic imbalance, an attenuation of baroreflex sensitivity, and a greater pressure response to restraint stress. These results provide a framework for understanding how autonomic imbalance impacts cardiovascular function., (Copyright © 2015 the American Physiological Society.)

Published

2015

14. Pyridostigmine prevents haemodynamic alterations but does not affect their nycthemeral oscillations in infarcted mice.

Author

Corrêa WG, Durand MT, Becari C, Tezini GC, do Carmo JM, de Oliveira M, Prado CM, Fazan R Jr, and Salgado HC

Subjects

Animals, Arterial Pressure drug effects, Circadian Rhythm drug effects, Disease Models, Animal, Heart Rate drug effects, Male, Mice, Mice, Inbred C57BL, Myocardium pathology, Telemetry, Cholinesterase Inhibitors administration & dosage, Circadian Rhythm physiology, Hemodynamics drug effects, Myocardial Infarction drug therapy, Pyridostigmine Bromide administration & dosage

Abstract

The increase in acetylcholine yielded by pyridostigmine (PYR), an acetylcholinesterase inhibitor, was evaluated for its effect on the haemodynamic responses-mean arterial pressure (MAP) and heart rate (HR)-and their nycthemeral oscillation in mice before and one week after myocardial infarction (MI). Mice were anesthetized (isoflurane), and a telemetry transmitter was implanted into the carotid artery. After 5 days of recovery, the MAP and HR were recorded for 48 h (10 s every 10 min). Following this procedure, mice were submitted to surgery for sham or coronary artery ligation and received drinking water (VEHICLE) with or without PYR. Five days after surgery, the haemodynamic recordings were recommenced. Sham surgery combined with VEHICLE did not affect basal MAP and HR; nevertheless, these haemodynamic parameters were higher during the night, before and after surgery. MI combined with VEHICLE displayed decreased MAP and increased HR; these haemodynamic parameters were also higher during the night, before and after surgery. Sham surgery combined with PYR displayed similar results for MAP as sham combined with VEHICLE; however, PYR produced bradycardia. Nevertheless, MI combined with PYR exhibited no change in MAP and HR, but these haemodynamic parameters were also higher during the night, before and after surgery. Therefore, MI decreased MAP and increased HR, while PYR prevented these alterations. Neither MI nor PYR affected nycthemeral oscillations of MAP and HR. These findings indicate that the increase in acetylcholine yielded by PYR protected the haemodynamic alterations caused by MI in mice, without affecting the nycthemeral haemodynamic oscillations., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

15. Ageing is the main determinant of haemodynamics and autonomic cardiac changes observed in post-menopausal female rats.

Author

Tezini GC, Becari C, Zanotto CZ, Salgado MC, Passaglia Rde C, and Souza HC

Subjects

Adrenergic Agents pharmacology, Animals, Autonomic Nervous System drug effects, Autonomic Nervous System growth & development, Cardiovascular System drug effects, Cardiovascular System growth & development, Female, Gene Expression Regulation, Developmental drug effects, Heart drug effects, Heart growth & development, Heart innervation, Hemodynamics drug effects, Hypertension metabolism, Hypertension physiopathology, Myocardial Contraction drug effects, Myocardium metabolism, Ovariectomy adverse effects, Parasympatholytics pharmacology, Rats, Rats, Wistar, Receptors, Adrenergic, beta-1 chemistry, Receptors, Adrenergic, beta-1 genetics, Receptors, Adrenergic, beta-1 metabolism, Sympatholytics pharmacology, Tachycardia metabolism, Tachycardia physiopathology, Aging, Autonomic Nervous System physiopathology, Cardiovascular System physiopathology, Heart physiopathology, Hypertension etiology, Menopause, Premature, Tachycardia etiology

Abstract

The aim of this study was to evaluate and compare the effects of early and physiological menopause on cardiac autonomic parameters in aged female rats. To this end, female Wistar rats (22 and 82 weeks old, N=96) were divided into 4 groups: Young Sham-operated Rats, Aged Sham-operated Rats, Young Ovariectomised (OVX) Rats, and Aged OVX Rats. Young Sham-operated and OVX rats were used as controls. The cardiac autonomic parameters were investigated using different approaches: 1) pharmacological evaluation of the autonomic tonus with methylatropine and propranolol; 2) isolated cardiac contractility with β-adrenergic agonists; and 3) quantification of the mRNA and protein level expression of cardiac β-adrenergic receptors. Among the groups of aged female rats, both the Sham-operated and OVX rats showed higher basal mean arterial pressure and heart rate (HR) values compared to their respective young counterparts. The aged groups also showed a predominance of the sympathetic autonomic component in the determination of HR, whereas the young rats showed a vagal predominance. An assessment of cardiac contractility showed that aged Sham-operated and OVX rats had lower contractile responses following the administration of dobutamine compared to their respective young counterparts. In addition, the aged groups showed higher mRNA and protein expression levels of the β1-adrenergic receptors. In conclusion, our results show that haemodynamic alterations and impairment of the autonomic parameters were similar between the groups of rats subjected to early and physiological menopause. Moreover, these results seem to be due to the ageing process and not ovarian hormone deprivation., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

16. Aerobic physical training has little effect on cardiovascular autonomic control in aging rats subjected to early menopause.

Author

Tezini GC, Dias DP, and Souza HC

Subjects

Adaptation, Physiological, Animals, Baroreflex, Female, Ovariectomy, Rats, Rats, Wistar, Sedentary Behavior, Swimming, Arterial Pressure, Autonomic Nervous System physiology, Cardiovascular System innervation, Heart Rate, Menopause, Premature, Physical Exertion

Abstract

We investigated and compared the effects of physiological menopause (PM) and early menopause (EM) and the adaptations promoted by physical training on the cardiovascular autonomic control of aged rats. Female Wistar rats (N=72) were assigned to 3 groups: control (22 weeks old rats, undergoing sham surgery in the 10th week of life), PM (82 weeks old rats, undergoing sham surgery in the 10th week of life) and EM (82 weeks old rats, undergoing ovariectomy in the 10th week of life). In each group, half of the rats were subjected to swimming training over a period of 10 weeks. Sedentary PM and EM groups had higher basal mean arterial pressure (MAP) and heart rate (HR) and lower intrinsic HR compared to the sedentary control group. Physical training reduced MAP in PM group. All trained groups had lower basal HR; however, only control and PM-trained groups showed decreased intrinsic HR. The assessment of cardiac autonomic balance showed that PM and EM sedentary groups exhibited sympathetic predominance compared to control group. After physical training, only EM group presented sympathetic predominance. HR variability (pulse interval) was similar among all sedentary groups. However, control and PM-trained groups showed lower power in low frequency band (LF; 0.2-0.75 Hz) and higher power in high frequency band (HF; 0.75-3.0 Hz). The analysis of systolic arterial pressure variability revealed that PM and EM sedentary groups had higher LF power. However, PM group showed lower LF power following physical training. Finally, PM and EM groups had a reduction in spontaneous baroreflex sensitivity, that was attenuated by physical training. The overall results suggest that PM or EM promotes similar negative effects on MAP, HR and cardiovascular autonomic control. However, unlike the PM group, physical training was not able to mitigate all negative effects of EM on cardiovascular autonomic control., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

17. Comparison of the effects of aerobic and resistance training on cardiac autonomic adaptations in ovariectomized rats.

Author

Silveira LC, Tezini GC, Schujmann DS, Porto JM, Rossi BR, and Souza HC

Subjects

Adrenergic beta-Antagonists pharmacology, Aerobiosis, Animals, Atropine Derivatives pharmacology, Baroreflex physiology, Blood Pressure drug effects, Blood Pressure physiology, Cardiac Pacing, Artificial, Female, Heart Rate drug effects, Heart Rate physiology, Muscarinic Antagonists pharmacology, Propranolol pharmacology, Rats, Rats, Wistar, Adaptation, Physiological physiology, Autonomic Nervous System physiology, Heart innervation, Heart physiology, Ovariectomy, Physical Conditioning, Animal physiology, Resistance Training

Abstract

We have compared the effects of two types of physical training on the cardiac autonomic control in ovariectomized and sham-operated rats according to different approaches: double autonomic blockade (DAB) with methylatropine and propranolol; baroreflex sensibility (BRS) and spectral analysis of heart rate variability (HRV). Wistar female rats (±250g) were divided into two groups: sham-operated and ovariectomized. Each group was subdivided into three subgroups: sedentary rats, rats submitted to aerobic trained and rats submitted to resistance training. Ovariectomy did not change arterial pressure, basal heart rate (HR), DAB and BRS responses, but interfered with HRV by reducing the low-frequency oscillations (LF=0.20-0.75Hz) in relation to sedentary sham-operated rats. The DAB showed that both types of training promoted an increase in the predominance of vagal tonus in sham-operated rats, but HR variations due to methylatropine were decreased in the resistance trained rats compared to sedentary rats. Evaluation of BRS showed that resistance training for sham-operated and ovariectomized rats reduced the tachycardic responses in relation to aerobic training. Evaluation of HRV in trained rats showed that aerobic training reduced LF oscillations in sham-operated rats, whereas resistance training had a contrary effect. In the ovariectomized rats, aerobic training increased high frequency oscillations (HF=0.75-2.5Hz), whereas resistance training produced no effect. In sham-operated rats, both types of training increased the vagal autonomic tonus, but resistance training reduced HF oscillations and BRS as well. In turn, both types of training had similar results in ovariectomized rats, except for HRV, as aerobic training promoted an increase in HF oscillations., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

18. The effect of aerobic physical training on cardiac autonomic control of rats submitted to ovariectomy.

Author

Tezini GC, Silveira LC, Villa-Clé PG Jr, Jacinto CP, Di Sacco TH, and Souza HC

Subjects

Adrenergic beta-Antagonists pharmacology, Aerobiosis, Animals, Atropine Derivatives pharmacology, Blood Pressure physiology, Female, Heart Rate physiology, Parasympatholytics pharmacology, Propranolol pharmacology, Rats, Rats, Wistar, Vagus Nerve physiology, Autonomic Nervous System physiology, Heart innervation, Ovariectomy, Physical Conditioning, Animal physiology

Abstract

Objective: To investigate the effect of aerobic physical training on cardiovascular autonomic control in ovariectomized rats using different approaches., Design: Female Wistar rats were divided into four groups: sedentary sham rats (group SSR), trained sham rats(group TSR), sedentary ovariectomized rats (group SOR), and trained ovariectomized rats (group TOR). Animals from the trained groups were submitted to a physical training protocol (swimming) for 12 weeks., Results: Pharmacological evaluation showed that animals from group TSR had an increase in their cardiac vagal tonus compared with the animals from groups SSR and SOR. The analysis of heart rate variability (HRV) showed that groups TSR and SOR had fewer low-frequency oscillations (0.20-0.75 Hz) compared with groups SSR and TOR.When groups TSR and SOR were compared, the former was found to have fewer oscillations. With regard to high frequency oscillations (0.75-2.5 Hz), group SSR had a reduction compared with the other groups, whereas group TSR had the greatest oscillation compared with groups SOR and TOR, with all values expressed in normalized units.Analysis of HRV was performed after pharmacological blockade, and low-frequency oscillations were found to be predominantly sympathetic in sedentary animals, whereas there was no predominance in trained animals., Conclusion: Ovariectomy did not change the tonic autonomic control of the heart and, in addition, reduced the participation of sympathetic component in cardiac modulation. Physical training, on the other hand, increased the participation of parasympathetic modulation on the HRV, including ovariectomized rats.

Published

2009

19. The effect of ovariectomy on cardiac autonomic control in rats submitted to aerobic physical training.

Author

Tezini GC, Silveira LC, Maida KD, Blanco JH, and Souza HC

Subjects

Administration, Oral, Adrenergic beta-Antagonists administration & dosage, Adrenergic beta-Antagonists pharmacology, Analysis of Variance, Animals, Atropine Derivatives administration & dosage, Atropine Derivatives pharmacology, Autonomic Nervous System drug effects, Baroreflex drug effects, Baroreflex physiology, Blood Pressure drug effects, Blood Pressure physiology, Cardiovascular System drug effects, Cardiovascular System innervation, Female, Heart Rate drug effects, Heart Rate physiology, Hypertension chemically induced, Hypertension physiopathology, Injections, Intravenous, NG-Nitroarginine Methyl Ester, Nitric Oxide biosynthesis, Nitric Oxide physiology, Parasympatholytics administration & dosage, Parasympatholytics pharmacology, Propranolol administration & dosage, Propranolol pharmacology, Rats, Rats, Wistar, Autonomic Nervous System physiopathology, Cardiovascular System physiopathology, Ovariectomy, Physical Conditioning, Animal physiology

Abstract

We have investigated the ovariectomy effects on the cardiovascular autonomic adaptations induced by aerobic physical training and the role played by nitric oxide (NO). Female Wistar rats (n=70) were divided into five groups: Sedentary Sham (SS); Trained Sham (TS); Trained Hypertensive Sham treated with N(G)-nitro-L-arginine methyl ester (L-NAME) (THS); Trained Ovariectomized (TO); and Trained Hypertensive Ovariectomized treated with L-NAME (THO). Trained groups were submitted to a physical training during 10 weeks. The cardiovascular autonomic control was investigated in all groups using different approaches: 1) pharmacological evaluation of autonomic tonus with methylatropine and propranolol; 2) analysis of heart rate (HR) and systolic arterial pressure (AP) variability; 3) spontaneous baroreflex sensitivity (BRS) evaluation. Hypertension was observed in THS and THO groups. Pharmacological analysis showed that TS group had increased predominance of autonomic vagal tonus compared to SS group. HR and intrinsic HR were found to be reduced in all trained animals. TS group, compared to other groups, showed a reduction in LF oscillations (LF=0.2-0.75 Hz) of pulse interval in both absolute and normalized units as well as an increase in HF oscillations (HF=0.75-2.50 Hz) in normalized unit. BRS analysis showed that alpha-index was different between all groups. TS group presented the greatest value, followed by the TO, SS, THO and THS groups. Ovariectomy has negative effects on cardiac autonomic modulation in trained rats, which is characterized by an increase in the sympathetic autonomic modulation. These negative effects suggest NO deficiency. In contrast, the ovariectomy seems to have no effect on AP variability.

Published

2008

20. Heart rate and arterial pressure variability in the experimental renovascular hypertension model in rats.

Author

Souza HC, Martins-Pinge MC, Dias da Silva VJ, Borghi-Silva A, Gastaldi AC, Blanco JH, and Tezini GC

Subjects

Animals, Baroreflex physiology, Disease Models, Animal, Male, Rats, Rats, Wistar, Spectrum Analysis, Statistics, Nonparametric, Blood Pressure physiology, Heart Rate physiology, Hypertension, Renovascular physiopathology

Abstract

This study was conducted in one kidney, one clip (1K1C) Goldblatt hypertensive rats to evaluate vascular and cardiac autonomic control using different approaches: 1) evaluation of the autonomic modulation of heart rate (HR) and systolic arterial pressure (SAP) by means of autoregressive power spectral analysis 2) assessment of the cardiac baroreflex sensitivity; and 3) double blockade with methylatropine and propranolol. The 1K1C group developed hypertension and tachycardia. The 1K1C group also presented reduction in variance as well as in LF (0.23+/-0.1 vs. 1.32+/-0.2 ms2) and HF (6.6+/-0.49 vs. 15.1+/-0.61 ms2) oscillations of pulse interval. Autoregressive spectral analysis of SAP showed that 1K1C rats had an increase in variance and LF band (13.3+/-2.7 vs. 7.4+/-1.01 mmHg2) in comparison with the sham group. The baroreflex gain was attenuated in the hypertensive 1K1C (-1.83+/-0.05 bpm/mmHg) rats in comparison with normotensive sham (-3.23+/-0.06 bpm/mmHg) rats. The autonomic blockade caused an increase in the intrinsic HR and sympathetic predominance on the basal HR of 1K1C rats. Overall, these data indicate that the tachycardia observed in the 1K1C group may be attributed to intrinsic cardiac mechanisms (increased intrinsic heart rate) and to a shift in the sympathovagal balance towards cardiac sympathetic over-activity and vagal suppression associated to depressed baroreflex sensitivity. Finally, the increase in the LF components of SAP also suggests an increase in sympathetic activity to peripheral vessels.

Published

2008