Baroreflex deficit are associated with target organ damage / Os déficits de barorreflexo estão associados ao dano do órgão alvo

As is well known, there are different pathophysiological conditions in which baroreflex deficit is enrolled in end-organ damage like hypertension, heart failure and myocardial infarction. The purpose of this study was to investigate the mechanisms enrolled in those relationships using a baroreflex deficit­induced model. Sinoaortic-denervated (SAD) rats were used as a model of arterial baroreflex impairment. Male Wistar rats were divided into: control (n = 9), and SAD (n = 8, 30 days) groups. SAD was performed using the method previously described by Krieger (1964). Cardiac morphology was assessed by echocardiography BP, HR and BP, and pulse interval (PI) variabilities were analyzed using a data acquisition system (Codas, 2kHz). Stroke volume and peripheral and regional resistance were evaluated using colored microspheres. SAD induced LV hypertrophy estimated by LV/BW mass using echocardiography. BP (C: 106±0.6 vs. SAD: 108±2 mmHg) and HR (C: 355±7 vs. SAD: 357±15 bpm) were not modified by SAD, while BP variability (C: 6.2±0.84 vs SAD: 14±0.9 mmHg) and PI variability (C: 24±0.7 vs SAD:17±0.8 ms) were increased and decreased, respectively. Moreover, a reduction was observed in stroke volume (C: 0.31±0.02 vs SAD: 0.25±0.01 mL/ min) and an increase in total peripheral resistance (C: 0.97±0.07 vs. SAD: 1.23±0.07 mL/min/mmHg) in SAD animals. Those alterations resulted in increased cardiac vascular resistance (C: 35±1.6 vs. SAD:66±2.3 mmHg/mL/min/g) and renal vascular resistance (C: 31±1.2 vs. SAD: 75±2.2 mmHg/mL/min/g) in the SAD group. SAD induced an augment in cardiac and renal damage as cardiac morphology by histological techniques showed increased arterial wall and interstitial fibroses, and renal morphology showed interstitial fibroses and a decreased Bowmann space. Conclusion: Total baroreflex dysfunction impaired BP and HR variabilities associated with decreased stroke volume and increased peripheral and regional resistance. These adjustments may play an important role in target organ damage in different pathological conditions; even BP values were maintained at the control levels

Existem diferentes condições fisiopatológicas em que o déficit de barorreflexo está associado ao dano do órgão final, como hipertensão, insuficiência cardíaca e infarto do miocárdio. O objetivo deste estudo foi investigar os mecanismos inscritos nestes relacionamentos usando um modelo induzido por déficit de barorreflexo. Foram utilizados ratos com desnervação sino-aórtica (SAD) como modelo de comprometimento barorreflexo arterial. Os ratos Wistar machos foram divididos em grupos controle (n = 9) e SAD (n = 8, 30 dias). O SAD foi realizado utilizando o método anteriormente descrito por Krieger (1964). A morfologia cardíaca foi avaliada pela ecocardiografia PA, e as variabilidades de FC e PA, e do intervalo de pulso (IP) foram analisadas usando um sistema de aquisição de dados (Codas, 2kHz). O volume sistólico e a resistência periférica e regional foram avaliados utilizando microesferas coloridas. SAD induziu hipertrofia do VE estimada pela massa de VE/PC usando ecocardiografia. PA (C: 106±0,6 vs. SAD: 108±2 mmHg) e FC (C: 355±7 vs. SAD: 357±15 bpm) não foram modificados pelo SAD, enquanto a variabilidade da PA (C: 6,2±0,84 vs. SAD: 14±0,9 mmHg) e a variabilidade de PI (C: 24±0,7 vs. SAD: 17±0,8 ms) aumentaram e diminuíram, respectivamente. Além disso, observou-se uma redução no volume sistólico (C: 0,31± 0,02 vs SAD: 0,25 ± 0,01 mL/min) e um aumento na resistência periférica total (C: 0,97±0,07 vs. SAD: 1,23±0,07 mL/min/mmHg) em animais SAD. Essas alterações resultaram em aumento da resistência vascular cardíaca (C: 35±1,6 vs. SAD: 66 ± 2,3 mmHg/mL/min/g) e resistência vascular renal (C: 31±1,2 vs. SAD: 75±2,2 mmHg/mL/min/g) no grupo SAD. SAD induziu um aumento no dano cardíaco e renal como a morfologia cardíaca por técnicas histológicas mostrou aumento da parede arterial e fibrose intersticial, e a morfologia renal mostrou fibrose intersticial e uma diminuição do espaço de Bowmann. A disfunção barorreflexa total prejudicou as variabilidades de PA e FC associadas à diminuição do volume sistólico e ao aumento da resistência periférica e regional. Esses ajustes podem desempenhar um papel importante no dano de órgãos alvo em diferentes condições patológicas; até mesmo os valores da PA foram mantidos nos níveis de controle

Mesenchymal Stem Cells as Therapeutic Candidates for Halting the Progression of Diabetic Nephropathy.

Mesenchymal stem cells (MSCs) possess pleiotropic properties that include immunomodulation, inhibition of apoptosis, fibrosis and oxidative stress, secretion of trophic factors, and enhancement of angiogenesis. These properties provide a broad spectrum for their potential in a wide range of injuries and diseases, including diabetic nephropathy (DN). MSCs are characterized by adherence to plastic, expression of the surface molecules CD73, CD90, and CD105 in the absence of CD34, CD45, HLA-DR, and CD14 or CD11b and CD79a or CD19 surface molecules, and multidifferentiation capacity in vitro. MSCs can be derived from many tissue sources, consistent with their broad, possibly ubiquitous distribution. This article reviews the existing literature and knowledge of MSC therapy in DN, as well as the most appropriate rodent models to verify the therapeutic potential of MSCs in DN setting. Some preclinical relevant studies are highlighted and new perspectives of combined therapies for decreasing DN progression are discussed. Hence, improved comprehension and interpretation of experimental data will accelerate the progress towards clinical trials that should assess the feasibility and safety of this therapeutic approach in humans. Therefore, MSC-based therapies may bring substantial benefit for patients suffering from DN.

Renin angiotensin system and cardiac hypertrophy after sinoaortic denervation in rats.

OBJECTIVE: The aim of this study was to evaluate the role of angiotensin I, II and 1-7 on left ventricular hypertrophy of Wistar and spontaneously hypertensive rats submitted to sinoaortic denervation. METHODS: Ten weeks after sinoaortic denervation, hemodynamic and morphofunctional parameters were analyzed, and the left ventricle was dissected for biochemical analyses. RESULTS: Hypertensive groups (controls and denervated) showed an increase on mean blood pressure compared with normotensive ones (controls and denervated). Blood pressure variability was higher in denervated groups than in their respective controls. Left ventricular mass and collagen content were increased in the normotensive denervated and in both spontaneously hypertensive groups compared with Wistar controls. Both hypertensive groups presented a higher concentration of angiotensin II than Wistar controls, whereas angiotensin 1-7 concentration was decreased in the hypertensive denervated group in relation to the Wistar groups. There was no difference in angiotensin I concentration among groups. CONCLUSION: Our results suggest that not only blood pressure variability and reduced baroreflex sensitivity but also elevated levels of angiotensin II and a reduced concentration of angiotensin 1-7 may contribute to the development of left ventricular hypertrophy. These data indicate that baroreflex dysfunction associated with changes in the renin angiotensin system may be predictive factors of left ventricular hypertrophy and cardiac failure.

Exercise training associated with estrogen therapy induced cardiovascular benefits after ovarian hormones deprivation.

Menopause is recognized as a period of increased risk for coronary heart disease. Although the benefits of exercise training in lowering cardiovascular risk factors are well established, the risks and benefits of hormone therapy have been questioned. The purpose of the present study was to investigate the effects of estrogen therapy (HT) associated or not with exercise training (ET) in autonomic cardiovascular control in ovariectomized (OVX) rats. Female rats were divided into: control, OVX, OVX+HT, OVX+ET and OVX+HT+ET. HT was performed using a 0.25mg 8-weeks sustained release pellet. Trained groups were submitted to an 8-week exercise training protocol on treadmill. Baroreflex sensitivity (BRS) was evaluated by heart rate responses to arterial pressure (AP) changes, and vagal and sympathetic tonus by pharmacological blockade. Ovariectomy induced an AP increase (123+/-2mmHg vs. 108+/-2mmHg), BRS impairment ( approximately 69%), sympathetic activation ( approximately 100%) and vagal tonus reduction ( approximately 77%) compared to controls. HT or ET normalized the changes in parasympathetic tonus. However, only the association HT+ET was able to promote normalization of AP, BRS and sympathetic tonus, as compared to controls. These results indicate that ET induces cardiovascular and autonomic benefits in OVX rats under HT, suggesting a positive role of this association in the management of cardiovascular risk factor in postmenopausal women.

Renin angiotensin system and cardiac hypertrophy after sinoaortic denervation in rats

OBJECTIVE: The aim of this study was to evaluate the role of angiotensin I, II and 1-7 on left ventricular hypertrophy of Wistar and spontaneously hypertensive rats submitted to sinoaortic denervation. METHODS: Ten weeks after sinoaortic denervation, hemodynamic and morphofunctional parameters were analyzed, and the left ventricle was dissected for biochemical analyses. RESULTS: Hypertensive groups (controls and denervated) showed an increase on mean blood pressure compared with normotensive ones (controls and denervated). Blood pressure variability was higher in denervated groups than in their respective controls. Left ventricular mass and collagen content were increased in the normotensive denervated and in both spontaneously hypertensive groups compared with Wistar controls. Both hypertensive groups presented a higher concentration of angiotensin II than Wistar controls, whereas angiotensin 1-7 concentration was decreased in the hypertensive denervated group in relation to the Wistar groups. There was no difference in angiotensin I concentration among groups. CONCLUSION: Our results suggest that not only blood pressure variability and reduced baroreflex sensitivity but also elevated levels of angiotensin II and a reduced concentration of angiotensin 1-7 may contribute to the development of left ventricular hypertrophy. These data indicate that baroreflex dysfunction associated with changes in the renin angiotensin system may be predictive factors of left ventricular hypertrophy and cardiac failure.

Role of exercise training in cardiovascular autonomic dysfunction and mortality in diabetic ovariectomized rats.

Diabetes and menopause markedly increase the risk of cardiovascular disease in women. The objective of the present study was to investigate the effects of exercise training on cardiovascular autonomic dysfunction and on total mortality in diabetic female rats undergoing ovarian hormone deprivation. Female Wistar rats were divided into ovariectomized groups: sedentary and trained controls and sedentary and trained diabetic rats (streptozotocin, 50 mg/kg IV). Trained groups were submitted to an exercise training protocol on a treadmill (8 weeks). The baroreflex sensitivity was evaluated by heart rate responses to arterial pressure changes. Heart rate variability was determined using the SD of the basal heart rate. Vagal and sympathetic tonus were evaluated by pharmacological blockade. Diabetes impaired baroreflex sensitivity ( approximately 55%), vagal tonus ( approximately 68%), and heart rate variability ( approximately 38%). Exercise training improved baroreflex sensitivity and heart rate variability in control and diabetic groups in relation to their sedentary groups. Trained control rats presented increased vagal tonus compared with that of sedentary ones. The sympathetic tonus was reduced in the trained diabetic group as compared with that of other studied groups. Significant correlations were obtained between heart rate variability and vagal tonus with baroreflex sensitivity. Mortality, assessed during the training period, was reduced in trained diabetic (25%) rats compared with mortality in sedentary diabetic rats (60%). Together, these findings suggest that decreases in baroreflex sensitivity and heart rate variability may be related to increased mortality in female diabetic subjects and that improved autonomic regulation induced by exercise training may contribute to decreased mortality in this population.

Relationship between renal and cardiovascular changes in a murine model of glucose intolerance.

UNLABELLED: Nutrition is an important variable which may affect the risk for renal disease. We previously showed that a high fructose diet in mice produced hypertension and sympathetic activation [8]. The purpose of this study was to determine if a fructose diet altered renal function. A high fructose diet for 12 weeks impaired glucose tolerance, but caused no change in body weight, blood glucose or plasma insulin. Impairment in renal function was documented by the almost two fold increase in urinary protein excretion ( CONTROL: 6.6+/-0.6 vs. Fructose: 15.0+/-0.7 mmol protein/mmol creatinine; p<0.05) which was also accompanied by increases in urinary volume. The diet produced little change in renal histology, kidney weight or kidney weight/body weight ratio. Urinary excretion of angiotensin II/creatinine ( CONTROL: 78.9+/-16.6 vs. Fructose: 80.5+/-14.2 pg/mmol) and renal angiotensin converting enzyme activity ( CONTROL: 9.2+/-1.6 vs. Fructose: 7.6+/-1.0 ACE units) were not different between groups. There was a positive correlation between mean arterial pressure (r=0.7, p=0.01), blood pressure variability (BPV) (r=0.7, p=0.02), low frequency BPV component (r=0.677, p=0.03) and urinary protein excretion. Results show that consumption of a high fructose diet in mice had deleterious effects on renal function, which were correlated with cardiovascular changes.

Efeitos da suplementação do 17beta-estradiol no dano oxidativo cardíaco de ratas submetidas à privação dos hormônios ovarianos / Effects of 17beta-estradiol replacement on cardiac oxidative damage in rats submitted to ovarian hormone deprivation

OBJETIVO: avaliar o estresse oxidativo em tecido cardíaco de ratas ooforectomizadas, com ou sem terapia hormonal. MÉTODOS: ratas Wistar foram divididas em três grupos: grupo controle (GC), grupo ooforectomizada (GO) e grupo ooforectomizada + suplementação hormonal (GOS). A privação estrogênica foi obtida pela ooforectomia bilateral. Uma semana após a ooforectomia, um pellet de 1,5 mg de 17beta-estradiol foi implantado nos animais do grupo GOS. Nove semanas após a ooforectomia, o tecido cardíaco foi obtido para a análise do estresse oxidativo por meio da medida da quimiluminescência e da atividade das enzimas antioxidantes catalase (CAT), superóxido dismutase (SOD) e glutationa peroxidase (GPx). RESULTADOS: a quimiluminescência estava aumentada no GO (7348±312 cps/mg proteína) quando comparado ao GC (6250±41 cps/mg proteína, p<0,01), mas não houve diferença significante entre GC e GOS (6170±237 cps/mg proteína). A ooforectomia reduziu a atividade da SOD (22 por cento, p<0,001) e da CAT (35 por cento, p<0,05) no GO comparado ao GC. A terapia hormonal normalizou a atividade das enzimas antioxidantes no GOS. Não houve significância estatística na atividade da GPx quando os grupos estudados foram comparados. CONCLUSÕES: a privação dos hormônios ovarianos induziu aumento do estresse oxidativo e redução das defesas antioxidantes no tecido cardíaco. No entanto, a terapia hormonal preveniu o estresse oxidativo após a ooforectomia, provavelmente devido a um aumento das enzimas CAT e SOD no músculo cardíaco. Esses achados sugerem uma importante participação do estresse oxidativo nas disfunções cardiovasculares observadas em mulheres após a menopausa, reforçando a importância da terapia hormonal para o manejo dos riscos de doenças cardiovasculares neste grupo de mulheres.

PURPOSE: to evaluate oxidative stress in cardiac tissue of ovariectomized rats, with and without hormonal therapy. METHODS: female Wistar rats were divided in three groups: control group (CG); ovariectomized group (OG); ovariectomized group with estrogen supplementation (ESG). The estrogen deprivation was done through bilateral ovariectomy. After one week from the ovariectomy, a pellet of 1.5 mg of 17beta-estradiol was implanted in the ESG animals. Nine weeks after the ovariectomy, cardiac tissue was obtained for the analysis of the oxidative stress through CL (chemiluminescence), and measurement of antioxidant enzymes catalase (CAT), superoxide dismutase (SOD) and gluthatione peroxidase (GPx). RESULTS: CL was increased in the OG (7348±312 cps/mg protein) when compared with the CG (6250±41 cps/mg protein, p<0.01), but there was no significant difference between the CG and the ESG (6170±237 cps/mg protein). Ovariectomy reduced SOD (35 percent, p<0.05) and CAT (22 percent, p<0.001) activities in the OG as compared with the CG. Hormonal therapy normalized antioxidant enzymes activities in the ESG. There was no statistically significant difference in GPx activity among the groups studied. CONCLUSIONS: ovarian hormone deprivation induced an increase of oxidative stress with reduction of antioxidant defenses in the cardiac tissue. However, hormonal therapy prevented oxidative stress after ovariectomy, probably due to an increase of the CAT and SOD activities in the cardiac muscle. These findings suggest an important oxidative stress contribution in cardiovascular dysfunctions observed in women after menopause, reinforcing the importance of hormonal therapy in the management of cardiovascular diseases risk in this group of women.

Exercise training improves baroreflex sensitivity associated with oxidative stress reduction in ovariectomized rats.

The protection from coronary events that young women have is sharply reduced at menopause. Oxidative stress and baroreflex sensitivity impairment of the circulation have been demonstrated to increase cardiovascular risk. On the other hand, exercise training has been indicated as a nonpharmacological treatment for many diseases. The aim of the present study was to test the hypothesis that exercise training can improve baroreflex sensitivity associated with reduction in oxidative stress in ovariectomized rats, an experimental model of menopause. Exercise training was performed on a treadmill for 8 weeks. Arterial pressure and baroreflex sensitivity, which were evaluated by tachycardic and bradycardic responses to changes in arterial pressure, were monitored. Oxidative stress was evaluated by chemiluminescence and superoxide dismutase and catalase antioxidant enzyme activities. Exercise training reduced resting mean arterial pressure (112+/-2 vs 122+/-3 mm Hg in the sedentary group) and heart rate (325+/-4 vs 356+/-12 bpm in the sedentary group) and also improved baroreflex sensitivity (tachycardic response, 63% and bradycardic response, 58%). Myocardium (25%) and gastrocnemius muscle (48%) chemiluminescence were reduced, and myocardial superoxide dismutase (44%) and gastrocnemius catalase (97%) activities were enhanced in trained rats in comparison with sedentary rats. Myocardium chemiluminescence was positively correlated with systolic arterial pressure (r=0.6) and inversely correlated with baroreflex sensitivity (tachycardic response, r=-0.8 and bradycardic response, r=-0.7). These results indicate that exercise training in ovariectomized rats improves resting hemodynamic status and reflex control of the circulation, probably associated with oxidative stress reduction, suggesting a homeostatic role for exercise training in reducing cardiovascular risk in postmenopausal women.