Glutamatergic neurotransmission in the hypothalamus PVN on heart rate variability in exercise trained rats.

The paraventricular nucleus of hypothalamus (PVN) is a well known site of integration for autonomic and cardiovascular responses, and the glutamate neurotransmitter plays an important role. The aim of our study was to evaluate the cardiovascular parameters and autonomic modulation by means of spectral analysis after ionotropic glutamate receptor inhibition in the PVN in conscious sedentary (S) or swimming trained (ST) rats. After exercise training protocol, adult male Wistar rats, instrumented with guide cannulae to PVN and artery and vein catheters were submitted to mean arterial pressure (MAP) and heart rate (HR) recording. At baseline, physical training induced a resting bradycardia (S: 379 ± 3, ST: 349 ± 2 bpm, Pb<0.05) and promoted adaptations in HRV characterized by an increase of HF in normalized values and a decrease of LF in absolute and normalized units compared with the sedentary group. Microinjection of kynurenic acid (KYNA) in the PVN of sedentary and trained rats promoted decreases in MAP and HR, but the decrease in HR was smaller in the trained animals (ΔHRS: -48 ± 7, ST: -28 ± 4 bpm, Pb<0.05). Furthermore, the differences in baseline parameters of pulse interval, found between sedentary and trained animals, disappeared after KYNA microinjection in the PVN. Our data suggest that the cardiovascular and autonomic adaptations to the heart induced by exercise training may involve glutamatergic mechanisms in the PVN.

Nitric oxide inhibition in paraventricular nucleus on cardiovascular and autonomic modulation after exercise training in unanesthetized rats.

It is well known that regular physical exercise alter cardiac function and autonomic modulation of heart rate variability (HRV). The paraventricular nucleus of hypothalamus (PVN) is an important site of integration for autonomic and cardiovascular responses, where nitric oxide (NO) plays an important role. The aim of our study was to evaluate the cardiovascular parameters and autonomic modulation by means of spectral analysis after nitric oxide synthase (NOS) inhibition in the PVN in conscious sedentary (S) or swimming trained (ST) rats. After swimming training protocol, adult male Wistar rats, instrumented with guide cannulas to PVN and femoral artery and vein catheters were submitted to mean arterial pressure (MAP) and heart rate (HR) recording. At baseline, the physical training induced a resting bradycardia (S: 374±5, ST: 346±1bpm) and promoted adaptations in HRV characterized by an increase in high-frequency oscillations (HF; 26.43±6.91 to 88.96±2.44) and a decrease in low-frequency oscillations (LF; 73.57±6.91 to 11.04±2.44) in normalized units. The microinjection of N(ω)-nitro-l-arginine methyl ester (l-NAME) in the PVN of sedentary and trained rats promoted increase in MAP and HR. l-NAME in the PVN did not significantly alter the spectral parameters of HRV of sedentary animals, however in the trained rats increased LF oscillations (11.04±2.44 to 27.62±6.97) and decreased HF oscillations (88.96±2.44 to 72.38±6.97) in normalized units compared with baseline. Our results suggest that NO in the PVN may collaborate to cardiac autonomic modulation after exercise training.

Alterações promovidas pelo treinamento físico no edema pulmonar e perda de massa muscular em ratos portadores de tumor Walker-256 / Alterations caused by physical training in pulmonary edema and loss of muscle mass in rats with Walker-256 tumor

O tumor Walker-256 é um carcinoma de crescimento rápido e tem sido estudado sob vários aspectos metabólicos, associados ou não, à caquexia. Foi observado, em nosso laboratório, que em animais portadores de tumor Walker-256 após morte espontânea (geralmente em torno do décimo quinto dia) apresentavam edema pulmonar significativo com presença de líquido na cavidade pleural. Alguns trabalhos têm sugerido que o treinamento físico melhora a sobrevida de animais com tumor e minimiza os efeitos da caquexia. O objetivo de nosso trabalho foi o de avaliar o índice de edema pulmonar e massa muscular esquelética e cardíaca, além da sobrevida de ratos portadores de tumor Walker-256 submetidos previamente a treinamento físico por natação (N). Para este estudo, foram usados ratos Wistar machos (200 a 220g), submetidos ao treinamento físico por natação (1 hora; 5 dias/semana,4 semanas). Um dia após o treinamento, ratos sedentários (C) ou treinados (N) foram submetidos à inoculação no flanco direito de 8 x 107 células de tumor de Walker 256 (T). Imediatamente após a morte espontânea desses animais, foram avaliados o índice de edema pulmonar (IEP), a massa musculares esquelética (gastrocnêmio e soleus) e cardíaca. O edema pulmonar foi avaliado pelo índice calculado pela relação entre os pesos pulmonar e corporal de cada animal, e multiplicada por 100 (PP/PC x 100) (LEEet al., 2001). O índice de massa muscular (IMM) foi calculado de forma similar. Em animais normais,o IEP é igual a 0,53±0,02 (n=20). Em ratos portadores de tumor após a morte espontânea apresentaramIEP significativamente maior (2,62±0,31, n=18). Após o treinamento físico em animais sem tumor, oIEP foi de 0,55±0,03 (n=5). Já em animais portadores de tumor previamente treinados obteve-se umíndice de edema inferior ao grupo controle com tumor (1,46±0,16, n=5; p<0,05)...

Walker-256 tumor is a fast-growing tumor and has been studied under several metabolic aspects associated or not to cachexia. It was observed in our laboratory that animals with Walker-256 tumor,after spontaneous death (usually around the fifteenth day), showed significant pulmonary edema withfluid in the pleural cavity. Some studies have suggested that physical training improves the survival of animals with tumor and minimizes the effects of cachexia. The purpose of our work was to assess the pulmonary edema index as well as the cardiac and skeletal muscle mass, besides the survival of rats with Walker-256 tumor submitted previously to physical training through swimming (N). For this studymale Wistar rats (200 to 220 g) were used, submitted to physical training through swimming (1 hour;5 days a week, four weeks). One day after the training, sedentary rats (C) or trained ones (N) weresubmitted to inoculation on the right flank of 8 x 107 Walker-256 tumor cells (T). Immediately after spontaneous death of these animals, the pulmonary edema index (PEI), cardiac and skeletal musclemass (gastrocnemius and soleus) were evaluated. Pulmonary edema was evaluated through the indexcalculated by the relation between lung and body weights of each animal, and multiplied by 100 (PP/PCx 100) (LEE et al., 2001). Muscle mass (MM) index was calculated similarly. In normal animals the PEIis equal to 0,53±0,02 (n=20). In tumor-bearing rats after spontaneous death the PEI was significantly higher (2,62±0,31, n=18). After the physical training in rats without tumor, the PEI was 0,55±0,03 (n=5).Whereas in tumor-bearing rats previously trained, it was obtained a pulmonary edema index lower thanthat of the control group with tumor (1,46±0,16, n=5; p<0,05).