Nitrergic mechanisms involved in the neurotransmission of autonomic and respiratory components of chemoreflex in the caudal NTS of awake rats / Mecanismos nitrérgicos envolvidos na neurotransmissão dos componentes autonômicos e respiratório do quimiorreflexo no NTS caudal de ratos não-anestesiados

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

The nucleus tractus solitarius (NTS) is an integrative area in the central nervous system (CNS) involved with the ventilatory and autonomic control. Several studies suggest that nitric oxide (NO) in the NTS plays an important role in the modulation of the cardiovascular and ventilatory reflexes. In addition, there is evidence indicating a possible interaction of NO and ATP in the CNS. Considering these findings, in the present study, we evaluated the possible role of NO on the modulation of the basal cardiorespiratory parameters as well as on the processing of the cardiovascular and ventilatory responses elicited by chemoreflex activation in the caudal NTS of awake rats. In addition, the possible role of NO produced by neuronal nitric oxide sintase (nNOS) on the cardiovascular and respiratory responses produced by unilateral microinjection of ATP into the caudal NTS was also evaluated. For this purpose, rats received bilateral guide cannulae in direction of the caudal NTS and femoral artery and vein were cannulated. The ventilatory measurements were obtained by whole-body pletismograph method. Our data showed that bilateral microinjections of L-NAME, a non-selective NOS inhibitor, into the caudal NTS, produced a significant increase in basaline mean arterial pressure, suggesting a modulatory role of NO in the neural pathways of the baroreflex. However, bilateral microinjections of N-PLA, a selective nNOS inhibitor, into the caudal NTS, produced no significant changes in the baseline mean arterial pressure, suggesting that NO produced by nNOS is not involved in the basal autonomic control in the caudal NTS. With respect to chemoreflex responses, bilateral microinjections of L-NAME or NPLA, into the caudal, produced a significant attenuation in the increase in respiratory frequency (fR) produced by chemoreflex activation, suggesting that NO produced by nNOS is involved in the modulation of the respiratory component of the chemoreflex. However, the pressor and bradicardic responses elicited by chemoreflex actiovation Abstract xv were not affected by microinjections of L-NAME or N-PLA, suggesting that NO is not involved in the modulation of the cardiovascular responses. With respect to ATP microinjection responses, the data showed that unilateral microinjection of ATP into the caudal NTS produced increase in arterial pressure, fR and minute ventilation, which were significantly attenuated by N-PLA, suggesting that NO produced by nNOS is involved in the modulation of the cardiovascular and ventilatory responses to ATP microinjection into the caudal NTS. In conclusion, the data of present study indicate that in the caudal NTS: 1) NO, produced probably by endothelial NOS, plays an important modulatory role on the neural pathways of the baroreflex; 2) the neurotransmission of the increase in respiratory frequency to chemoreflex activation involve NO production by nNOS. 3) NO is not involved in modulation of the autonomic components of chemoreflex; 4) the cardiovascular and ventillatory responses produced by ATP micronjection are, at least in part, mediated by NO produced by nNOS.

ASSUNTO(S)

chemoreflex nitric oxide autonomic control óxido nítrico nucleus tractus solitarii qumiorreflexo núcleo do trato solitário controle respiratório respiratory control controle autonômico

ACESSO AO ARTIGO

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