Purinergic central pathways involved in the muscle blood flow regulation during alerting defense behaviours. / Vias centrais purinérgicas envolvidas na regulação do fluxo sangüíneo muscular durante os comportamentos de alerta e defesa

AUTOR(ES)

Willian Seiji Korim

DATA DE PUBLICAÇÃO

2006

RESUMO

The electrical stimulation (ES) of the hypothalamus in the rat produces a well- defined pattern of cardiovascular adjustments including hypertension, tachycardia and skeletal muscle vasodilation. These hemodynamic responses can also be observed in natural conditions during fight and/or flight behaviors. However the neural pathways and possible neurotransmitters involved remain largely unknown. In this study we sought to determine the role of purinergic and glutamatergic receptors into the nucleus tractus solitarius (NTS) in the cardiovascular responses induced by hypothalamic ES, also we aimed to analyze the role of glutamatergic neural pathways from the NTS to the rostral ventrolateral medulla (RVLM) in these responses. Male Wistar rats (250-350 g) were anesthetized (urethane 600 mg/kg + alpha-chloralose 50 mg/kg, iv), paralyzed (d-tubocurarine 0.5 mg/kg, iv) and artificially ventilated. Mean arterial blood pressure (MAP), heart rate (HR) and hindquarter blood flow (HQBF) were recorded. Hindquarter vascular conductance (HQVC) was calculated as the ratio HQBF/MAP and expressed as percentage of baseline. Hypothalamic ES (6s trains, 0.6 ms square pulses, 100 Hz, 150 MuA) evoked a transitory hypertension, tachycardia and hindlimb muscle vasodilation. After bilateral microinjections of suramin (100 pmol /50 nl), a non-specific P2x receptor antagonist, into the NTS the hindlimb vasodilation was reduced (173±19.0 vs 28±14.1% of baseline), even so the transitory hypertension and tachycardia remained unchanged. A similar vasodilation reduction (134±21.5 vs 27±12.7% of baseline) was observed after microinjections of kynurenic acid bilaterally at the same NTS sites. Microinjections of the P2x receptor agonist alpha, beta-methylene ATP (100 pmol/50 nl) into the NTS produced hypotension, bradycardia and hindlimb muscle vasodilation. Bilateral microinjections of suramin at the same NTS site reduced the hypotension (-47±4.5 vs -6±2.0 mmHg) and the vasodilation (76±15.2 vs 9±2.1% of baseline). After bilateral microinjection of kynurenic acid into the RVLM, both hypotension (-60±6.1 vs -9±3.7 mmHg) and the vasodilation response (126±16.9 vs 17±4.6% of baseline) induced by alpha, beta- methylene ATP into the NTS were reduced. The A2a agonist CGS21680 (20 pmol/50 nl) into the NTS produced a long-lasting hypotension, bradycardia and hindlimb vasodilation. Bilateral RVLM glutamatergic blockade reduced the hypotension (-41±4.7 vs -7±1.9 mmHg), the tachycardia (-33±9.0 vs -10±3.1 bpm) and the muscle vasodilation (81±5.6 vs 8±1.5% of baseline) when CGS21680 was injected into the NTS. Therefore the results suggest that in alerting defense reaction, hindquarter vasodilation is mediated by NTS P2x and also by glutamatergic receptors into the intermediate NTS. Cardiovascular responses evoked by either P2x or A2a receptors stimulation in the NTS are mediated by glutamatergic synapses into the RVLM probably through activation of inhibitory interneurones in this area.

ASSUNTO(S)

fluxo sanguíneo regional alerta (fisiologia) vasodilatation vasodilatação hypothalamus neurotransmissores stress neurotransmitters hipotálamo stress alertness regional blood flow

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