Contribuição dos grupamentos neuronais noradrenérgicos A1, A2 e do núcleo Pré-óptico mediano (MnPO) nas respostas cardiovasculares e autonômicas induzidas pela sobrecarga de sódio em ratos submetidos à hemorragia hipovolêmica
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2018-03-02
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Universidade Federal de Goiás
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Hemodynamic and cardiovascular benefits from the hypertonic saline solution (HS) use in the hypotensive hemorrhage (HH) treatment have been reported for several years. Recent investigations have shown the participation of central nervous system (CNS) regions, such as A1 neuronal clusters (located in the caudal ventrolateral medulla; CVLM), A2 neuronal clusters (located in the nucleus of the solitary tract; NTS) and the Median Preoptic Nucleus (MnPO) on hemodynamic responses induced by sodium chloride overload in normovolemic animals. However, the role of the above structures in cardiovascular recovery and autonomic changes induced by HS solution administration in animals submitted to HH has not yet been evaluated. Thus, the present study evaluated the A1, A2 neuronal clusters and MnPO nucleus involvement in the cardiovascular and autonomic responses promoted by HS solution infusion in hypovolemic animals. For this, wistar rats (280-320 g) were separated into four protocols: I. A2 neuronal cluster lesion (A2 Sham: n = 6; A2 Experimental: n = 6); II. A1 neuronal cluster lesion (A1 Sham: n = 6; A1 Experimental: n = 6); III. A1 and A2 neural clusters concomitant lesions (A1 + A2 Sham: n = 6; A1 + A2 Experimental: n = 6) and IV. Pharmacological inhibition of MnPO (MnPO Sham: n = 6; MnPO Experimental: n = 6). The animals of the first three protocols were anesthetized and subjected to saporin-anti-DβH nanoinjections for neuronal lesion (100 nL, 0.105 ng/nl) in experimental groups and Saporin nanoinjections (100 nL, 0.022 ng/nL) in sham groups for fictitious neuronal lesion, respectively, in the NTS, CVLM or simultaneously in the NTS and CVLM regions. After 20 days of recovery, the animals were anesthetized and instrumented to mean arterial pressure (MAP), heart rate (HR) and renal sympathetic nervous activity (RSNA) recordings. Then, HH was performed by blood withdrawal until MAP reached approximately 60 mmHg. After 20 min of HH, sodium overload (3M NaCl, 1.8 mL/g, 90 seconds of infusion, i.v) was conducted. In another series of experiments, MnPO Sham and MnPO Experimental groups were anesthetized and instrumented for MAP, HR and RSNA recordings. Then, the animals were submitted to HH and HS infusion at the end of the hemorrhage. GABAergic agonist Muscimol (4 mM, 100 nL, MnPO Experimental group) or saline nanoinjections (0.15 M, 100 nL, MnPO Sham group) were performed in the MnPO after 10 min from the start of HH. HH-induced hypotension, bradycardia and renal sympathoinhibition in the animals of the A2 Sham, A1 Sham, A1 + A2 Sham and MnPO Sham groups. In the sham groups, HS infusion after HH reestablished MAP, HR, and did not alter the renal sympathoinhibition generated during hypovolemia. In the A2 Experimental and A1 Experimental groups, the specific lesion of A1 or A2 neurons did not alter the hypotension, bradycardia and renal sympathoinhibition caused during HH. In addition, the A1 or A2 neurons specific lesion did not alter the reestablishment of MAP, HR and the RSNA reduction after HS solution infusion. However, in the animals of the A1 + A2 experimental group, the simultaneous A1 and A2 neurons lesion did not alter the decrease in MAP and HR observed during HH, but abolished renal sympathoinhibition. In addition, simultaneous A1 and A2 neurons lesion abolished MAP restoration and ANSR reduction after HS infusion, while HR restoration was not modified. In the MnPO experimental animals, MnPO nucleus inhibition did not alter the decrease in MAP and HR observed during HH, but abolished renal sympathoinhibition. However, MnPO inhibition abolished the MAP restoration and promoted strong sympathetic activation in the renal bed after HS infusion, while HR restoration was not modified. These results suggest that the A1, A2 neuronal clusters and MnPO nucleus are part of the integration and transmission information circuits about changes in plasma osmolarity, participating in cardiovascular and autonomic recovery induced by sodium chloride overload in animals submitted to HH.
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Hipovolemia , Hiperosmolaridade , Núcleo do trato solitário , Região caudoventrolateral do bulbo , Atividade nervosa simpática renal , Pressão arterial , Hypovolemia , Hyperosmolarity , Nucleus of the solitary tract , Caudal ventrolateral medulla , Renal sympathetic nervous activity , Blood pressure
Citação
NAVES, L. M. Contribuição dos grupamentos neuronais noradrenérgicos A1, A2 e do núcleo Pré-óptico mediano (MnPO) nas respostas cardiovasculares e autonômicas induzidas pela sobrecarga de sódio em ratos submetidos à hemorragia hipovolêmica. 2018. 83 f. Dissertação (Mestrado em Biologia) - Universidade Federal de Goiás, Goiânia, 2018.