001) Following, there was a decrease in MAP at the end of the re

001). Following, there was a decrease in MAP at the end of the recordings (t3) in both groups: control PLX4032 solubility dmso (Basal: 115 ± 4 mmHg;

t3: 63 ± 7 mmHg; p < 0.05; Table 1-Supplementary material) and Malnourished rats (Basal: 115 ± 4 mmHg; t3: 54 ± 12 mmHg; p < 0.05; Table 1-Supplementary material). Moreover, there was an increase in HR in t1 and t2 only in the control group (Basal: 385 ± 13 bpm; t1: 437 ± 15 bpm, t2: 444 ± 12 bpm; p = 0.0013; Fig. 1B and Table 2-Supplementary material). Additionally, the malnourished group presented higher latency to death after the injection of TsTX, when compared to the control group (Med: Q1/Q3; M = 15.5:10.5/18 min vs. C = 9:9/13.5; p = 0.0009; Fig. 2 and Table 3-Supplementary material). The major finding of this study is that protein malnutrition modifies the typical cardiovascular responses and survival time induced by intracerebroventricular injection of TsTX. We found that malnutrition: i) reduced the magnitude of the pressor response, which occurred with later onset; ii) abolished TsTX-mediated tachycardia; and iii) increased

the survival time after TsTX injection. Our results showed that malnourished animal presented a substantially reduced body weight (about GSK 3 inhibitor 70%) in according with previous reports (Bezerra et al., 2011a, Bezerra et al., 2011b, Loss et al., 2007, Martins et al., 2011, Oliveira et al., 2004, Penitente et al., 2007 and Tropia et al., 2001). Intriguingly, there was also a great difference in the relative brain weights between control and malnourished

groups. Together with the lack of difference in the weight of the brain between groups is a substantial evidence that the body function tends to preserve the encephalon while suffering a nutritional insult (Hales and Barker, 1992). Despite the preservation of encephalon, changes in neuronal arrangement and impairments in cellular function may not be discarded. In this regard, further morphofunctional assays are required to better understand the cellular mechanisms underlying the neuronal adaptations produced by protein malnutrition. However, it is plausible to reason that cardiovascular neural Resveratrol control might be altered. In spite of similar weight and size of the brains between control and malnourished rats, recent data has described a differential neuronal recruitment in medullary areas that affect the control of cardiovascular function (Rodrigues-Barbosa et al., 2012 and Rodrigues et al., 2013). The mechanisms underlying the changes in the cardiovascular control induced by protein restriction after weaning might, in turn, explain the differential effects caused by central injection TsTX between control and malnourished groups. In accordance to other studies, central injection of TsTX provoked clear cardiovascular responses, similar to those observed following peripheral administration (Guidine et al., 2008 and Mesquita et al., 2003).

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