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Communication between the central nervous system and kidneys: cardiovascular, renal and autonomic influences in physiological and physiopathological conditions

Abstract

Cardiovascular and renal diseases are among the main causes of morbidity and mortality in Brazil and worldwide. Hypertension is one of the major risk factors for diseases such as myocardial infarction, renal failure and heart failure. It is interesting that these pathophysiological conditions have in common the increase of sympathetic vasomotor activity and curiously, the greater the severity of cardiovascular and renal disease, the greater the sympathetic vasomotor activation. However, the mechanisms triggering the exacerbated increase in sympathetic vasomotor activity in these conditions are not fully known. In the present project, we intend to advance the understanding of how sympathetic vasomotor activity increases in experimental hypertension and in other models that are known to have an increase in sympathetic activity, especially as the reciprocal communication between the kidneys and the central nervous system (CNS) occurs. The kidneys receive intense sympathetic innervation, which has the ability to change renal function in a robust way and reciprocally, the kidneys contain renal afferents that protrude to the CNS in regions that in turn control the cardiovascular and renal systems. Our hypothesis is that alterations in renal receptors (mechanoreceptors and chemoreceptors) under pathophysiological conditions can trigger alterations in the mechanisms of cardiovascular and renal control leading to sympathetic overactivation under pathophysiological conditions, aggravating and worsening the condition. We hope that at the end of this project we can advance in the understanding of how the sympathetic vasomotor activity increases disproportionately in some pathophysiological situations, especially with regard to communication between CNS and kidneys. (AU)

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VEICULO: TITULO (DATA)
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Scientific publications (8)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
MILANEZ, MAYCON I. O.; NISHI, ERIKA E.; MENDES, RODRIGO; ROCHA, ANTONIO A.; BERGAMASCHI, CASSIA T.; CAMPOS, RUY R.. Renal sympathetic activation triggered by the rostral ventrolateral medulla is dependent of spinal cord AT1 receptors in Goldblatt hypertensive rats. Peptides, v. 146, . (18/01898-4, 18/02671-3, 19/25295-0)
MARUYAMA, N. O.; ESTRELA, H. F.; SALES, E. B. OLIVEIRA; LUCAS, T. F.; PORTO, C. S.; BERGAMASCHI, C. T.; CAMPOS, R. R.. Differential effects of estrogen receptors in the rostral ventrolateral medulla in Goldblatt hypertension. JOURNAL OF STEROID BIOCHEMISTRY AND MOLECULAR BIOLOGY, v. 224, p. 8-pg., . (19/25295-0)
DE OLIVEIRA, TALES LYRA; LINCEVICIUS, GISELE SILVERIO; SHIMOURA, CAROLINE GUSSON; SIMOES-SATO, ALEX YURI; GARCIA, MICHELLE LOUVAES; BERGAMASCHI, CASSIA T.; CAMPOS, RUY R.. Effects of renal denervation on cardiovascular, metabolic and renal functions in streptozotocin-induced diabetic rats. Life Sciences, v. 278, . (14/26387-1, 19/25295-0)
VEIGA, A. C.; SILVA-AGUIAR, R. P.; MILANEZ, M. I. O.; AIRES, R. S.; MORAES, Y. A. C.; CAMPOS, R. R.; BERGAMASCHI, C. T.; CARUSO-NEVES, C.; NISHI, E. E.. Renal nerves and hypertension contribute to impaired proximal tubule megalin-mediated albumin uptake in renovascular hypertensive rats. HYPERTENSION RESEARCH, v. N/A, p. 12-pg., . (19/25295-0, 22/11063-2, 20/02617-9)
SHIMOURA, CAROLINE G.; OLIVEIRA, TALES L.; LINCEVICIUS, GISELE S.; CRAJOINAS, RENATO O.; OLIVEIRA-SALES, ELIZABETH B.; VARELA, VANESSA A.; GOMES, GUIOMAR N.; BERGAMASCHI, CASSIA T.; CAMPOS, RUY R.. The Total Denervation of the Ischemic Kidney Induces Differential Responses in Sodium Transporters' Expression in the Contralateral Kidney in Goldblatt Rats. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, v. 25, n. 13, p. 13-pg., . (19/25295-0)
FABER, JEAN; MILANEZ, MAYCON I. O.; SIMOES, CRISTIANO S.; CAMPOS, RUY R.. Frequency-coded patterns of sympathetic vasomotor activity are differentially evoked by the paraventricular nucleus of the hypothalamus in the Goldblatt hypertension model. FRONTIERS IN CELLULAR NEUROSCIENCE, v. 17, p. 12-pg., . (22/06701-0, 19/25295-0)
MARREIROS, A. C.; MILANEZ, M. I. O.; CARVALHAL, R. S.; NISHI, E. E.; SANTOS, D. D.; GIL, C. D.; LANTYER, R.; KNUEPFER, M. M.; BERGAMASCHI, C. T.; CAMPOS, R. R.. Renal nerve afferents drive preferential renal sympathoexcitation in response to acute renal ischemia/reperfusion in rats. AUTONOMIC NEUROSCIENCE-BASIC & CLINICAL, v. 259, p. 11-pg., . (19/25295-0)