Background: It is well established that sympathetic nervous system is responsible for the onset, development and maintenance of neurogenic hypertension. The rostroventrolateral medulla (RVLM) and medullo-cervical pressor area (MCPA) are important central sympathoexcitatory regions whose role on neurogenic hypertension remains unknown.
Objective: To establish RVLM and MCPA roles in the long-term regulation of blood pressure by depressing their neuron activity through the over-expression of hKir2.1-potassium channel in conscious spontaneously hypertensive rats (SHR).
Methods: In SHR, a lentiviral vector LVV-hKir2.1 was microinjected into RVLM or MCPA areas. A sham group was injected with LVV-eGFP. Blood pressure (BP) and heart rate (HR) were continuously monitored for 75 days. Baroreflex and chemoreflex functions were evaluated. Baroreflex gain, chemoreflex sensitivity, BP and HR variability were calculated.
Results: LVV-hKir2.1 expression in RVLM, but not in MCPA, produced a significant time-dependent decrease in systolic, diastolic, mean-BP and LF of systolic BP at 60-days post-injection. No significant changes were seen in LVV-eGFP RVLM injected SHR.
Conclusion: Data show that chronic expression of Kir2.1 in the RVLM of conscious SHR caused a marked and sustained decrease in BP without changes in the baro- and peripheral chemoreceptor reflex evoked responses. This decrease was mostly due to a reduction in sympathetic output revealed indirectly by a decrease in the power density of the SBP-LF band. Our data are amongst the firsts to demonstrate the role of the RVLM in maintaining BP levels in hypertension in conscious SHR. We suggest that a decrease in RVLM neuronal activity is an effective anti-hypertensive treatment strategy.
Keywords: Blood pressure; Hypertension; Lentiviral vector; Potassium channels (Kir2.1); Rostroventrolateral medulla; Spontaneously hypertensive rats (SHR); Sympathetic nervous system.
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