Abstract

Objective: An overactive glutamatergic projection from the subfornical organ (SFO) to the paraventricular nucleus (PVN) is associated with the development of hypertension. Despite this, the functional relationship of this pathway under normotensive conditions remains poorly defined within the literature. Without this knowledge, it remains unknown if a dysfunction of this pathway is the underlying cause of hypertension or rather simply a consequence of the underlying hypertensive disease pathology. As such, the aim of this study is to identify the short-term function of the SFO and PVN pathway under normotensive conditions. Design and Methods: An optogenetic viral vector (pAAV-CaMKIIa-hChR2 (H134R)-EYFP) was microinjected into the SFO of Lewis rats (n = 5). Three weeks later, rats were anaesthetised and instrumented to record blood pressure and sympathetic nerve activity, administer intravenous drugs and to photo-stimulate glutamatergic SFO neurons. Results: Photostimulation of glutamatergic SFO neurons produced a pressor response that was abolished by inhibition of neuronal transmission within the PVN (9 ± 1mmHg vs 3 ± 1mmHg peak change from baseline, baseline vs PVN inhibition, n = 2 rats, 3 replicates per rat). In a separate cohort (n = 3 rats, 5 replicates per rat), we determined if the pressor response elicited was dependant on the sympathetic nervous system and/or the release of the vasoactive hormone vasopressin. Blockade of sympathetic vasomotor outflow attenuated the pressor response by 76%, whereas combined inhibition of sympathetic outflow and vasopressin 1a receptors attenuated the pressor response by 88%. Finally, photostimulation of glutamatergic SFO neurons led to a peak increase in sympathetic nerve activity (n = 2) that was abolished by phenylephrine administration, suggesting that the neuronal circuitry underpinning this response is barosensitive. Conclusions: This study demonstrates that the pressor response elicited by glutamatergic SFO neurons is dependent on the PVN and is largely mediated by the sympathetic nervous system via barosensitive neuronal circuitry. Chronic activation of this pathway will be undertaken to determine if an overactivation of this neuronal pathway induces hypertension in normotensive animals.

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