Baroreceptor-aortic nerve-mediated release of endogenous L-3,4-dihydroxyphenylalanine and its tonic depressor function in the nucleus tractus solitarii of rats

Abstract

We have proposed that l-3,4-dihydroxyphenylalanine ( l-DOPA) is a neurotransmitter and/or neuromodulator in the central nervous system [Misu Y. and Goshima Y. (1993) Trends pharmac. Sci. 14, 119–123]. This study aimed to explore whether or not endogenous l-DOPA, as a neurotransmitter candidate of the primary baroreceptor afferents, tonically functions to activate depressor neurons in the nucleus tractus solitarii of anesthetized rats. By parallel microdialysis in bilateral nucleus tractus solitarii areas, the basal l-DOPA release was in part inhibited by tetrodotoxin perfusion (1 μM) or Ca 2+ deprivation, and was markedly reduced by α-methyl- p-tyrosine(200mg/kg, i.p.), a tyrosine hydroxylase inhibitor. Forty to 100 mM K + concentration-dependently released l-DOPA. Fifty millimoles K + repetitively and constantly released l-DOPA. This release was Ca 2+-dependent. Stimulation of the left aortic nerve (100 Hz, 8 V) repetitively and constantly released l-DOPA and this release was tetrodotoxinsensitive. Phenylephrine i.v. infused produced l-DOPA release and reflex bradycardia, temporally associated with a rise and subsequent recovery of blood pressure. This release and bradycardia were abolished by denervation of the bilateral carotid sinus and aortic nerves. In addition, l-DOPA methyl ester, a competitive l-DOPA antagonist, when microinjected into depressor sites of the left nucleus tractus solitarii, antagonized depressor responses to mild stimulation (20 Hz, 3 V) of the ipsilateral aortic nerve. This antagonist alone, microinjected bilaterally, elicited a dose-dependent hypertension, which was abolished by α-methyl- p-tyrosine. Furthermore, by immunocytochemical analysis seven days after denervation of the left aortic nerve, tyrosine hydroxylase- and l-DOPA-, but not dopamine- and dopamine-β-hydroxylase-immunoreactivities decreased in the ipsilateral nucleus tractus solitarii and dorsal motor vagus nucleus complex area. In the left ganglion nodosum, denervation decreased staining and number of l-DOPA-immunoreactive cells and staining of tyrosine hydroxylase-immunoreactive cells, but no modification of dopamine-immunoreactive cells was seen. Taken together with previous findings that l-DOPA itself is stereoselectively responsible for cardiovascular control in this nucleus, it is probable that l-DOPA is a neurotransmitter of the primary baroreceptor afferents terminating directly in depressor neurons and/or indirectly in some neurons within a microcircuit, including depressor neurons of the nucleus tractus solitarii. Endogenously released l-DOPA itself tonically functions to activate depressor neurons for regulation of blood pressure in the rat nucleus tractus solitarii.