Dopamine synthesis by non-dopaminergic neurons expressing individual complementary enzymes of the dopamine synthetic pathway in the arcuate nucleus of fetal rats

Abstract

This study was aimed to test our hypothesis about dopamine (DA) synthesis by non-DAergic neurons expressing individual complementary enzymes of the DA synthetic pathway in cooperation, i.e. l-dihydroxyphenylalanine ( l-DOPA) synthesized in tyrosine hydroxylase (TH)-expressing neurons is transported to aromatic l-amino acid decarboxylase (AADC)-expressing neurons for conversion to DA [Psychoneuroendocrinology 27 (2002) 533]. The mediobasal hypothalamus of rats at the 21st embryonic day was used as an experimental model because it contains mainly monoenzymatic TH neurons and AADC neurons (>99%) whereas the fraction of bienzymatic (DAergic) neurons does not exceed 1% [J Comp Neurol 425 (2000) 167; J Comp Neurol 446 (2002) 114]. The fetal substantia nigra containing DAergic neurons served as a control. DA and l-DOPA were measured by high performance liquid chromatography in: (1) cell extracts of the cell suspension prepared ex tempora; (2) cell extracts and incubation medium after the static incubation of the cell suspension with, or without exogenous l-tyrosine; (3) effluents of the incubation medium during perifusion of the cell suspension in the presence, or the absence of l-tyrosine. Total amounts of DA and l-DOPA in the incubation medium and cell extracts after the static incubation were considered as the indexes of the rates of their syntheses. l-Tyrosine administration caused the increased l-DOPA synthesis in the mediobasal hypothalamus and substantia nigra. Moreover, l-tyrosine provoked an increase of DA synthesis in the substantia nigra and its decrease in the mediobasal hypothalamus. This contradiction is most probably explained by the l-tyrosine-induced competitive inhibition of the l-DOPA transport to the monoenzymatic AADC-neurons after its release from the monoenzymatic TH neurons. Thus, this study provides convincing evidence of cooperative DA synthesis by non-DAergic neurons expressing TH or AADC in fetal rats at the end of the intrauterine development.