Flow cytometric analysis and isolation of permeabilized dopamine nerve terminals from rat striatum.
Fluorescence-activated cell sorting (FACS) was used to identify and isolate permeabilized dopaminergic nerve terminals from rat striatum based on immunofluorescent labeling of tyrosine hydroxylase ( TH). Striatal synaptosomes were permeabilized by fixation with modified Zamboni fluid. A highly fluorescent subpopulation of particles was detected by FACS following sequential incubation with a monoclonal antibody to TH (LNC 1) and a fluorescein-conjugated secondary antibody. After correcting for nonsynaptosomal particles present in the synaptosomal fraction, analysis of these data suggested that approximately 12-15% of striatal synaptosomes were dopaminergic, consistent with previous estimates. Specific labelling by LNC 1 was decreased if synaptosomes were prepared from rats that had received intraventricular injections of 6-hydroxydopamine. The decrease in labeling was highly correlated with the extent of the lesion as determined by measurement of striatal dopamine levels, suggesting that LNC 1-labeled synaptosomes were derived from nigrostriatal dopamine terminals. In order to verify that LNC 1-labeled synaptosomes were enriched for TH, equal numbers of labeled and control synaptosomes were isolated by FACS and analyzed by SDS-PAGE. LNC 1-labeled synaptosomes were shown by Western blot techniques to be enriched 6-fold for TH compared with control synaptosomes, suggesting that the labeled population consisted almost entirely of dopaminergic synaptosomes.[1]References
- Flow cytometric analysis and isolation of permeabilized dopamine nerve terminals from rat striatum. Wolf, M.E., Kapatos, G. J. Neurosci. (1989) [Pubmed]
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