Gamma-aminobutyric acid(A) (GABA(A)) receptors (GABA(A)R) are inhibitory heteropentameric chloride ion channels comprising a variety of subunits and are localized at postsynaptic sites within the central nervous system. In this study we present the first detailed immunohistochemical investigation on the regional, cellular, and subcellular localisation of alpha(1), alpha(2), alpha(3), beta(2,3), and gamma(2) subunits of the GABA(A)R in the human substantia nigra (SN). The SN comprises two major regions, the SN pars compacta (SNc) consisting of dopaminergic projection neurons, and the SN pars reticulata (SNr) consisting of GABAergic parvalbumin-positive projection neurons. The results of our single- and double-labeling studies demonstrate that in the SNr GABA(A) receptors contain alpha(1), alpha(3), beta(2,3), and gamma(2) subunits and are localized in a weblike network over the cell soma, dendrites, and spines of SNr parvalbumin-positive nonpigmented neurons. By contrast, GABA(A)Rs on the SNc dopaminergic pigmented neurons contain predominantly alpha(3) and gamma(2) subunits; however there is GABA(A)R heterogeneity in the SNc, with a small subpopulation (6.5%) of pigmented SNc neurons additionally containing alpha(1) and beta(2,3) GABA(A)R subunits. Also, in the SNr, parvalbumin-positive terminals are adjacent to GABA(A)R on the soma and proximal dendrites of SNr neurons, whereas linear arrangements of substance P-positive terminals are adjacent to GABA(A) receptors on all regions of the dendritic tree. These results show marked GABA(A)R subunit hetereogeneity in the SN, suggesting that GABA exerts quite different effects on pars compacta and pars reticulata neurons in the human SN via GABA(A) receptors of different subunit configurations.
Background Parkinson's disease is a progressive neurodegenerative disorder that results in the widespread loss of select classes of neurons throughout the nervous system. The pathological hallmarks of Parkinson's disease are Lewy bodies and neurites, of which α‐synuclein fibrils are the major component. α‐Synuclein aggregation has been reported in the gut of Parkinson's disease patients, even up to a decade before motor symptoms, and similar observations have been made in animal models of disease. However, unlike the central nervous system, the nature of α‐synuclein species that form these aggregates and the classes of neurons affected in the gut are unclear. We have previously reported selective expression of α‐synuclein in cholinergic neurons in the gut (J Comp Neurol. 2013; 521:657), suggesting they may be particularly vulnerable to degeneration in Parkinson's disease. Methods In this study, we used immunohistochemistry to detect α‐synuclein oligomers and fibrils via conformation‐specific antibodies after rotenone treatment or prolonged exposure to high [K+] in ex vivo segments of guinea‐pig ileum maintained in organotypic culture. Key Results Rotenone and prolonged raising of [K+] caused accumulation of α‐synuclein fibrils in the axons of cholinergic enteric neurons. This took place in a time‐ and, in the case of rotenone, concentration‐dependent manner. Rotenone also caused selective necrosis, indicated by increased cellular autofluorescence, of cholinergic enteric neurons, labeled by ChAT‐immunoreactivity, also in a concentration‐dependent manner. Conclusions & Inferences To our knowledge, this is the first report of rotenone causing selective loss of a neurochemical class in the enteric nervous system. Cholinergic enteric neurons may be particularly susceptible to Lewy pathology and degeneration in Parkinson's disease.
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