DnaJ/Hsp40 chaperones determine the activity of Hsp70s by stabilizing their interaction with substrate proteins. We have predicted, based on the in silico analysis of a brain-derived whole-genome transcriptome data set, an increased expression of DnaJ/Hsp40 homologue, subfamily B, member 6 (DnaJB6) in Parkinson's disease (PD; Moran et al. [2006] Neurogenetics 7:1-11). We now show that DnaJB6 is a novel component of Lewy bodies (LBs) in both PD substantia nigra and PD cortex and that it is strongly up-regulated in parkinsonian astrocytes. The presence of DnaJB6 in the center of LBs suggests an early and direct involvement of this chaperone in the neuronal disease process associated with PD. The strong concomitant expression of DnaJB6 in astrocytes emphasizes the involvement of glial cells in PD and could indicate a route for therapeutic intervention. Extracellular alpha-synuclein originating from intravesicular alpha-synuclein is prone to aggregation and the potential source of extracellular aggregates (Lee [2008] J. Mol. Neurosci. 34:17-22). The observed strong expression of DnaJB6 by astrocytes could reflect a protective reaction, so reducing the neuronal release of toxic alpha-synuclein and supporting the astrocyte response in PD might limit the progression of the disease process.
We report the presence in rat spinal cord of a novel neuronal system expressing tyrosine kinase receptor (trkA), the high affinity receptor for nerve growth factor (NGF). TrkA immunoreactive cell bodies were observed in the intermediate grey matter of the spinal cord and were classified into three main groups: central canal cells located dorsolateral to the aqueduct, partition cells located between lamina X, and the lateral border of the intermediate grey, and a morphologically heterogeneous group which included large cells located near the lateral border. In situ hybridization confirmed that cells in all these areas express trkA mRNA. Combined immunofluorescence and retrograde Fluoro-Gold labelling was used to further characterise the projections and neurotransmitter profile of the trkA cells. Although often located in the vicinity of preganglionic cell groups, trkA immunoreactive cells are not themselves preganglionic. Rather, the central canal and partition cells belong to a neurochemically complex cholinergic propriospinal system. Many partition cells coexpress trkA, choline acetyltransferase (ChAT), the low affinity neurotrophin receptor, p75, and nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d). In contrast, trkA immunoreactive central canal cells express ChAT, but do not express p75 and only a subpopulation express NADPH-d. The large trkA immunoreactive cells located on the lateral border do not express ChAT. TrkA immunoreactive fibres were also present and were located in the dorsal horn, in the dorsal columns, and in a bundle ventral to the aqueduct. However, double labelling revealed that the trkA immunoreactive fibres are not intrinsic but are primary afferent in origin and coexpress p75. The location of this novel trkA neuronal system is consistent with it having a role in the segmental integration of autonomic outflow. NGF could affect this system by modulating neuronal phenotype and/or synaptic efficacy.
We report the presence in rat spinal cord of a novel neuronal system expressing tyrosine kinase receptor (trkA), the high affinity receptor for nerve growth factor (NGF). TrkA immunoreactive cell bodies were observed in the intermediate grey matter of the spinal cord and were classified into three main groups: central canal cells located dorsolateral to the aqueduct, partition cells located between lamina X, and the lateral border of the intermediate grey, and a morphologically heterogeneous group which included large cells located near the lateral border. In situ hybridization confirmed that cells in all these areas express trkA mRNA. Combined immunofluorescence and retrograde Fluoro-Gold labelling was used to further characterise the projections and neurotransmitter profile of the trkA cells. Although often located in the vicinity of preganglionic cell groups, trkA immunoreactive cells are not themselves preganglionic. Rather, the central canal and partition cells belong to a neurochemically complex cholinergic propriospinal system. Many partition cells coexpress trkA, choline acetyltransferase (ChAT), the low affinity neurotrophin receptor, p75, and nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d). In contrast, trkA immunoreactive central canal cells express ChAT, but do not express p75 and only a subpopulation express NADPH-d. The large trkA immunoreactive cells located on the lateral border do not express ChAT. TrkA immunoreactive fibres were also present and were located in the dorsal horn, in the dorsal columns, and in a bundle ventral to the aqueduct. However, double labelling revealed that the trkA immunoreactive fibres are not intrinsic but are primary afferent in origin and coexpress p75. The location of this novel trkA neuronal system is consistent with it having a role in the segmental integration of autonomic outflow. NGF could affect this system by modulating neuronal phenotype and/or synaptic efficacy.
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