J Wong scite author profile

Nigrostriatal dopaminergic neurons undergo sprouting around the margins of a striatal wound. The mechanism of this periwound sprouting has been unclear. In this study, we have examined the role played by the macrophage and microglial response that follows striatal injury. Macrophages and activated microglia quickly accumulate after injury and reach their greatest numbers in the first week. Subsequently, the number of both cell types declines rapidly in the first month and thereafter more slowly. Macrophage numbers eventually cease to decline, and a sizable group of these cells remains at the wound site and forms a long-term, highly activated resident population. This population of macrophages expresses increasing amounts of glial cell line-derived neurotrophic factor mRNA with time. Brain-derived neurotrophic factor mRNA is also expressed in and around the wound site. Production of this factor is by both activated microglia and, to a lesser extent, macrophages. The production of these potent dopaminergic neurotrophic factors occurs in a similar spatial distribution to sprouting dopaminergic fibers. Moreover, dopamine transporter-positive dopaminergic neurites can be seen growing toward and embracing hemosiderin-filled wound macrophages. The dopaminergic sprouting that accompanies striatal injury thus appears to result from neurotrophic factor secretion by activated macrophages and microglia at the wound site.

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Reduced BDNF mRNA Expression in the Parkinson's Disease Substantia Nigra

Howells

Porritt

Wong

et al. 2000

Experimental Neurology

419

268

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Phenotypic Characterization of an α₄ Neuronal Nicotinic Acetylcholine Receptor Subunit Knock-Out Mouse

et al. 2000

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Neuronal nicotinic acetylcholine receptors (nAChR) are present in high abundance in the nervous system (Decker et al., 1995). There are a large number of subunits expressed in the brain that combine to form multimeric functional receptors. We have generated an alpha(4) nAChR subunit knock-out line and focus on defining the behavioral role of this receptor subunit. Homozygous mutant mice (Mt) are normal in size, fertility, and home-cage behavior. Spontaneous unconditioned motor behavior revealed an ethogram characterized by significant increases in several topographies of exploratory behavior in Mt relative to wild-type mice (Wt) over the course of habituation to a novel environment. Furthermore, the behavior of Mt in the elevated plus-maze assay was consistent with increased basal levels of anxiety. In response to nicotine, Wt exhibited early reductions in a number of behavioral topographies, under both unhabituated and habituated conditions; conversely, heightened levels of behavioral topographies in Mt were reduced by nicotine in the late phase of the unhabituated condition. Ligand autoradiography confirmed the lack of high-affinity binding to radiolabeled nicotine, cytisine, and epibatidine in the thalamus, cortex, and caudate putamen, although binding to a number of discrete nuclei remained. The study confirms the pivotal role played by the alpha(4) nAChR subunit in the modulation of a number of constituents of the normal mouse ethogram and in anxiety as assessed using the plus-maze. Furthermore, the response of Mt to nicotine administration suggests that persistent nicotine binding sites in the habenulo-interpeduncular system are sufficient to modulate motor activity in actively exploring mice.

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Essential fatty acids given from conception prevent topographies of motor deficit in a transgenic model of Huntington’s disease

et al. 2002

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Targeted Expression of a Toxin Gene to D1 Dopamine Receptor Neurons byCre-Mediated Site-Specific Recombination

et al. 1998

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Idiopathic Parkinson's disease involves the loss of midbrain dopaminergic neurons, resulting in the presynaptic breakdown of dopaminergic transmission in the striatum. Huntington's disease and some neurodegenerative diseases with Parkinsonian features have postsynaptic defects caused by striatal cell death. Mice were generated in which an attenuated form of the diphtheria toxin gene (tox-176) was expressed exclusively in D1 dopamine receptor (D1R)-positive cells with the aim of determining the effect of this mutation on development of the basal ganglia and on the locomotor phenotype. Transgenic mice expressing Cre, a site-specific DNA recombinase, were crossed with a second line in which a transcriptionally silenced tox-176 gene was inserted into the D1R gene locus by homologous recombination. Young doubly transgenic mutant mice expressing the tox-176 gene displayed bradykinesia, dystonia, and had falls caused by myoclonic jerks. The mutant brain had evidence of apoptosis and reactive gliosis and, consistent with the D1R expression pattern, the striatum was reduced in volume, and the Islands of Calleja were absent. In contrast, the cortex was of normal thickness. D1Rs were not detectable in mutants by in situ hybridization or ligand autoradiography, whereas D2 dopamine receptor (D2R) mRNA and protein was present in the striatum. In addition, substance P and dynorphin, neuropeptides known to be expressed in D1R-positive striatonigral projection neurons were not detectable. Enkephalin, a marker found in D2-positive striatopallidal projection neurons was expressed in the mutant brain. The mutant represents a novel neurodegenerative disease model with a dramatic extrapyramidal phenotype.

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Effect of Chronic Angiotensin‐Converting Enzyme Inhibition on Striatal Dopamine Content in the MPTP‐Treated Mouse

Jenkins

Wong

Howells

et al. 1999

Journal of Neurochemistry

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Abstract:We have previously shown that chronic treatment with the angiotensin-converting enzyme inhibitor perindopril increased striatal dopamine levels by 2.5-fold in normal Sprague-Dawley rats, possibly via modulation of the striatal opioid or tachykinin levels. In the present study, we investigated if this effect of perindopril persists in an animal model of Parkinson's disease, the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated mouse. C57BL/6 mice were treated with the neurotoxin (30 mg/ kg/day intraperitoneally) for 4 days and then left for 3 weeks to allow the degeneration of striatal dopaminergic terminals. At this time, the mice exhibited a 40% decrease in striatal dopamine content and an accompanying 46% increase in dopamine D 2 receptor levels compared with control untreated mice. The dopamine content returned to control levels, and the increase in dopamine D 2 receptor levels was attenuated in mice treated with perindopril (5 mg/kg/day orally for 7 days) 2 weeks after the last dose of MPTP. When the angiotensin-converting enzyme inhibitor was administered (5 mg/kg/day for 7 days) immediately after the cessation of the MPTP treatment, there was no reversal of the effect of the neurotoxin in decreasing striatal dopamine content. Our results demonstrate that perindopril is an effective agent in increasing striatal dopamine content in an animal model of Parkinson's disease. Key Words: Angiotensin-converting enzyme inhibitor-Parkinson's disease -Striatum.

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Expression of glial cell line-derived neurotrophic factor (GDNF) mRNA following mechanical injury to mouse striatum

et al. 1997

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Although glial cell line-derived neurotrophic factor (GDNF) expression is low in the adult brain, its administration protects dopaminergic neurons against a range of insults, leading to the suggestion of a role in dopaminergic regeneration. If locally produced GDNF is to fulfil a role in dopaminergic regeneration after injury, it seems reasonable to hypothesize that its expression will increase after mechanical trauma. We have demonstrated that GDNF mRNA expression increases within 6 h of using a wire knife to injure adult mouse striatum. Expression doubles after 1 week and remains elevated for at least 1 month. Most GDNF expression is associated with haemosiderin-containing cells, indicating production by brain macrophages. GDNF production by macrophages may be essential for neural regeneration following CNS trauma.

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Sprouting of Dopaminergic Axons after Striatal Injury: Confirmation by Markers Not Dependent on Dopamine Metabolism

Liberatore

Finkelstein

Wong

et al. 1999

Experimental Neurology

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J Wong

Activated Macrophages and Microglia Induce Dopaminergic Sprouting in the Injured Striatum and Express Brain-Derived Neurotrophic Factor and Glial Cell Line-Derived Neurotrophic Factor

Reduced BDNF mRNA Expression in the Parkinson's Disease Substantia Nigra

Phenotypic Characterization of an α₄ Neuronal Nicotinic Acetylcholine Receptor Subunit Knock-Out Mouse

Essential fatty acids given from conception prevent topographies of motor deficit in a transgenic model of Huntington’s disease

Targeted Expression of a Toxin Gene to D1 Dopamine Receptor Neurons byCre-Mediated Site-Specific Recombination

Effect of Chronic Angiotensin‐Converting Enzyme Inhibition on Striatal Dopamine Content in the MPTP‐Treated Mouse

Expression of glial cell line-derived neurotrophic factor (GDNF) mRNA following mechanical injury to mouse striatum

Sprouting of Dopaminergic Axons after Striatal Injury: Confirmation by Markers Not Dependent on Dopamine Metabolism

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J Wong

Activated Macrophages and Microglia Induce Dopaminergic Sprouting in the Injured Striatum and Express Brain-Derived Neurotrophic Factor and Glial Cell Line-Derived Neurotrophic Factor

Reduced BDNF mRNA Expression in the Parkinson's Disease Substantia Nigra

Phenotypic Characterization of an α4 Neuronal Nicotinic Acetylcholine Receptor Subunit Knock-Out Mouse

Essential fatty acids given from conception prevent topographies of motor deficit in a transgenic model of Huntington’s disease

Targeted Expression of a Toxin Gene to D1 Dopamine Receptor Neurons byCre-Mediated Site-Specific Recombination

Effect of Chronic Angiotensin‐Converting Enzyme Inhibition on Striatal Dopamine Content in the MPTP‐Treated Mouse

Expression of glial cell line-derived neurotrophic factor (GDNF) mRNA following mechanical injury to mouse striatum

Sprouting of Dopaminergic Axons after Striatal Injury: Confirmation by Markers Not Dependent on Dopamine Metabolism

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Phenotypic Characterization of an α₄ Neuronal Nicotinic Acetylcholine Receptor Subunit Knock-Out Mouse