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Τρίτη 19 Ιουνίου 2018

Behavioral and neurochemical responses derived from dopaminergic intrastriatal grafts in hemiparkinsonian rats engaged in a novel motor task

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Publication date: Available online 18 June 2018
Source:Journal of Neuroscience Methods
Author(s): Parnit K. Bhupal, Kevin A. Anderson, Gabrielle P. Shall, Jonathan D. Lynn, Katrina S. Hoolsema, Julien Rossignol, Gary L. Dunbar, Michael I. Sandstrom
BackgroundPutative treatments derived from in-vivo stem cell transplant derived dopamine (DA) assessed with hemiparkinsonian rats have been assessed via DA-agonist-induced rotations involving imbalanced intra-hemispheric striatal DA receptor stimulation. However, such tests obscure the natural responses of grafts to sensory stimuli, and drug-induced plasticity can modify the circuit being tested. Thus, we propose an alternative testing strategy using a novel water tank swimming apparatus.New methodMicrodialysis was used to compare striatal DA levels when rats were: (1) in a rest-phase within a bowl-shaped apparatus, or (2) in an active forced-swim phase within a specially-equipped water tank. Resting-phase DA release levels were compared with active-phase levels obtained while rats were required to swim in the water-tank task. Behavioral variables such as asymmetric circling swimming (rotations), front limb strokes, and front limb reaches were captured by a camera for analysis.Results and comparison with existing methodsTransplanted cells had a very modest effect on percentage of contralateral front limb strokes, but did not reduce lesion-induced rotational asymmetry in the swim task. Neither striatal DA levels, nor their breakdown products, were significantly different between transplanted and sham-transplanted groups. Our new behavioral test eliminates the need for pharmacological stimulation, enabling simultaneous assessment of DA released in resting and active phases to explore graft control.ConclusionsOur new method allows for accurate assessments of stem cell therapy for PD as an alternative to "rotation" tests. Use of natural motivations to engage in sensory-driven motor tasks provides more accurate insights into ongoing graft-derived behavioral support.



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