The standard tests commonly used for this purpose in 6-OHDA-lesio

The standard tests commonly used for this purpose in 6-OHDA-lesioned rats, the cylinder and stepping tests and amphetamine-induced rotation, were found to be less useful as tools to monitor lesion severity in mice. Based

on the present data we have devised a set of behavioural criteria that can be used to distinguish between mice with varying degrees of cell loss induced by 6-OHDA lesions of the nigrostriatal pathway. http://www.selleckchem.com/Androgen-Receptor.html Our study is the first to characterise in detail the intranigral 6-OHDA lesion model in the mouse. The commonly used drug-induced rotation tests, cylinder test and stepping test were evaluated and compared, along with a novel task, the corridor task, for the assessment of sensorimotor deficits

on the side opposite to the lesion. The results confirm the usefulness of the intranigral lesion model in mice. The intranigral 6-OHDA lesion compares favourably with available alternatives, i.e. injections of 6-OHDA into the MFB, which are highly effective but complicated by a high death rate among the injected mice, and injections of 6-OHDA into the striatum, which tend to be less effective overall in inducing stable and severe behavioural deficits. Due to the small size of the mouse brain the 6-OHDA lesions tend to be much more variable in mice than in rats, regardless of the injection site. This is a serious problem in experimental studies, VX-809 in vitro particularly in studies that involve functional recovery over time, where profound and stable baseline deficits are important. In 6-OHDA-lesioned rats behavioural tests (most commonly amphetamine or apomorphine rotation) are generally used to preselect animals that exhibit

sufficiently severe nigrostriatal lesions to be included in the study. Similar selection criteria have so far been lacking for Decitabine 6-OHDA-lesioned mice. In the mild lesion group the average loss of TH+ neurons in the SN was 72%. These animals showed no deficits in any of the behavioural tests, which may be explained by the fact that the VTA remained largely intact (mean cell loss 17%). As a consequence, the overall density of the TH+ innervation in the striatum was only reduced by 36%, insufficient to induce any detectable deficits in either drug-induced or spontaneous motor tests. Inspection of the scatter plots in Fig. 5 and supporting Figs S1 and S2 suggests that significant motor asymmetry in the apomorphine and amphetamine rotation tests, and significant deficits in the corridor test, are seen only in mice with > 60% loss of striatal TH+ innervation (dorsal and ventral parts combined, including NAc), caused by the loss of > 75% of the TH+ cells in the SN and a > 20% loss of TH+ cells in the VTA. Only apomorphine-induced rotation and the corridor task were able to further subdivide mice with more extensive lesions and distinguish between the intermediate and severe lesion groups.

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