Drug-free evaluation of rat models of parkinsonism and nigral grafts using a new automated rotarod test

A variety of tests are available for the evaluation of behavioural deficits in rat models of hemiparkinsonism; many, however, are of limited applicability or insufficiently objective. The drug-induced turning behaviour test is widely used. A disadvantage of this test is that the use of drugs may lead to misleading results. Here, we describe a drug-free rotarod test that was used to evaluate the effects of unilateral 6-hydroxydopamine lesions, nigral grafts, and subrotational doses of apomorphine. The rotarod unit was automated and interfaced to a personal computer allowing automatic recording of the time that each rat was able to stay on the rod at different rotational speeds (i.e., progressively increasing the difficulty of the task). A combination of lesion-induced deficits resembling those of Parkinson's disease appears to be involved in falling from the rod. The test shows high effectiveness for identifying rats with maximal dopaminergic lesions, but is also effective for identifying partial lesions. Rotarod performance profiles were useful for investigating the effects of intrastriatal nigral grafts, since low rotation speeds revealed differences from lesioned rats (i.e., improvements) while higher speeds revealed differences from normal rats (i.e., remaining deficits and partial lesions). The test was effective regardless of whether rats were trained on the rod before lesion, after lesion, or after grafting. Injections of apomorphine (0.0125 and 0.0250 mg/kg) did not induce consistent improvements. These results indicate that the rotarod test is a useful drug-free procedure for overall evaluation of basic motor abilities in rat models of parkinsonism and treatment-induced changes.

[1]  Imms Fj,et al.  Quantitative assessments of gait and mobility in Parkinson's disease. , 1983 .

[2]  D. Abrous,et al.  Dopamine-rich grafts in the neostriatum and/or nucleus accumbens: Effects on drug-induced behaviours and skilled paw-reaching , 1993, Neuroscience.

[3]  W. Freed Substantia nigra grafts and Parkinson's disease: from animal experiments to human therapeutic trials. , 1991, Restorative neurology and neuroscience.

[4]  J L Hudson,et al.  A 16-Channel Automated Rotometer System for Reliable Measurement of Turning Behavior in 6-Hydroxydopamine Lesioned and Transplanted Rats , 1993, Cell transplantation.

[5]  P. Teitelbaum,et al.  Further analysis of sensory inattention following lateral hypothalamic damage in rats. , 1974, Journal of comparative and physiological psychology.

[6]  Asymmetrical orientation to edges of an openfield: modulation by striatal dopamine and relationship to motor asymmetries in the rat , 1994, Brain Research.

[7]  David L. Clark Effects of chronic 2g centrifugation on equilibrium behavior in the rat. , 1974, Behavioral biology.

[8]  N W DUNHAM,et al.  A note on a simple apparatus for detecting neurological deficit in rats and mice. , 1957, Journal of the American Pharmaceutical Association. American Pharmaceutical Association.

[9]  R. Swinson,et al.  Assessment and measurement. , 1995 .

[10]  A. Björklund,et al.  Dopaminergic transplants normalize amphetamine- and apomorphine-induced Fos expression in the 6-hydroxydopamine-lesioned striatum , 1992, Neuroscience.

[11]  G. Paxinos,et al.  The Rat Brain in Stereotaxic Coordinates , 1983 .

[12]  F. Gage,et al.  Intracerebral grafting of neuronal cell suspensions. III. Activity of intrastriatal nigral suspension implants as assessed by measurements of dopamine synthesis and metabolism. , 1983, Acta physiologica Scandinavica. Supplementum.

[13]  G. Nikkhah,et al.  Restoration of complex sensorimotor behavior and skilled forelimb use by a modified nigral cell suspension transplantation approach in the rat parkinson model , 1993, Neuroscience.

[14]  U. Ungerstedt,et al.  Quantitative recording of rotational behavior in rats after 6-hydroxy-dopamine lesions of the nigrostriatal dopamine system. , 1970, Brain research.

[15]  A. Norman,et al.  Long-term sensitization of apomorphine-induced rotation behavior in rats with dopamine deafferentation or excitotoxin lesions of the striatum , 1993, Pharmacology Biochemistry and Behavior.

[16]  J. P. Martin The basal ganglia and posture. , 1967 .

[17]  U. Ungerstedt,et al.  Postsynaptic supersensitivity after 6-hydroxy-dopamine induced degeneration of the nigro-striatal dopamine system. , 1971, Acta physiologica Scandinavica. Supplementum.

[18]  N. Quinn,et al.  Parkinson's disease: clinical features. , 1997, Bailliere's clinical neurology.

[19]  Greg A. Gerhardt,et al.  Correlation of apomorphine- and amphetamine-induced turning with nigrostriatal dopamine content in unilateral 6-hydroxydopamine lesioned rats , 1993, Brain Research.

[20]  T. Schallert,et al.  ‘Disengage’ sensorimotor deficit following apparent recovery from unilateral dopamine depletion , 1988, Behavioural Brain Research.

[21]  S. Dunnett,et al.  The “staircase test”: a measure of independent forelimb reaching and grasping abilities in rats , 1991, Journal of Neuroscience Methods.

[22]  A. Bjo¨rklund,et al.  Monitoring of cell viability in suspensions of embryonic CNS tissue and its use as a criterion for intracerebral graft survival , 1985, Brain Research.

[23]  I. Whishaw,et al.  Dopamine-rich grafts ameliorate whole body motor asymmetry and sensory neglect but not independent limb use in rats with 6-hydroxydopamine lesions , 1987, Brain Research.

[24]  I. Whishaw,et al.  HemiParkinson analogue rats display active support in good limbs versus passive support in bad limbs on a skilled reaching task of variable height. , 1996, Behavioral neuroscience.

[25]  T. Schallert,et al.  A Clinically Relevant Unilateral Rat Model of Parkinsonian Akinesia , 1992, Journal of Neural Transplantation & Plasticity.

[26]  A. Björklund,et al.  Forelimb akinesia in the rat Parkinson model: differential effects of dopamine agonists and nigral transplants as assessed by a new stepping test , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[27]  D. Togasaki,et al.  Dose-dependent lesions of the dopaminergic nigrostriatal pathway induced by instrastriatal injection of 6-hydroxydopamine , 1995, Neuroscience.

[28]  C. Borlongan,et al.  Elevated body swing test: a new behavioral parameter for rats with 6- hydroxydopamine-induced hemiparkinsonism , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[29]  Stephen B. Dunnett,et al.  Functional neural transplantation , 1994 .

[30]  R. Lund,et al.  Amphetamine sensitization of stress-induced turning in animals given unilateral dopamine transplants in infancy , 1990, Brain Research.

[31]  J. Jankovic,et al.  Parkinson's Disease and Movement Disorders , 1988 .

[32]  P. Sanberg,et al.  Sensitization of rotation behavior in rats with unilateral 6-hydroxydopamine or kainic acid-induced striatal lesions , 1990, Pharmacology Biochemistry and Behavior.

[33]  A. Björklund,et al.  Development of intrastriatal striatal grafts and their afferent innervation from the host , 1991, Neuroscience.

[34]  S. Iversen,et al.  Sensorimotor impairments following localized kainic acid and 6-hydroxydopamine lesions of the neostriatum , 1982, Brain Research.

[35]  J. Thibault,et al.  Quantitative image analysis with densitometry for immunohistochemistry and autoradiography of receptor binding sites—methodological considerations , 1991, Journal of neuroscience research.