Dopamine neurons grafted unilaterally to the nucleus accumbens affect drug-induced circling and locomotion (original) (raw)
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Neuroscience, 1993
This study compares the behavioural efficiency of dopaminergic mesencephalic neurons implanted into the rat neostriatum and/or the nucleus accumbens. The dopaminergic mesotelencephalic pathway was unilaterally destroyed by injection of 6-hydroxydopamine into the medial forebrain bundle at the level of the lateral hypothalamus. Three weeks later, embryonic dopaminergic mesencephalic neurons were implanted into the denervated neostriatum, or the nucleus accumbens or into both locations (double grafts). All animals were tested over a four month period for amphetamine-and apomorphineinduced rotation, apomorphine-induced locomotor activity, and on a skilled paw reaching task. The characteristic ipsilateral rotation induced by amphetamine observed in lesioned animals was significantly reduced by neostriatal and double grafts, but persisted in animals with grafts in the nucleus accumbens alone. Four months after grafting, an overcompensation of rotation was observed for the neostriatal and double grafted animals, which now rotated contralaterally, i.e. away from the grafted side.
Annals of the New York Academy of Sciences, 1987
The nucleus accumbens septi (NAS) receives a major innervation from A10 ventral tegmental neurons of the mesolimbic dopaminergic system and is considered to act as an interface between limbic and striatal sensorimotor structures. The NAS has been proposed to act as an "amplifier" in locomotor behaviors because dopamine (DA) injections into the NAS induce locomotion, and because local 6-hydroxydopamine (6-OHDA) lesions of the NAS can block the increases in locomotor or rotational behavior caused by peripheral amphetamine injection. Unilateral lesions of the ascending mesostriatal DA pathway (indicated here as MS lesion) produce rotational asymmetry characterized by ipsilateral rotation (toward side with the lesion) that can be increased by giving amphetamine. Moore and Kelly',* have suggested that in this MS lesion rotational paradigm, depletion of DA in the caudate-putamen is responsible for the postural asymmetry and direction of rotation, whereas levels of DA in the NAS determine the magnitude or speed of rotation. In addition, Moore and Kelly',2 proposed that the NAS complex acts only as an "amplifier" in turning behavior, such that an asymmetry of the NAS system alone will not cause turning.
Psychopharmacology, 1988
Lesion studies employing 6-hydroxydopamine (6-OHDA) suggest that locomotor hyperactivity induced by certain stimulant drugs is dependent on dopaminergic neurotransmission in the nucleus accumbens (NACC). However, studies to date have not adequately controlled for the reported effects of 6-OHDA on baseline (non-drug) activity and on DA levels in other terminal regions. Slow bilateral infusions of 6-OHDA into the NACC, but not into olfactory tubercle (OT) or medial prefrontal cortex (mPFCx), reduced d-amphetamine (0.5 mg/kg SC) hyperactivity and resulted in a "supersensitive" (hyperactive) response to a low dose of apomorphine (0.1 mg/kg SC) in photocell cages. Direct observation revealed no behavioral changes in OT lesioned rats challenged with apomorphine which might correspond to a "denervation supersensitivity" syndrome. Assays of DA and 5-hydroxytryptamine (5-HT) in mPFCx, OT, NACC, and caudate-putamen revealed that 6-OHDA infusion into NACC caused substantial DA loss in NACC, OT and mPFCx, whereas infusion at mPFCx or OT sites depleted DA locally (>85% loss) with little or no remote change. Concentrations of 5-HT were little altered by 6-OHDA, except for a local depletion in mPFCx. The present results confirm the importance of nucleus accumbens DA in the expression of locomotor stimulation induced by apomorphine and d-amphetamine, and suggest that the mPFCx and OT do not make an important contribution.
Brain Research, 1991
Rats received fetal dopaminergic neuronal grafts in the striatum and/or substantia nigra ipsilateral to a 6-hydroxydopamine (6-OHDA) lesion of the medial forebrain bundle (MFB). Dopaminergic grafts in the striatum substantially and significantly reduced turning elicited by the selective D~ agonist SKF 38393, but did not reduce turning elicited by the selective D2 agonist LY 171555. Thus, reduced turning in such grafted animals in response to non-selective dopaminergic agonists may be the result of diminished D t supersensitivity. Fetal dopaminergic grafts in the ipsilateral substantia nigra (SN) did not augment the decreases in turning produced by concomitant ipsilateral dopaminergic grafts in the striatum in response to SKF 38393, LY 171555, D-amphetamine or L-DOPA. Dopaminergic grafts in the SN increased, while dopaminergic grafts in the striatum or in striatum and SN decreased, the facilitatory effect of D-amphetamine on rotation elicited by subsequent injection of dopamine agonists.
Brain Research, 1986
Mice were first administered intrastriatal injections of 6-hydroxydopamine and subsequently a sub-group was given neural cell suspension grafts prepared from 14-day-old fetal ventral mesencephalic mouse tissue. Six and 8 weeks after transplantation the mice in the grafted group exhibited a significant reduction in amphetamine-induced turning behaviour towards the lesioned side compared to non-grafted lesioned controls. Six of the 7 mice that had surviving grafts containing histofluorescent dopamine neurons eventually showed a reversed motor side bias with more amphetamine-induced turning in a direction away from the transplant.
Neuroscience, 1991
The effect of treatment for 5 weeks with L-DOPA (200 mg/kg/24 h) plus carbidopa (25 mg/kg/24 h) on the behavioural recovery produced by rat fetal ventral mesencephalon grafts implanted into the striatum of 6-hydroxydopamine-lesioned rats was assessed. Animals with unilateral 6-hydroxydopamine lesions of the nigrostriatal pathway and a sham graft (Group A) showed persistent high rates of rotation in response to the administration of apomorphine (0.5 mg/kg, s.c.) (contralateral rotation) or (+)-amphetamine (5 mg/kg, i.p.) (ipsilateral rotation). Treatment of sham-grafted animals with L-DOPA plus carbidopa had no effect on the rate of rotation to apomorphine or (+)-amphetamine (Group B). The proportion of animals showing marked stereotypy following apomorphine administration was greater in sham-grafted animals receiving L-DOPA and carbidopa than in sham-grafted animals alone. Animals receiving unilateral 6-hydroxydopamine lesions followed by a fetal graft (Group C) showed a reduction in apomorphine-induced contralateral rotation and a complete reversal of (+)-amphetamine-induced ipsilateral rotation when assessed 6 weeks later. The reductions in apomerphine-and (+)-amphetamineinduced rotational behaviour produced by the fetal graft in animals with a 6-hydroxydopamine lesion were not altered by treatment with L-DOPA plus carbidopa (Group D). The proportion of animals showing marked apomorphine-induced stereotypy did not change significantly in either group over time. In rats with a unilateral 6-hydroxydopamine lesion receiving fetal dopamine grafts, treatment with high doses of L-DOPA and carbidopa for 5 weeks does not have a detrimental effect on the functional activity of the grafts as assessed by reduction of apomorphine-and (+)-amphetamine-induced motor asymmetry. The continuation of L-DOPA therapy may not adversely affect fetal graft survival and growth in patients with Parkinson's disease.
Neuroscience, 1993
We have examined whether dopaminergic mesencephalic grafts implanted into neonates can provide more extensive protection against deficits induced by a subsequent unilateral lesion of the mesotelencephalic dopaminergic pathway than when the grafts are implanted in adulthood. A dopaminerich neuronal cell suspension obtained from embryonic day 14 mesencephali was injected unilaterally into the n~st~at~ of otherwise intact neonatal or adult rats at one day or two months of age, respectively. Two months later, the ipsilateral mesotelencephalic dopaminergic pathway was destroyed by unilateral injection of 6-hydroxydopamine. The behavioural effects of the grafts were evaluated in tests of drug-induced rotation and skilled paw reaching. After completion of the behavioural testing, animals were killed and brains were processed for tyrosine hydroxylase immunohistochemistry.
European Journal of Neuroscience, 1990
The present study examined the role of graft placement and behavioural task complexity in determining the functional efficacy of intrastriatal grafts of dopamine-rich fetal ventral mesencephalon (VM) placed in the dopamine (DA) depleted striatum. The functional effects of two different striatal placements of VM grafts were evaluated using tests of drug-induced motor asymmetry, simple sensorimotor orienting response, and a more complex sensorimotor integrative task (disengage behaviour), in which the rat has to perform the orienting response while in the act of eating. Rats with complete unilateral 6-hydroxydopamine (6-OHDA) lesions of the mesostriatal DA pathway, received either implants of dissociated fetal VM in the central or ventrolateral portions of the denervated striatum. Nongrafted lesioned rats served as controls. Nine weeks after grafting, the rats were tested on separate days for disengage behaviour, sensorimotor orientation, and arnphetamineinduced rotational behaviour. Consistent with previous findings, the two graft placements had differential effects on drug-induced motor asymmetry and sensorimotor responses: the centrally placed VM grafts reversed amphetamine-induced rotational asymmetry but had little effect on the sensorimotor deficit, whereas the ventrolaterally placed grafts reversed the sensorimotor orientation deficits without any effect on the druginduced rotation. In contrast, fetal VM grafts, regardless of their placement, did not ameliorate the observed deficits in disengage behaviour; that is the grafted rats that had recovered their sensorimotor response in the absence of food were unable to perform the same orienting response while eating. These results provide evidence that functional intrastriatal VM grafts which are capable of restoring sensorimotor responses or motor asymmetry fail to affect lesion-induced deficits in a task that requires more complex sensorimotor integration. It is suggested that the degree of anatomical integration of the grafted DA neurons into the host circuitry will determine the efficacy of the grafts to influence more complex sensorimotor integrative deficits in the DA lesion model.