Pierre Dubedat

Riluzole prevents MPTP-induced parkinsonism in the rhesus monkey: a pilot study

Previous studies have shown that riluzole (2-amino-6-trifluoromethoxy-benzothiazole), a drug which interferes with glutamate neurotransmission, has a neuroprotective action in rodent models of global and focal cerebral ischemia. In this pilot study, the protective and palliative effects of riluzole have been examined using an animal model of Parkinsons disease. Two monkeys were rendered hemiparkinsonian by one intracarotid injection of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), and motor signs were evaluated using clinical examination and electromyographic recordings. When riluzole (4 mg/kg) was administered before the injection of MPTP, parkinsonian motor symptoms, in particular bradykinesia and rigidity, were absent. When injected daily in one monkey which presented stable motor symptoms, bradykinesia and rigidity were significantly reduce d. Riluzole pretreatment induced a persistent increase in dopamine turnover when compared to MPTP alone. Thus, a possible neuroprotection and a facilitation of dopamine release may explain the behavioural effects reported with riluzole treatment. These preliminary results suggest that riluzole could possess neuroprotective and palliative effects in a primate model of Parkinsons disease.

Effects of complete and partial lesions of the dopaminergic mesotelencephalic system on skilled forelimb use in the rat

This study compares certain behavioural consequences of partial and complete unilateral lesions of the dopaminergic mesotelencephalic system. We investigated skilled forelimb use, rotations induced by apomorphine and amphetamine, and dopaminergic metabolism of the nigrostriatal system of rats that had received a unilateral injection of 6-hydroxydopamine into the medial forebrain bundle. The rats classified Apo(+), that rotated after the administration of apomorphine, had a complete lesion of the nigrostriatal system, whereas those classified Apo(-), that did not rotate after the administration of apomorphine, had a partial lesion of the nigrostriatal system. In the Apo(+) rats, 99.8% of the dopamine in the striatum was depleted, as was 85% of that in the substantia nigra. For the Apo(-) rats, 72% of the dopamine in the striatum was depleted as was 56% of that in the substantia nigra. When investigated with the staircase test, the animals with the most severe dopamine depletions were those most impaired in the paw reaching task. Complete and partial unilateral depletions of the dopaminergic mesotelencephalic system impaired the hierarchic phases of paw reaching differently. A complete dopamine depletion, but not a partial one, decreased the number of attempts made with the contralateral paw, and induced a bias towards the ipsilateral paw. A partial dopamine lesion impaired the sensorimotor co-ordination of both paws, whereas the complete dopamine lesion had a greater effect on the contralateral paw than on the ipsilateral paw. The mild paw reaching impairments observed in animals with moderate depletions of dopamine are proposed as a model of the early symptoms of Parkinsons disease that may be useful for the development of protective or restorative therapies.

Neuroprotective effects of riluzole on a model of Parkinson's disease in the rat.

The aim of the present study was to analyse whether riluzole, a compound that interacts with the voltage-dependent sodium channel and impairs glutamatergic transmission, would exhibit a neuroprotective activity in a model of Parkinsons disease in the rat. Impaired skilled forelimb use, circling behavior, and altered dopaminergic metabolism of the mesotelencephalic system were evaluated in unilaterally 6-hydroxydopamine-lesioned rats. Riluzole was administered twice 15 min before, and 24 h after, the lesion. Riluzole reduced both the contralateral rotations induced by apomorphine and the ipsilateral ones elicited by amphetamine. Moreover, the decreased dopaminergic metabolism seen after 6-hydroxydopamine injection was attenuated in the riluzole-treated animals, at both the striatal and nigral levels. These biochemical and behavioral results demonstrate the ability of riluzole partially to protect the degeneration of the nigrostriatal dopaminergic neurons induced by the toxin 6-hydroxydopamine. Perhaps, the most striking evidence for the protective effect of riluzole was that this compound improved the skilled paw use, a complex sensorimotor behavior which is not easily ameliorated by palliative therapies such as dopaminergic grafts. These results extend previous data showing that riluzole counteracts the toxicity induced by 1-methyl-4-1,2,3,6-tetrahydropyridine and 1-methyl-4-phenylpyridinium in rodent dopaminergic neurons. The use of riluzole may be considered of potential interest for the neuroprotective therapy of Parkinsons disease.

Neurotensin effects on evoked release of dopamine in slices from striatum, nucleus accumbens and prefrontal cortex in rat

SummaryThe effects of neurotensin (NT) on the K+-evoked release of endogenous and tritiated dopamine in striatum and on 3H-dopamine in slices from nucleus accumbens and prefrontal cortex were investigated. In striatum, NT (1–1000 nM) elicited a dose-dependent increase in endogenous and 3H-dopamine release. The dose-response curves were comparable with the two methods. Concerning the comparison of NT modulation of 3H-dopamine release in the three cerebral structures, the peptide induced a more marked effect in striatum with a maximal effect of 150% increase. In accumbens, NT (1–1000 nM) potentiated the K+-evoked 3H-dopamine release, but in contrast with striatum, the plateau corresponded to a 50% increase. In prefrontal cortex, NT (1–1000 nM) induced small but significant effects, with a maximal increase of 50% at 100 nM. Acetyl-NT (8–13) displayed an action similar to the natural peptide while NT (1–8) did not exhibit any effect, suggesting that the action of NT involved a receptor. The presence of tetrodotoxin did not alter the facilitating effects of NT in the three structures, indicating that interneurons were not involved in the action of NT. The comparison of the effects of NT showed that in terms of efficacy, NT induced an increase in dopamine release more marked in striatum than in nucleus accumbens and prefrontal cortex. These results are consistent with differences in NT receptors localization in these three dopaminergic structures.

Riluzole and experimental parkinsonism : antagonism of MPTP-induced decrease in central dopamine levels in mice

We have investigated whether riluzole, a compound that interferes with glutamatergic (GLUergic) transmission, would protect central dopaminergic (DAergic) neurones from 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced toxicity in the striatum in mice. MPTP decreased DA, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) levels. Riluzole protected against the MPTP-induced decrease in DA levels. The utilization of DA ([DOPAC+HVA]/DA) was increased after MPTP treatment, but returned to control values in mice given riluzole in combination with MPTP. Riluzole did not confer protection by inhibiting either monoamine oxidase type B activity or DA uptake. Possible mechanisms involved in the protective action of riluzole are discussed. Our results show that riluzole antagonizes the DAergic neurotoxicity of MPTP, a pro-parkinsonian neurotoxin, in mice.

Riluzole and experimental parkinsonism : partial antagonism of MPP+-induced increase in striatal extracellular dopamine in rats in vivo

SUPERFUSION of the rat striatum with 100 μM of 1-methyl-4-phenylpyridinium (MPP+) induced a 70-fold increase in dopamine (DA) release and a decrease in the extracellular levels of 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA). Pretreatment with riluzole (8 mg kg-1, i.p.), a compound that interferes with glutamatergic transmission, partially antagonized the effect of MPP+ on the release of DA, but did not change the effects of this toxin on the efflux of DOPAC and HVA. Riluzole did not affect the increase in DA release induced by MPP+ in vitro. The in vivo efficacy of riluzole on MPP+-induced DA release could be due to its central interference with glutamatergic transmission. Our data point to a protective role of riluzole with regard to DA release, a marker of the neuronal impairment induced by MPP+, a pro-parkinsonian neurotoxin.

The protective effect of riluzole in the MPTP model of Parkinson's disease in mice is not due to a decrease in MPP(+) accumulation.

Riluzole, has previously been shown to be protective in animal models of Parkinsons disease in vivo. In the present study the effects of riluzole on the intrastriatal formation and accumulation of MPP(+), after i.p. injection of MPTP were tested in mice, using two different experimental protocols. In the first protocol, mice were treated with a single dose (15 mg/kg i.p.) of MPTP and MPP(+) accumulation was measured 30 min, 1 h and 3 h after the injection of the toxin. Riluzole (10 mg/kg p.o.), administered 30 min before MPTP, did not modify the accumulation kinetic of MPP(+). Contrarily to riluzole, a single dose of 50 mg/kg p.o. of 7-nitroindazole (7-NI), a non-selective non hypertensive inhibitor of nitric oxide synthase (NOS), significantly decreased MPP(+) levels. In the second protocol, consisting of 3 injections of MPTP (15 mg/kg i.p.), riluzole, administered 4 times at the dose of 5 mg/kg p.o., had no effect on MPP(+) levels. The protective effect of repeated treatments of riluzole and 7-NI against MPTP-induced depletion of dopamine (DA) is also reported. Our data obtained with 7-NI (in agreement with previous studies reported by others) suggest that a part of the protection observed with this NOS inhibitor is probably due to in vivo inhibition of monoamine oxidase-B (MAO-B). That riluzole does not modify MPP(+) accumulation demonstrates that its protective effect against MPTP toxicity was not due to an in vivo interference with MPTP metabolism.

Thalidomide reduces MPTP-induced decrease in striatal dopamine levels in mice

The effects of thalidomide, a sedative, anti-inflammatory and immunosuppressive agent were studied in the MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) murine model of Parkinsons disease. The striatal levels of dopamine (DA) and of its main metabolites, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) were measured both in the MPTP control group (3 x 15 mg/kg intraperitoneally) and in the thalidomide groups (repeated treatments at 25 mg/kg or 50 mg/kg postoperatively). For mice treated with thalidomide, a dose-dependent protection was observed against the MPTP-induced decrease in DA. The decrease in HVA levels was totally antagonized by thalidomide at both doses. That thalidomide has activity in this model suggests that an inflammatory process may be involved in the induction of lesions by MPTP in DAergic neurons.

Methamphetamine and dopamine neurotoxicity: differential effects of agents interfering with glutamatergic transmission

The effects of riluzole and lamotrigine, two agents which interfere with the release of glutamate (GLU), and MK-801, a blocker of N-methyl-D-aspartate (NMDA) receptors, were compared in the model of methamphetamine-induced depletion of dopamine (DA) levels in mice. Repeated injections with methamphetamine (4 x 5 mg/kg i.p.) markedly decreased levels of DA, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) levels. When mice were treated with riluzole (2 x 10 mg/kg p.o.), no protection was observed against the decrease in DA and the two metabolites. Lamotrigine (2 x 10 mg/kg p.o.) was also inactive. Treatment with MK-801 (2 x 2.5 mg/kg i.p.) antagonized the decrease in DA, DOPAC and HVA levels induced by the neurotoxin. Thus, unlike an NMDA blocker, drugs that interfere with GLU release did not antagonize the methamphetamine-induced DA neurotoxicity in mice. The consequences of this inactivity are discussed in terms of the reliability of this model to test new drugs with putative efficacy in the treatment of Parkinsons disease.

Enhancing effect of dopamine blockers on evoked acetylcholine release in rat striatal slices: a classical D-2 antagonist response

The effects of chlorpromazine, pipotiazine, haloperidol, domperidone, sulpiride and SCH 23390 on the potassium-evoked release of [3H]acetylcholine [( 3H]ACh) were studied in rat striatal slices. All 5 dopamine (DA) antagonists with D-2 blockade efficacy induced an increase of [3H]ACh release whereas the specific D-1 antagonist SCH 23390 was devoid of significant effects. The maximal effect (about 100% increase) was obtained with haloperidol, pipotiazine and sulpiride but not with domperidone and chlorpromazine. Interestingly, sulpiride was found to exert an unexpected marked potency. The comparison of the activities of the 6 compounds on evoked ACh release to their affinities for D-2 receptors [( 3H]N-propylnorapomorphine binding sites) indicates that the pharmacological profile of the dopamine receptor implicated in the regulation of ACh release cannot be superimposed on that of the classical D-2 receptor. Participation of DA presynaptic receptors could however explain the differences in efficacy observed with the compounds studied.