Claudio Da Cunha

Comparison of bilaterally 6-OHDA- and MPTP-lesioned rats as models of the early phase of Parkinson's disease: histological, neurochemical, motor and memory alterations.

This study compares histological, neurochemical, behavioral, motor and cognitive alterations as well as mortality of two models of Parkinsons disease in which 100 microg 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) or 6 microg 6-hydroxydopamine (6-OHDA) was bilaterally infused into the central region of the substantia nigra, compact part, of adult male Wistar rats. Both neurotoxins caused a significant loss of nigral tyrosine hydroxylase-immunostained cells and striatal dopamine depletion, but 6-OHDA caused more widespread and intense cell loss, more intense body weight loss and more mortality than MPTP. Both 6-OHDA- and MPTP-lesioned rats presented similar deficits in performing a working memory and a cued version of the Morris water maze task and few exploratory/motor alterations in the open field and catalepsy tests. However, rats presented a significant and transitory increase in locomotor activity after the MPTP lesion and a hypolocomotor behavior tended to be present after the 6-OHDA lesion. The picture of mild motor effects and robust impairment of habit learning and spatial working memory observed in MPTP-lesioned rats models the early phase of Parkinsons disease.

Impaired learning in a spatial working memory version and in a cued version of the water maze in rats with MPTP-induced mesencephalic dopaminergic lesions

A lesion in the substantia nigra pars compacta (SNc) of rats induced by intra-nigral administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) caused specific loss of dopamine and its nonconjugated metabolites in the dorsal striatum and in the prefrontal cortex (PFC), but not in the hippocampus or the ventral striatum (nucleus accumbens). This lesion did not alter the motor performance of the rats or learning of a spatial reference memory task in the water maze but impaired learning of a spatial working memory task and also of a cued version of the water maze. The results are discussed by relating the selective memory deficits observed in these water maze tasks to the PFC, dorsal striatum, and hippocampus. Some parallels between the memory deficits in these SNc-lesioned rats and Parkinsons disease patients are also discussed.

Memory disruption in rats with nigral lesions induced by MPTP: a model for early Parkinson's disease amnesia

Intra-nigral administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyrindine (MPTP) caused a lesion in the substantia nigra, compact part (SNc) and a specific loss of dopamine and its metabolites in the striatum of rats. The animals were then tested in the two-way active avoidance task. MPTP-treated animals presented lower learning scores in the training and test sessions, an effect that was not caused by motor impairment or by a decreased sensitivity to footshock since their reaction time to the footshock (unconditioned stimulus - UCS) was not reduced. These lower scores were also not attributable to lower acoustic sensitivity or to a slowing in the association of the sound cue (conditioned stimulus - CS) with the UCS since the reaction time to the CS in the active avoidance response did not differ between MPTP-treated and control groups. Therefore, these results are more properly attributable to an impairment of the memory acquisition and retention processes. In addition, this study is presented as a model of early Parkinsons Disease amnesia and is discussed in terms of the importance of the nigrostriatal pathway to memory acquisition and storage processes.

The lesion of the rat substantia nigra pars compacta dopaminergic neurons as a model for Parkinson's disease memory disabilities.

Abstract1. In this article we review the studies of memory disabilities in a rat model o Parkinsons disease (PD).2. Intranigral administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to rats causes a partial lesion in the substantia nigra, compact part (SNc) and a specific loss of dopamine and its metabolites in the striatum of rats.3. These animals present learning and memory deficits but no sensorimotor impairments, thus modeling the early phase of PD when cognitive impairments are observed but the motor symptoms of the disease are barely present.4. The cognitive deficits observed in these animals affect memory tasks proposed to model habit learning (the cued version of the water maze task and the two-way active avoidance task) and working memory (a working memory version of the water maze), but spare long-term spatial memory (the spatial reference version of the Morris water maze).5. The treatment of these animals with levodopa in a dose that restores the striatal level of dopamine does not reverse these memory impairments, probably because this treatment promotes a high level of dopamine in extrastriatal brain regions, such as the prefrontal cortex and the hippocampus.6. On the other hand, the adenosine receptor antagonist, caffeine, partly reverse the memory impairment effect of SNc lesion in these rats. This effect may be due to caffeine action on nigrostriatal neurons, since it induces dopamine release and modulates the interaction between adenosine and dopamine receptor activity.7. These results suggest that the MPTP SNc-lesioned rats are a good model to study memory disabilities related to PD and that caffeine and other selective A(2A) adenosine receptor antagonists are promising drugs to treat this symptoms in PD patients.

The effect of caffeine in animal models of learning and memory.

In the present investigation we studied the effect of caffeine on memory task inhibitory avoidance and habituation to a new environment. Caffeine impaired retention scores in mice submitted to inhibitory avoidance and habituation when administered 30 min before training at the doses of 10-30 mg/kg. These effects cannot be explained by state-dependency since the administration of caffeine 30 min before the test session did not reverse the effect of pre-training caffeine administration, but can more probably be explained by an impairment in the acquisition or by interference with attentional processes. On the other hand, caffeine improved the inhibitory avoidance (but not habituation) retention scores when administered immediately after the training or 30 min before the test session at the doses of 1-30 mg/kg or 3-10 mg/kg, respectively. These results suggest that caffeine differentially affects the different stages of memory processing and that this effect depends on particularities of the memory task under study.

Caffeine reverses the memory disruption induced by intra-nigral MPTP-injection in rats.

The present study was carried out to test the possible effects of caffeine in improving the memory deficits observed in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyrindine (MPTP)-lesioned rats, an animal model of early stage Parkinsons disease. Caffeine at the doses of 0.1-0.3 mg/kg (intraperitoneal) reversed the impairing effect of the administration of MPTP (1 micromol/side) into the substantia nigra, compact part, of rats on the avoidance scores in the training and test sessions of a two-way active avoidance task. This effect was not due to a motor or sensory alteration because the caffeine-induced learning and memory improvement was independent of the locomotor stimulant effect of the drug and there were no differences in the reaction time of the animals to a footshock (unconditioned stimulus) or a sound cue (conditioned stimulus) after caffeine treatment. These results suggest that the reported dopamine/adenosine-receptor interaction can be used to restore defective learning and memory processes in Parkinsons disease and indicate that caffeine and other adenosine receptor antagonists are drugs with the potential for treatment of the cognitive disabilities of Parkinsons disease.

Evidence for the substantia nigra pars compacta as an essential component of a memory system independent of the hippocampal memory system.

The aim of the present study was to test if the nigrostriatal pathway is an essential component for a water maze cued task learning and if it works independently of the hippocampal memory system. This hypothesis was tested using an animal model of Parkinsons disease in which male Wistar rats were lesioned in the substantia nigra pars compacta (SNc) by the intranigral infusion of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), thus causing a partial depletion of striatal dopamine. SNc-lesioned and sham-operated animals were implanted bilaterally with guide cannulae above the dorsal hippocampus in order to be tested after the administration of 0.4 microl 2% lidocaine or saline into this structure. The animals were tested in a spatial or in a cued version of the water maze, memory tasks previously reported to model hippocampal-dependent spatial/relational and striatal-dependent S-R learning, respectively. Hippocampal inactivation, but not SNc lesion, impaired learning and memory in the spatial version of the water maze. An opposite situation was observed with the cued version. No significant interaction was observed between the SNc lesion and hippocampal inactivation conditions affecting scores in the spatial or in the cued version of the water maze. These results suggest that the nigrostriatal pathway is an essential part of the memory system that processes S-R learning and that it works independently of the hippocampal memory system that processes spatial/relational memories.

Pharmacological evaluation of ricinine, a central nervous system stimulant isolated from Ricinus communis

The extract of the pericarp of castor bean (Ricinus communis) showed some typical central nervous system stimulant effects when administered to mice. The animals became exophthalmic, presented tremors and clonic seizures and died a few minutes after receiving larger doses of the extract. At lower doses the extract improved memory consolidation and showed some neuroleptic-like properties, such as a decrease in exploratory behavior and catalepsy. The memory-improving effect and the seizure-eliciting properties of the extract were also observed with the administration of ricinine, a neutral alkaloid isolated from the extract. However, the neuroleptic-like properties of the extract were not observed with ricinine. As the therapeutic index of ricinine is of the order of 200, the compound may be considered as a promising cognition-enhancing drug that may be used for the treatment of human amnesias.

l-Dopa restores striatal dopamine level but fails to reverse MPTP-induced memory deficits in rats

The objective of the present investigation was to test the effects of benserazide/L-dopa treatment in a model of learning and memory deficits associated with early Parkinsons disease. Intra-nigral administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) caused a lesion in the substantia nigra, compact part and a specific loss of dopamine (DA) and its metabolites in the striatum of rats and a memory impairment in the two-way active avoidance task. The administration of benserazide/L-dopa (50 and 200 mg/kg) to the MPTP-lesioned rats restored the striatal level of DA, but did not reverse the MPTP-induced learning and memory impairment. As this treatment caused a large increase of DA levels in extrastriatal brain regions of the MPTP-lesioned animals, this study suggests that benserazide/L-dopa therapy was not effective in improving the observed learning impairment because this treatment appears to tilt the balance between DA levels in the striatum and in the extrastriatal regions, such as frontal cortex and limbic structures, resulting in a cognitive deficit.

Habituation and inhibitory avoidance training alter brain regional levels of benzodiazepine-like molecules and are affected by intracerebral flumazenil microinjection

The effects of habituation and inhibitory avoidance training on the rat brain regional levels of benzodiazepine (BZD)-like molecules and on central type BZD binding sites were examined. BZD-like immunoreactivity was decreased by 26-50% in the amygdala, cerebral cortex and septum of rats sacrificed immediately after stepping-down from the platform of an inhibitory avoidance apparatus (non-trained group) as compared to naive controls. Rats submitted to a second step-down session 20 h later (habituated group) have significantly lower BZD-like immunoreactivity in the septum (-60%) as compared to non-trained animals. Rats exposed to an inhibitory avoidance training, i.e. stepping-down and receiving a footshock (trained group), showed a significant reduction in the content of BZD-like molecules in cerebral cortex (-44%), amygdala (-68%), septum (-80%) and hippocampus (-82%) as compared to non-trained rats. In addition, the density of central type BZD binding sites was slightly increased in the hippocampus and septum of trained rats. No changes were observed in the apparent dissociation constant. No changes were observed in parallel measurements of [3H]-L-quinuclidinyl benzylate binding constants at cholinergic muscarinic binding sites. The immediate posttraining intrahippocampal bilateral injection of the central type BZD receptor antagonist flumazenil (10 nmol/hippocampus), enhanced the retention of habituation but not when injected in the amygdala or septum. In contrast, retention of the inhibitory avoidance task was significantly increased by flumazenil administered bilaterally into any of the 3 brain structures.(ABSTRACT TRUNCATED AT 250 WORDS)