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It is known that continuous abuse of amphetamine (AMPH) results in alterations in neuronal structure and cognitive behaviors related to the reward system. However, the impact of AMPH abuse on the hippocampus remains unknown. The aim of this study was to determine the damage caused by AMPH in the hippocampus in an addiction model. We reproduced the AMPH sensitization model proposed by Robinson et al. in 1997 and performed the novel object recognition test (NORt) to evaluate learning and memory behaviors. After the NORt, we performed Golgi-Cox staining, a stereological cell count, immunohistochemistry to determine the presence of GFAP, CASP3, and MT-III, and evaluated oxidative stress in the hippocampus. We found that AMPH treatment generates impairment in short- and long-term memories and a decrease in neuronal density in the CA1 region of the hippocampus. The morphological test showed an increase in the total dendritic length, but a decrease in the number of mature spines in the CA1 region. GFAP labeling increased in the CA1 region and MT-III increased in the CA1 and CA3 regions. Finally, we found a decrease in Zn concentration in the hippocampus after AMPH treatment. An increase in the dopaminergic tone caused by AMPH sensitization generates oxidative stress, neuronal death, and morphological changes in the hippocampus that affect cognitive behaviors like short- and long-term memories.

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El síndrome de monosomía 1p36 forma parte del grupo de enfermedades conocidas como «enfermedades de baja prevalencia¼ o «enfermedades raras¼. El objetivo del presente trabajo es revisar los hallazgos de los principales estudios realizados en niños diagnosticados con el síndrome de monosomía 1p36. El fenotipo del síndrome de deleción (monosomía) 1p36 delineado desde 1997 incluye rasgos craneofaciales dismórficos: fontanela anterior grande, cejas rectas, ojos hundidos, epicanto, raíz/puente nasal anchos, hipoplasia del tercio medio facial, orejas implantadas anormalmente, filtrum largo y barbilla puntiaguda; alteraciones neurológicas: convulsiones e hidrocefalia (en casos aislados); malformaciones cerebrales observadas en imágenes por resonancia magnética (IRM): ensanchamiento ventricular, ensanchamiento de espacios subaracnoideos, alteraciones morfológicas del cuerpo calloso, entre otras. La IRM evidencia en algunos pacientes atrofia cortical, retraso en la mielinización, áreas multifocales hiperintensas, leucomalacia periventricular y heterotopia periventricular. Estos pacientes cursan con discapacidad intelectual, retrasos en el desarrollo motor, de la comunicación, del lenguaje, en el área personal-social y en la conducta adaptativa. También se observan alteraciones en el sistema auditivo, visual, cardiaco, endocrino, genitourinario, dermatológico y esquelético. Conclusiones: Existen datos de aproximadamente 100 casos en el mundo desde 1981. Esta enfermedad rara es el síndrome más común de microdeleción subtelomérica. La técnica de hibridación in situ con fluorescencia y la técnica de hibridación genómica comparativa (array-CGH) son las que mejor permiten su diagnóstico. Por el momento no existe ningún tratamiento médico efectivo para esta enfermedad.

The Monosomy 1p36 deletion syndrome is part of the group of diseases known as Rare Diseases. The objective of the present work is to review the characteristics of Monosomy 1p36 deletion syndrome. The monosomy 1p36 deletion syndrome phenotype includes: dysmorphic craniofacial features; large anterior fontanelle, unibrow, deep-set eyes, epicanthus, wide nasal root/bridge, mandible hypoplasia, abnormal location of the pinna, philtrum and pointed chin; neurological alterations: seizures and hydrocephalus (in some cases). Cerebral malformations: ventricular hypertrophy, increased subarachnoid space, morphological alterations of corpus callosum, cortical atrophy, delays in myelinisation, periventricular leukomalacia and periventricular heterotopia. These alterations produce intellectual disability and delays in motor growth, communication skills, language, social and adaptive behaviour. It is Hearing and vision impairments are also observed in subjects with this syndrome, as well as alterations of cardiac, endocrine and urinary systems and alterations at skin and skeletal level. Conclusions: Approximately 100 cases have been documented since 1981. This rare disease is the most common sub-telomeric-micro-deletion syndrome. In situ hybridization with fluorescence (FISH) and array-comparative genomic hybridization (CGH-array) are at present the two best diagnostic techniques. There is currently no effective medical treatment for this disease.

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Amphetamines (AMPH) are psychostimulants widely used for therapy as well as for recreational purposes. Previous results of our group showed that AMPH exposure in pregnant rats induces physiological and behavioral changes in the offspring at prepubertal and postpubertal ages. In addition, several reports have shown that AMPH are capable of modifying the morphology of neurons in some regions of the limbic system. These modifications can cause some psychiatric conditions. However, it is still unclear if there are changes to behavioral and morphological levels when low doses of AMPH are administered at a juvenile age. The aim of this study was to assess the effect of AMPH administration (1mg/kg) in Sprague-Dawley rats (postnatal day, PD21-PD35) on locomotor activity in a novel environment and compare the neuronal morphology of limbic system areas at three different ages: prepubertal (PD 36), pubertal (PD50) and postpubertal (PD 62). We found that AMPH altered locomotor activity in the prepubertal group, but did not have an effect on the other two age groups. The Golgi-Cox staining method was used to describe the neural morphology of five limbic regions: (Layers 3 and 5) the medial prefrontal cortex (mPFC), the dorsal and ventral hippocampus, the nucleus accumbens and the amygdala, showing that AMPH induced changes at pubertal ages in arborization and spine density of these neurons, but interestingly these changes did not persist at postpubertal ages. Our findings suggest that even early-life AMPH exposure does not induce long-term behavioral and morphological changes, however it causes alterations at pubertal ages in the limbic system networks, a stage of life strongly associated with the development of substance abuse behaviors.

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The Monosomy 1p36 deletion syndrome is part of the group of diseases known as Rare Diseases. The objective of the present work is to review the characteristics of Monosomy 1p36 deletion syndrome. The monosomy 1p36 deletion syndrome phenotype includes: dysmorphic craniofacial features; large anterior fontanelle, unibrow, deep-set eyes, epicanthus, wide nasal root/bridge, mandible hypoplasia, abnormal location of the pinna, philtrum and pointed chin; neurological alterations: seizures and hydrocephalus (in some cases). Cerebral malformations: ventricular hypertrophy, increased subarachnoid space, morphological alterations of corpus callosum, cortical atrophy, delays in myelinisation, periventricular leukomalacia and periventricular heterotopia. These alterations produce intellectual disability and delays in motor growth, communication skills, language, social and adaptive behaviour. It is Hearing and vision impairments are also observed in subjects with this syndrome, as well as alterations of cardiac, endocrine and urinary systems and alterations at skin and skeletal level. CONCLUSIONS: Approximately 100 cases have been documented since 1981. This rare disease is the most common subtelomeric-micro-deletion syndrome. In situ hybridization with fluorescence (FISH) and array-comparative genomic hybridization (CGH-array) are at present the two best diagnostic techniques. There is currently no effective medical treatment for this disease.

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Clozapine is widely used in the treatment of schizophrenia; however its complete mechanism of action is not fully established. The neonatal ventral hippocampal lesion (nVHL) has emerged as a model of schizophrenia-related behavior. Our group has previously shown hyperresponsiveness to novel environment, neuronal atrophy in prefrontal cortex (PFC) and nucleus accumbens (NAcc) neurons as well as abnormal levels of nitric oxide (NO) in the PFC of the nVHL rat. In the present study, we aimed to investigate the role of repeated clozapine administration (2 mg/kg/day for 21 days) in a novel environment, neuronal rearrangement in PFC, NAcc and basolateral amygdala (BLA) as well as NO levels in this model. Clozapine administration reversed the hyperlocomotion observed in a novel environment in the nVHL rat with no effect on locomotion in sham animals. Quantitative morphological analysis demonstrated a retracted neuronal arborization and decreased spinogenesis in the NAcc, PFC and BLA in nVHL rat. Interestingly, clozapine administration also rescued neuronal atrophy in these brain regions. The nVHL also displayed increased NO levels in PFC, striatum and occipital cortex. Clozapine administration selectively reversed these abnormal levels of NO in striatum in nVHL rat while NO levels were increased in the PFC of sham animals. Our results further extend the usefulness of the nVHL as a model of schizophrenia-related behavior and suggest that clozapine reverses behavioral deficits in these animals by modulating neuronal reorganization and NO levels in the brain.

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