[The effects of lesions in the compact part of the substantia nigra on glutamate and GABA release in the pedunculopontine nucleus]. / Efecto de la lesión de la sustancia negra pars compacta sobre la liberación de glutamato y GABA en el núcleo pedunculopontino.

INTRODUCTION: The pedunculopontine nucleus (PPN), co-localized with the mesencephalic locomotor region, has been proposed as a key structure in the physiopathology of Parkinson's disease. OBJECTIVES: The goal of the present study was to assess if the aminoacid neurotransmitter release in the PPN is modified by the degeneration of dopaminergic cells, from substantia nigra pars compacta in 6-hydroxidopamine (6-OHDA)-lesioned rats. In addition, it was studied the aminoacid neurotransmitter release in the PPN of rats with lesion of the subthalamic nucleus by quinolinic acid (QUIN) (100 nmol) intracerebral injection. MATERIALS AND METHODS: Rats were assigned to five groups: untreated rats (I) (n = 13), 6-OHDA lesion (II) (n = 11), 6-OHDA + QUIN lesion (III) (n = 9), sham-operated (IV) (n = 10), QUIN, STN (V) lesioned (n = 9). The extracellular concentrations of glutamic acid (GLU) and gamma-aminobutyric acid (GABA) were determined by brain microdialysis and high performance liquid chromatography (HPLC). RESULTS. GLU released in PPN from 6-OHDA lesioned rats (group II), was significantly increased in comparison with the others groups (F(4, 47) = 18.21, p < 0.001). GABA released shows significant differences between experimental groups (F(4, 45) = 12.75, p < 0.001). It was detected a higher valour (p < 0.05) in-group II. The groups III and IV exhibited intermeddle valour (p < 0.001) and groups I and IV (p < 0.001) showed the lower GABA extracellular concentrations. The infusion of artificial cerebrospinal fluid with higher potassium (100 mmol) induced an increase in the GLU and GABA released in all groups, which confirm the neuronal origin of the extracellular content. CONCLUSION: These results are in agreement with the current model of basal ganglia functioning and suggest the role of STN-PPN projection in the physiopathology of Parkinson's disease.

Efecto de la lesión de la sustancia negra pars compacta sobre la liberación de glutamato y GABA en el núcleo pedunculopontino / The effects of lesions in the compact part of the substantia nigra on glutamate and gaba release in the pedunculopontine nucleus

Introducción. El núcleo pedunculopontino (NPP), colocalizado con el área locomotora mesencefálica, se ha señalado como una estructura clave en la fisiopatología de la enfermedad de Parkinson. Objetivos. 1. Estudiar el efecto de la lesión de la sustancia negra pars compacta -por inyección de 6-hidroxidopamina (6-OHDA)- sobre la liberación de aminoácidos neurotransmisores en el NPP. 2. Estudiar el efecto de la lesión del núcleo subtalámico (NST), por inyección intracerebral de 100 nmol de ácido quinolínico (QUIN), sobre la liberación de aminoácidos neurotransmisores en el NPP. Materiales y métodos. Se organizaron cinco grupos experimentales: ratas sanas (I; n = 13), lesión con 6-OHDA (II; n = 11), lesión simultánea de 6-OHDA + QUIN (III; n = 9), falsa lesión de 6-OHDA (IV; n = 10), y lesión del NST con QUIN (V; n = 9). Las concentraciones extracelulares de ácido glutámico (GLU) y GABA se determinaron por medio de cromatografía líquida de alta resolución (HPLC) con detección fluorimétrica. Resultados. Se detectaron diferencias significativas en la liberación de GLU entre todos los grupos experimentales (F(4, 47) = 18,21, p < 0,001), con un aumento significativo de esta variable en el grupo II. La liberación de GABA en el NPP mostró diferencias significativas entre los grupos en estudio (F(4, 45) = 12,75, p < 0,001). Para esta variable se produjo una separación entre los grupos, con un aumento significativo (p < 0,05) en el grupo II, valores intermedios y significativamente diferentes para los grupos III y V (p < 0,001) y valores menores para los grupos I y IV. La infusión de una solución de líquido cefalorraquídeo artificial con mayor concentración de potasio (100 mmol) produjo un incremento en la liberación de los aminoácidos neurotransmisores en todos los grupos experimentales, lo cual confirma el origen neuronal del contenido extracelular estudiado. Conclusiones. Estos resultados concuerdan con el ‘modelo’ actual de funcionamiento de los ganglios basales y sugieren un papel importante a la proyección STN-NPP en la fisiopatología de la enfermedad de Parkinson

Introduction. The pedunculopontine nucleus (PPN), co-localized with the mesencephalic locomotor region, has been proposed as a key structure in the physiopathology of Parkinson’s disease. Objectives. The goal of the present study was to assess if the aminoacid neurotransmitter release in the PPN is modified by the degeneration of dopaminergic cells, from substantia nigra pars compacta in 6-hydroxidopamine (6-OHDA)-lesioned rats. In addition, it was studied the aminoacid neurotransmitter release in the PPN of rats with lesion of the subthalamic nucleus by quinolinic acid (QUIN) (100 nmol) intracerebral injection. Materials and methods. Rats were assigned to five groups: untreated rats (I) (n = 13), 6-OHDA lesion (II) (n = 11), 6-OHDA + QUIN lesion (III) (n = 9), sham-operated (IV) (n = 10), QUIN, STN (V) lesioned (n = 9). The extracellular concentrations of glutamic acid (GLU) and gamma-aminobutyric acid (GABA) were determined by brain microdialysis and high performance liquid chromatography (HPLC). Results. GLU released in PPN from 6-OHDA lesioned rats (group II), was significantly increased in comparison with the others groups (F(4, 47) = 18.21, p < 0.001). GABA released shows significant differences between experimental groups (F(4, 45) = 12.75, p < 0.001). It was detected a higher valour (p < 0.05) in-group II. The groups III and IV exhibited intermeddle valour (p < 0.001) and groups I and IV (p < 0.001) showed the lower GABA extracellular concentrations. The infusion of artificial cerebrospinal fluid with higher potassium (100 mmol) induced an increase in the GLU and GABA released in all groups, which confirm the neuronal origin of the extracellular content. Conclusion. These results are in agreement with the current model of basal ganglia functioning and suggest the role of STN-PPN projection in the physiopathology of Parkinson’s disease

Efecto de la lesión de la sustancia negra parte compacta sobre la liberación de glutamato y GABA en el núcleo pedunculopontino / The effects of lesions in the compact part of the substantia nigra on glutamate and GABA release in the pedunculopontine nucleus

The pedunculopontine nucleus (PPN), co-localized with the mesencephalic locomotor region, has been proposed as a key structure in the physiopathology of Parkinson's disease. OBJECTIVES: The goal of the present study was to assess if the aminoacid neurotransmitter release in the PPN is modified by the degeneration of dopaminergic cells, from substantia nigra pars compacta in 6-hydroxidopamine (6-OHDA)-lesioned rats. In addition, it was studied the aminoacid neurotransmitter release in the PPN of rats with lesion of the subthalamic nucleus by quinolinic acid (QUIN) (100 nmol) intracerebral injection...(AU)

[Stromal cell transplant in the 6-OHDA lesion model]. / Trasplante de células estromales en el modelo de lesión por 6-OHDA.

INTRODUCTION: A good deal of evidence currently exists to show that transplanting foetal mesencephalic tissue can produce symptomatic benefits both in patients and in disease models. Nevertheless, the technical and ethical difficulties involved in obtaining enough suitable foetal cerebral tissue have been a serious obstacle to its application. Stromal cells derived from bone marrow, due to their potential capacity to generate different types of cells, could be an ideal source of material for cell restoration in neurodegenerative diseases. AIMS: Our aim was to evaluate the effect of transplanting stromal cells derived from bone marrow on the behaviour of 6-OHDA rats, when they are inserted into the striatum. MATERIAL AND METHODS: In this study we used rats with a lesion in the substantia nigra induced by 6-hydroxydopamine, divided into several experimental groups. Rotary activity induced by D-amphetamine (5 mg/kg, intraperitoneally) was evaluated before and throughout the three months following the transplant in all the experimental groups, except in the group of healthy controls. Hemiparkinsonian rats received a total of 350 000 foetal ventral mesencephalic cells and 8 x 10(4) stromal cells/microL, which were implanted in the striatum. RESULTS AND CONCLUSIONS: Animals with stromal cells transplanted in the body of the striatum significantly reduced the number of turns induced by amphetamine (p < 0.05); yet this reduction was not greater than that induced by foetal mesencephalic cell transplants. We were also unable to demonstrate any significant improvement in the motor skills of the forelimbs.

Trasplante de células estromales en el modelo de lesión por 6-OHDA / Stromal cell transplant in the 6-OHDA lesion model

Introducción. En la actualidad, existe un cúmulo de evidencias de que el trasplante de tejido mesencefálico fetal puede producir un beneficio sintomático tanto en los pacientes con enfermedad de Parkinson como en los modelos de la enfermedad. Sin embargo, las dificultades técnicas y éticas en la obtención de tejido cerebral fetal apropiado y en cantidad suficiente ha dificultado su aplicación. Las células estromales derivadas de médula ósea, debido a su potencialidad para generar diferentes tipos de células, podrían ser una fuente ideal para la restauración celular en las enfermedades neurodegenerativas. Objetivo. Evaluar el efecto del trasplante de células estromales derivadas de médula ósea sobre la conducta de ratas con lesión por 6-OHDA, cuando se realiza en el estriado. Materiales y métodos. Se utilizaron ratas con lesión de la sustancia negra inducida por la 6-OHDA, divididas en varios grupos experimentales. La actividad rotatoria inducida por D-anfetamina (5 mg/kg intraperitonialmente) se evaluó antes y en los tres meses posteriores al trasplante en todos los grupos experimentales, excepto en el grupo de controles sanas. Las ratas hemiparkinsonianas recibieron un total de 350.000 células de mesencéfalo ventral fetal y 8 × 104 células estromales/µL, las cuales se implantaron en el estriado. Resultados y conclusiones. Los animales con trasplante de células estromales en el cuerpo estriado redujeron significativamente el número de vueltas inducidas por anfetamina (p < 0,05); sin embargo, esta reducción no fue mayor que la inducida por los trasplantes de células mesencefálicas fetales. Por otro lado, no fue posible demostrar una mejoría significativa de las habilidades motoras de las extremidades anteriores (AU)

Introduction. A good deal of evidence currently exists to show that transplanting foetal mesencephalic tissue can produce symptomatic benefits both in patients and in disease models. Nevertheless, the technical and ethical difficulties involved in obtaining enough suitable foetal cerebral tissue have been a serious obstacle to its application. Stromal cells derived from bone marrow, due to their potential capacity to generate different types of cells, could be an ideal source of material for cell restoration in neurodegenerative diseases. Aims. Our aim was to evaluate the effect of transplanting stromal cells derived from bone marrow on the behaviour of 6-OHDA rats, when they are inserted into the striatum. Materials and methods. In this study we used rats with a lesion in the substantia nigra induced by 6-hydroxydopamine, divided into several experimental groups. Rotary activity induced by D-amphetamine (5 mg/kg, intraperitoneally) was evaluated before and throughout the three months following the transplant in all the experimental groups, except in the group of healthy controls. Hemiparkinsonian rats received a total of 350,000 foetal ventral mesencephalic cells and 8 × 104 stromal cells/µL, which were implanted in the striatum. Results and conclusions. Animals with stromal cells transplanted in the body of the striatum significantly reduced the number of turns induced by amphetamine (p < 0.05); yet this reduction was not greater than that induced by foetal mesencephalic cell transplants. We were also unable to demonstrate any significant improvement in the motor skills of the forelimbs (AU)

Trasplante de células estromales en el modelo de lesión por 6-OHDA / Stromal cell transplant in the 6-OHDA lesion model

A good deal of evidence currently exists to show that transplanting foetal mesencephalic tissue can produce symptomatic benefits both in patients and in disease models. Nevertheless, the technical and ethical difficulties involved in obtaining enough suitable foetal cerebral tissue have been a serious obstacle to its application. Stromal cells derived from bone marrow, due to their potential capacity to generate different types of cells, could be an ideal source of material for cell restoration in neurodegenerative diseases. AIMS: Our aim was to evaluate the effect of transplanting stromal cells derived from bone marrow on the behaviour of 6-OHDA rats, when they are inserted into the striatum(AU)

[Lesions in the pars compacta substantiae nigra and the subthalamic nucleus modify the density of muscarinic receptors in different nuclei of the basal ganglia]. / La lesión de la sustancia negra pars compacta y del núcleo subtalámico modifica la densidad de receptores muscarínicos en distintos núcleos de los ganglios basales.

INTRODUCTION: Several studies that has focused to the dopaminergic transmission in the basal ganglia in parkinsonian condition, but only a few article has taking into account the imbalance between dopaminergic and cholinergic transmission. OBJECTIVE: To evaluate the muscarinic cholinergic receptors density in SNc and PPN in the 6-OHDA model. MATERIALS AND METHODS: Were organized five experimental groups in correspondence to the place of the lesion: I. Non treated rats, II. 6-OHDA lesion in SNc, III. 6-OHDA lesion in SNc + quinolinic acid lesion in NST, IV. Sham operated rats, V. Quinolinic acid in STN. Were obtained coronal sections of 20 microm thickness of SNc and PPN from rats and in these sections was evaluated the muscarinic receptors density through autoradiographic technique with [3H]quinuclidinylbenzilate (QNB) (1.23 nM). The muscarinic antagonist atropine (1 microM) was utilized as non-specific union. The density was evaluated in both hemispheres and the density optical was converted in fentomolas/mg of tissue with base to values obtained from tritium standards. RESULTS: Significant diminution of the muscarinic receptors density was found in the SNc ipsilateral to the 6-OHDA lesion from experimental groups II (t=2.76; p<0.05) and III (t=4.06; p<0.05). In the group V, was seen a significant increase of muscarinic receptor density in the SNc ipsilateral to the 6-OHDA lesion. The comparison between experimental groups evidenced significant differences among them (F=13.13; p<0.001) with a significant decrease in the density from SNc of groups II and III and significant increase in the density from SNc of group V in comparison of the others groups. In relation to PPN, muscarinic receptors density from right PPN ipsilateral to the 6-OHDA lesion, shown significant differences (F=3.93; p<0.01) between the experimental groups with a significant increase of this variable in the group II. CONCLUSIONS: These results signal a modification of cholinergic activity after 6-OHDA lesion. The changes in the muscarinic receptors populations located in SNc and PPN could be part of different compensatory mechanisms to attempt ameliorate the imbalance between dopaminergic and cholinergic transmission that it was installed after denervation of nigrostriatal forebrain bundle. The excitotoxic lesion of STN impose a new adjust mechanism for cell from PPN, which could be expressed in the changes of muscarinic cholinergic receptors population at the level of SNc.

La lesión de la sustancia negra pars compacta y del núcleo subtalámico modifica la densidad de receptores muscarínicos en distintos núcleos de los ganglios basales / Lesions in the pars compacta substantiae nigrae and the subthalamic nucleus modify the density of muscarinic receptors in different nuclei of the basal ganglia

Introducción. Numerosos estudios han abordado el papel de la neurotransmisión dopaminérgica en los ganglios basales en condiciones de parkinsonismo, pero pocos se han encaminado hacia el desequilibrio entre la trasmisión dopaminérgica y colinérgica. Objetivo. Evaluar la densidad de receptores colinérgicos muscarínicos en sustancia negra pars compacta (SNc) y núcleo pedunculopontino (NPP) en el modelo de 6-OHDA. Materiales y métodos. Se organizaron cinco grupos experimentales según la lesión de SNcyNST: 1. Animales sanos; 2. Ratas lesionadas con 6-OHDA; 3. Ratas con lesión simultánea de SNcyNST; 4. Ratas Sham del modelo de 6-OHDA; 5. Ratas con lesión de NST. Se obtuvieron cortes de 20 µm de grosor de SNc y NPP de ratas, en los cuales se evaluó la densidad de receptores colinérgicos muscarínicos por autorradiografía con [3H]quinuclidinilbencilato (QNB) (1,23 nM). Como unión no específica se usó el antagonista muscarínico atropina (1 µM). Se realizaron lecturas en los dos hemisferios y la densidad óptica se convirtió en fentomolas por mg de tejido con base en los valores obtenidos de los estándares de tritio. Resultados. En los grupos 2 (t = 2,76; p < 0,05) y 3 (t = 4,06; p < 0,05) se evidenció una disminución significativa de la densidad de receptores muscarínicos en la SNc ipsilateral a la lesión de 6-OHDA. El grupo 5 mostró un aumento significativo de la densidad de receptores muscarínicos en la SNc lesionada con 6-OHDA (t = 2,69; p < 0,05). La comparación entre grupos experimentales arrojó diferencias significativas entre éstos (F=13,13;p<0,001), con una disminución en los grupos 2 y 3 y un aumento significativo en el grupo 5, en relación con los restantes grupos. La densidad de receptores muscarínicos para el NPP derecho ipsilateral a la lesión de SNc mostró diferencias significativas entre los grupos experimentales (F=3,93;p<0,01), con un aumento significativo de esta variable en el grupo 2. Conclusiones. Estos resultados apuntan hacia una modificación de la actividad colinérgica posterior a la denervación de la SNc por inyección de 6-OHDA. Los cambios en las poblaciones de receptores muscarínicos distribuidos en SNc y NPP pueden ser parte de distintos mecanismos compensatorios que intentan atenuar el desequilibrio entre las transmisiones dopaminérgica y colinérgica, que se instala después de la degeneración de la vía negroestriatal. La lesión excitotóxica de lNST impone un nuevo mecanismo de ajuste a las células del NPP, que pudiera expresarse en los cambios en las poblaciones de receptores colinérgicos de la SNc (AU)

Introduction. Several studies that has focused to the dopaminergic transmission in the basal ganglia in parkinsonian condition, but only a few article has taking into account the imbalance between dopaminergic and cholinergic transmission. Objective. To evaluate the muscarinic cholinergic receptors density in SNc and PPN in the 6-OHDA model. Materials and methods. Were organized five experimental groups in correspondence to the place of the lesion: I. Non treated rats, II. 6-OHDA lesion in SNc, III. 6-OHDA lesion in SNc + quinolinic acid lesion in NST, IV. Sham operated rats, V. Quinolinic acid in STN. Were obtained coronal sections of 20 µm thickness of SNc and PPN from rats and in these sections was evaluated the muscarinic receptors density through autoradiographic technique with [3H]quinuclidinylbenzilate (QNB) (1.23 nM). The muscarinic antagonist atropine (1 µM) was utilized as non-specific union. The density was evaluated in both hemispheres and the density optical was converted in fentomolas/mg of tissue with base to values obtained from tritium standards. Results. Significant diminution of the muscarinic receptors density was found in the SNc ipsilateral to the 6-OHDA lesion from experimental groups II (t = 2.76; p < 0.05) and III (t = 4.06; p < 0.05). In the group V, was seen a significant increase of muscarinic receptor density in the SNc ipsilateral to the 6-OHDA lesion. The comparison between experimental groups evidenced significant differences among them (F = 13.13; p < 0.001) with a significant decrease in the density from SNc of groups II and III and significant increase in the density from SNc of group V in comparison of the others groups. In relation to PPN, muscarinic receptors density from right PPN ipsilateral to the 6-OHDA lesion, shown significant differences (F = 3.93; p < 0.01) between the experimental groups with a significant increase of this variable in the group II. Conclusions. These results signal a modification of cholinergic activity after 6-OHDA lesion. The changes in the muscarinic receptors populations located in SNc and PPN could be part of different compensatory mechanisms to attempt ameliorate the imbalance between dopaminergic and cholinergic transmission that it was installed after denervation of nigrostriatal forebrain bundle. The excitotoxic lesion of STN impose a new adjust mechanism for cell from PPN, which could be expressed in the changes of muscarinic cholinergic receptors population at the level of SNc (AU)

[The pedunculopontine nucleus. A structure involved in motor and emotional processing]. / Núcleo pedunculopontino. Una estructura involucrada en el procesamiento motor y emocional.

INTRODUCTION: There is currently a growing interest for conducting studies into the electrical and neurochemical activity of the pedunculopontine nucleus (PPN) due to the privileged position occupied by this structure in the flow of information to and from the cortex. This nucleus acts as a relay, not only for the motor information that is processed in the basal ganglia but also for information of an emotional type, whose main centre is the nucleus accumbens. It is also strongly linked with the aspects that determine the mechanisms governing addiction to certain drugs. DEVELOPMENT: We conduct a detailed analysis of the main findings from studies of the role played by the PPN in the physiopathology of Parkinsonism, namely the study of metabolic activity, immunohistochemical studies with different tracers, electrophysiological studies that have confirmed the immunohistochemical observations, as well as deep electrical stimulation carried out in non human primates. Furthermore, we also examine the part played by this structure in the processing of emotional information associated with different learning tasks. CONCLUSIONS: Overall, the authors grant the PPN a privileged position in the physiopathology of the axial disorders related to Parkinson s disease; its most important afference, stemming from the subthalamic nucleus, appears to play a key role in the understanding of the part played by the PPN in Parkinsonism.

Núcleo pedunculopontino. Una estructura involucrada en el procesamiento motor y emocional / The pedunculopontine nucleus. A structure involved in motor and emotional processiong

Introducción. Existe en la actualidad un interés creciente por abordar el estudio de la actividad eléctrica y neuroquímica del núcleo pedunculopontino (NPP), debido a la posición privilegiada de esta estructura en el flujo de información que procede de la corteza y regresa a ella. Este núcleo sirve de relevo no sólo a la información motora que se procesa en los ganglios basales, sino también a la información de tipo emocional cuyo principal centro es el núcleo accumbens y está estrechamente relacionado con los mecanismos de adicción a determinados fármacos. Desarrollo. Se realiza un análisis detallado de los principales resultados sobre la función que desempeña el NPP en la fisiopatología del parkinsonismo, a saber: estudio de su actividad metabólica, estudios inmunohistoquímicos con diferentes trazadores, estudios electrofisiológicos-que han confirmado las observaciones inmunohistoquímicas-, así como estimulación eléctrica profunda practicada en primates. Igualmente, se aborda la participación de esta estructura en el procesamiento de información emocional asociada a distintas tareas de aprendizaje. Conclusiones. En general, los autores confieren al NPP una función privilegiada en la fisiopatología de los trastornos axiales relacionados con la enfermedad de Parkinson; su aferencia más importante, procedente del núcleo subtalámico, parece ser una pieza clave para entender la participación del NPP en el parkinsonismo (AU)