Dopaminergic stimulation increases selfish behavior in the absence of punishment threat.

RATIONALE People often face decisions that pit self-interested behavior aimed at maximizing personal reward against normative behavior such as acting cooperatively, which benefits others. The threat of social sanctions for defying the fairness norm prevents people from behaving overly selfish. Thus, normative behavior is influenced by both seeking rewards and avoiding punishment. However, the neurochemical processes mediating the impact of these influences remain unknown. Several lines of evidence link the dopaminergic system to reward and punishment processing, respectively, but this evidence stems from studies in non-social contexts. OBJECTIVES The present study investigates dopaminergic drug effects on individuals' reward seeking and punishment avoidance in social interaction. METHODS Two-hundred one healthy male participants were randomly assigned to receive 300 mg of L-3,4-dihydroxyphenylalanine (L-DOPA) or a placebo before playing an economic bargaining game. This game involved two conditions, one in which unfair behavior could be punished and one in which unfair behavior could not be punished. RESULTS In the absence of punishment threats, L-DOPA administration led to more selfish behavior, likely mediated through an increase in reward seeking. In contrast, L-DOPA administration had no significant effect on behavior when faced with punishment threats. CONCLUSIONS The results of this study broaden the role of the dopaminergic system in reward seeking to human social interactions. We could show that even a single dose of a dopaminergic drug may bring selfish behavior to the fore, which in turn may shed new light on potential causal relationships between the dopaminergic system and norm abiding behaviors in certain clinical subpopulations.

Nuevos mecanismos moleculares de tolerancia a sequía y otros tipos de estrés abiótico en especies arbóreas de interés económico

Las masas forestales tienen una importancia colosal para nuestra sociedad y el conjunto de la biosfera. Estudios recientes a escala mundial indican que la sequía es el factor abiótico que más afecta a su crecimiento y supervivencia, seguida por las temperaturas extremas y la salinidad. Aunque comprender los mecanismos con que las especies arbóreas toleran estas formas de estrés tiene un interés aplicado evidente, dichos mecanismos se han estudiado mucho más en especies herbáceas modelo o de interés agronómico. Existen sin embargo diferencias notables entre ellas, como se demuestra en esta tesis y en otros trabajos recientes. Nuestro estudio se centra concretamente en la respuesta molecular del chopo –el sistema modelo forestal más desarrollado– al estrés abiótico, con particular énfasis en la sequía. Utilizando una estrategia proteómica y tratamientos controlados, hemos identificado componentes mayoritarios de dicha respuesta. Su participación en la misma se ha validado mediante análisis transcripcionales detallados utilizando tecnología qRT-PCR (PCR cuantitativa en tiempo real). Hemos identificado proteínas cuyo nexo funcional con mecanismos de tolerancia ya era conocido, como chaperonas moleculares sHSP o enzimas que atenúan el estrés oxidativo, pero también proteínas cuya relación funcional con el estrés es menos clara o incluso novedosa, como polifenol oxidasas (PPO), deshidrogenasas/reductasas de cadena corta (SDR), o bicupinas (BIC), entre otras. El cuerpo central de la tesis consiste en la caracterización detallada de una PPO inusual, cuya inducción por estrés hídrico se describe por vez primera. Estas enzimas están ampliamente distribuidas en plantas, si bien su número es muy variable de unas especies a otras. Algunas, como nogal, tienen un único gen, mientras que Arabidopsis no tiene ninguno. En la última versión del genoma de chopo hemos identificado un total de 12 miembros bona fide, corrigiendo trabajos previos, y hemos caracterizado su expresión individual ante diferentes situaciones de estrés controlado y tratamientos hormonales. La isoforma antedicha es el único miembro de la familia que responde claramente a la deshidratación. También responde a salinidad y a la mayor parte de tratamientos hormonales ensayados, pero no a daño mecánico o tratamientos con metil jasmonato. Esto la diferencia de enzimas homólogas presentes en otras especies de plantas, que se han relacionado experimentalmente con estrés biótico. Los patrones de acumulación de transcritos en árboles adultos son compatibles con un papel protector frente a la sequía. La integración de nuestros estudios funcionales y filogenéticos sugiere que la familia ha sufrido un proceso reciente de diversificación y neofuncionalización, siendo la protección frente a deshidratación su papel primigenio. Aunque se conoce la actividad bioquímica in vitro de este tipo de enzimas, sus sustratos naturales son esencialmente una incógnita. Mediante expresión heteróloga en Escherichia coli BL21(DE3) hemos detectado que la enzima de chopo es capaz de oxidar L-DOPA a dopaquinona, siendo menos activa frente a otros sustratos. Por otra parte, hemos demostrado su localización cloroplástica mediante transformación transitoria de protoplastos con fusiones a la proteína fluorescente YFP. Mediante la obtención de plantas transgénicas de A. thaliana hemos demostrado que la enzima de chopo aumenta considerablemente la tolerancia in vivo frente a la deshidratación y al estrés salino. El análisis fenotípico detallado de las líneas transgénicas, combinando múltiples metodologías, nos ha permitido sustanciar que la tolerancia tiene una base compleja. Esta incluye una mayor protección del sistema fotosintético, una capacidad antioxidante muy incrementada y la acumulación de solutos osmoprotectores como la prolina. Los análisis metabolómicos nos han permitido asociar la expresión de la proteína a la síntesis de un flavano no descrito previamente en A. thaliana, vinculando la enzima de chopo con la síntesis de fenilpropanoides. También hemos observado alteraciones en los niveles hormonales que podrían subyacer a efectos pleiotrópicos con interés aplicado, como un aumento consistente del tamaño de la planta o el acortamiento del ciclo de crecimiento. Además de aportar datos novedosos sobre la funcionalidad in vivo de esta familia de oxidasas, los resultados de esta tesis demuestran que los árboles son sistemas de estudio interesantes para caracterizar nuevas estrategias de tolerancia al estrés abiótico con potencial aplicado. ABSTRACT Forests masses have an extraordinary importance for our society and the biosphere. Recent worldwide studies indicate that drought is the abiotic factor that affects more their growing and survival, followed by extreme temperatures and salinity. The understanding of how the arboreal species tolerate the stress has an evident practical interest, but their mechanisms have been studied much more in herbaceous species or with agronomic interest. However, considerable differences exist between them, as this thesis and recent studies show. Our study is focused on the molecular response of the poplar –the more developed forestry model system- to abiotic stress, specifically focused in the drought. Using a proteomic strategy and controlled treatments, we have identified main components in such response. Its participation has been validated through transcriptional analysis using qRT-PCR technology. We have identified proteins whose functional connection with tolerance mechanisms were already known, as molecular chaperones sHSP or enzymes that attenuate the oxidative stress, but also some proteins whose functional relationship with the stress is less clear or even novel, as polifenol oxidases (PPO), short chain deshidrogenases/reductases (SDR), or bicupines (BIC), among others. The central body of the thesis consists of the detailed characterization of an unsual PPO, whose induction due to drought stress is first described. These enzymes are thoroughly distributed in plants, but their number of members is very variable among species. Some of them, as the walnut tree, have a single gene, while Arabidopsis has none. We have identified a total of 12 members in the last version of the poplar genome, correcting previous works, and have characterized their individual expression against different situations of controlled stress and hormone treatments. The aforementioned isoform is the only member of the family that responds clearly to the drought. It also reacts to salinity and the majority of hormonal treatments tested, but it does not respond to mechanical damage or treatments with methyl jasmonate. This is the difference with homologue enzymes present in other plant species, which have been related experimentally with abiotic stress. The accumulation patterns of transcripts in adult trees are compatible with a protector role against drought. The integration of our functional and phylogenetic studies suggests that the family has suffered a recent process of diversification and neofunctionalization, being the protection against drought their original role. Although the in vitro biochemistry activity of this kind of enzymes is already known, their natural substracts are essentially a mystery. By means of heterologous expression of Escherichia coli BL21(DE3) we have detected that the enzyme of poplar is able to oxidize L-DOPA to dopaquinone, being less active against other substrates. Additionally, we have proven its chloroplastic location with transitory transformation of protoplasts with YFP protein fusion. By means of getting transgenic plants of A. thaliana, we have demonstrated that the poplar enzyme increases notably the in vivo tolerance against the drought and salinity stresses. The phenotypic analysis of the transgenic lines, and the use of multiple methodologies, allowed us to test the complexity of the tolerance. This includes a major protection of the photosynthetic system, a very increased antioxidant capacity and the accumulation of osmoprotectant solutes as the proline. The metabolic analysis has allowed to associate the protein expression with the synthesis of a Flavan non described previously in A. thalaiana, linking the enzyme of poplar with the synthesis of phenylpropanoids. We have observed alterations in the hormonal levels that could underlie pleiotropic effects with applied interest, as a consistent increase of the size of the plant and the reduction of the growth cycle. The results of this thesis, in addition to provide novel data about the in vivo functionality of the oxidase family, demonstrate that the trees are interesting systems of study to characterize new strategies of tolerance against abiotic stress with applied potential.

Selective loss of dopaminergic nigro-striatal neurons in brains of Atm-deficient mice

Ataxia-telangiectasia (AT) is a human disease caused by mutations in the ATM gene. The neural phenotype of AT includes progressive cerebellar neurodegeneration, which results in ataxia and eventual motor dysfunction. Surprisingly, mice in which the Atm gene has been inactivated lack distinct behavioral ataxia or pronounced cerebellar degeneration, the hallmarks of the human disease. To determine whether lack of the Atm protein can nonetheless lead to structural abnormalities in the brain, we compared brains from male Atm-deficient mice with male, age-matched controls. Atm-deficient mice exhibited severe degeneration of tyrosine hydroxylase-positive, dopaminergic nigro-striatal neurons, and their terminals in the striatum. This cell loss was accompanied by a large reduction in immunoreactivity for the dopamine transporter in the striatum. A reduction in dopaminergic neurons also was evident in the ventral tegmental area. This effect was selective in that the noradrenergic nucleus locus coeruleus was normal in these mice. Behaviorally, Atm-deficient mice expressed locomotor abnormalities manifested as stride-length asymmetry, which could be corrected by peripheral application of the dopaminergic precursor l-dopa. In addition, these mice were hypersensitive to the dopamine releasing drug d-amphetamine. These results indicate that ATM deficiency can severely affect dopaminergic neurons in the central nervous system and suggest possible strategies for treating this aspect of the disease.

Role of the integument in insect defense: pro-phenol oxidase cascade in the cuticular matrix.

The cuticle of the silkworm Bombyx mori was demonstrated to contain pro-phenol oxidase [zymogen of phenol oxidase (monophenol, L-dopa:oxygen oxidoreductase, EC 1.14.18.1)] and its activating cascade. The activating cascade contained at least one serine proteinase zymogen (latent form of pro-phenol oxidase activating enzyme). When the extracted cascade components were incubated with Ca2+, the latent form of pro-phenol oxidase activating enzyme was itself activated and, in turn, converted through a limited proteolysis of pro-phenol oxidase to phenol oxidase. Immuno-gold localization of prophenol oxidase in the cuticle using a cross-reactive hemolymph anti-pro-phenol oxidase antibody revealed a random distribution of this enzyme in the nonlamellate endocuticle and a specific orderly arrayed pattern along the basal border of the laminae in the lamellate endocuticle of the body wall. Furthermore, prophenol oxidase was randomly distributed in the taenidial cushion of the tracheal cuticle. At the time of pro-phenol oxidase accumulation in the body wall cuticle, no pro-phenol oxidase mRNA could be detected in the epidermal tissue, whereas free-circulating hemocytes contained numerous transcripts of pro-phenol oxidase. Our results suggest that the pro-phenol oxidase is synthesized in the hemocytes and actively transported into the cuticle via the epidermis.

Nucleotide sequence of the cDNA encoding the proenzyme of phenol oxidase A1 of Drosophila melanogaster.

Clones encoding pro-phenol oxidase [pro-PO; zymogen of phenol oxidase (monophenol, L-dopa:oxygen oxidoreductase, EC 1.14.18.1)] A1 were isolated from a lambda gt10 library that originated from Drosophila melanogaster strain Oregon-R male adults. The 2294 bp of the cDNA included a 13-bp 5'-noncoding region, a 2070-bp encoding open reading frame of 690 amino acids, and a 211-bp 3'-noncoding region. A hydrophobic NH2-terminal sequence for a signal peptide is absent in the protein. Furthermore, there are six potential N-glycosylation sites in the sequence, but no amino sugar was detected in the purified protein by amino acid analysis, indicating the lack of an N-linked sugar chain. The potential copper-binding sites, amino acids 200-248 and 359-414, are highly homologous to the corresponding sites of hemocyanin of the tarantula Eurypelma californicum, the horseshoe crab Limulus polyphemus, and the spiny lobster Panulirus interruptus. On the basis of the phylogenetic tree constructed by the neighbor-joining method, vertebrate tyrosinases and molluscan hemocyanins constitute one family, whereas pro-POs and arthropod hemocyanins group with another family. It seems, therefore, likely that pro-PO originates from a common ancestor with arthropod hemocyanins, independently to the vertebrate and microbial tyrosinases.

Molecular cloning of insect pro-phenol oxidase: a copper-containing protein homologous to arthropod hemocyanin.

Pro-phenol oxidase [pro-PO; zymogen of phenol oxidase (monophenol, L-dopa:oxygen oxidoreductase, EC 1.14.18.1)] is present in the hemolymph plasma of the silkworm Bombyx mori. Pro-PO is a heterodimeric protein synthesized by hemocytes. A specific serine proteinase activates both subunits through a limited proteolysis. The amino acid sequences of both subunits were deduced from their respective cDNAs; amino acid sequence homology between the subunits was 51%. The deduced amino acid sequences revealed domains highly homologous to the copper-binding site sequences (copper-binding sites A and B) of arthropod hemocyanins. The overall sequence homology between silkworm pro-PO and arthropod hemocyanins ranged from 29 to 39%. Phenol oxidases from prokaryotes, fungi, and vertebrates have sequences homologous to only the copper-binding site B of arthropod hemocyanins. Thus, silkworm pro-PO DNA described here appears distinctive and more closely related to arthropod hemocyanins. The pro-PO-activating serine proteinase was shown to hydrolyze peptide bonds at the carboxyl side of arginine in the sequence-Asn-49-Arg-50-Phe-51-Gly-52- of both subunits. Amino groups of N termini of both subunits were indicated to be N-acetylated. The cDNAs of both pro-PO subunits lacked signal peptide sequences. This result supports our contention that mature pro-PO accumulates in the cytoplasm of hemocytes and is released by cell rupture, as for arthropod hemocyanins.

Parkinson's disease and gastrointestinal dysfunctions: morphological, neurochemical and functional modifications of the enteric nervous system associated with central dopaminergic impairment

Parkinson’s disease (PD) is frequently associated with gastrointestinal (GI) symptoms, mostly represented by abdominal distension, constipation and defecatory dysfunctions. Despite GI dysfunctions have a major impact on the clinical picture of PD, there is currently a lack of information on the neurochemical, pathological and functional correlates of GI dysmotility associated with PD. Moreover, there is a need of effective and safe pharmacological therapies for managing GI disturbances in PD patients. The present research project has been undertaken to investigate the relationships between PD and related GI dysfunctions by means of investigations in an animal model of PD induced by intranigral injection of 6-hydroxydopamine (6-OHDA). The use of the 6-OHDA experimental model of PD in the present program has allowed to pursue the following goals: 1) to examine the impact of central dopaminergic denervation on colonic excitatory cholinergic and tachykininergic neuromotility by means of molecular, histomorphologic and functional approaches; 2) to elucidate the role of gut inflammation in the onset and progression of colonic dysmotility associated with PD, characterizing the degree of inflammation and oxidative damage in colonic tissues, as well as identifying the immune cells involved in the production of pro-inflammatory cytokines in the gut; 3) to evaluate the impact of chronic treatment with L-DOPA plus benserazide on colonic neuromuscular activity both in control and PD animals. The results suggest that central nigrostriatal dopaminergic denervation is associated with an impaired excitatory cholinergic neurotransmission and an enhanced tachykininergic control, resulting in a dysregulated smooth muscle motor activity, which likely contributes to the concomitant decrease in colonic transit rate. These motor alterations might result from the occurrence of a condition of gut inflammation associated with central intranigral denervation. The treatment with L-DOPA/BE following central dopaminergic neurodegeneration can restore colonic motility, likely through a normalization of the cholinergic enteric neurotransmission, and it can also improve the colonic inflammation associated with central dopaminergic denervation.

Dopamine signaling is essential in cognitive process and motor performance

La dopamina es uno de los principales neurotransmisores del sistema nervioso central y desempeña un papel esencial en diferentes funciones: neuroendocrinas, motivacionales/emocionales y, especialmente, motoras y cognitivas. Las funciones de la dopamina están media-das en gran medida por la estimulación de sus principales receptores D1 (D1R) y D2 (D2R). En esta tesis hemos estudiado el papel que ambos receptores desempeñan en los procesos de apren-dizaje y memoria, así como la regulación que ejercen sobre las neuronas estriatales TH-immunoreactivas (TH-ir) y su posible implicación en la respuesta motora. Para abordar este proyecto hemos utilizado ratones knock-out para el receptor D1 (Drd1a-/-) y D2 (Drd2-/-) ya que no existen compuestos farmacológicos capaces de diferenciar eficazmente entre receptores dopaminérgicos de la misma familia. Además, para el estudio de las neuronas TH-ir realizamos lesiones con 6-OHDA a ratones que posteriormente recibieron un tratamiento crónico con L-DOPA, siendo este el mecanismo más eficaz para inducir la expresión de las neuronas TH-ir objeto de nuestro estudio. Para completar todo ello realizamos test conductuales que evalúan respuesta motora, como el test del cilindro, y diferentes tipos de aprendizaje y me-moria para los cuales utilizamos test específicos. Entre estos test se encuentran: los laberintos de Barnes y Morris para memoria espacial, evitación activa/pasiva y condicionamiento del mie-do para el aprendizaje asociativo, y el reconocimiento de objetos para la memoria de reconoci-miento...

Antioxidants and protein oxidation

Proteins are susceptible to oxidation by reactive oxygen species, where the type of damage induced is characteristic of the denaturing species. The induction of protein carbonyls is a widely applied biomarker, arising from primary oxidative insult. However, when applied to complex biological and pathological conditions it can be subject to interference from lipid, carbohydrate and DNA oxidation products. More recently, interest has focused on the analysis of specific protein bound oxidised amino acids. Of the 22 amino acids, aromatic and sulphydryl containing residues have been regarded as being particularly susceptible to oxidative modification, with L-DOPA from tyrosine, ortho-tyrosine from phenylalanine; sulphoxides and disulphides from methionine and cysteine respectively; and kynurenines from tryptophan. Latterly, the identification of valine and leucine hydroxides, reduced from hydroperoxide intermediates, has been described and applied. In order to examine the nature of oxidative damage and protective efficacy of antioxidants the markers must be thoroughly evaluated for dosimetry in vitro following damage by specific radical species. Antioxidant protection against formation of the biomarker should be demonstrated in vitro. Quantification of biomarkers in proteins from normal subjects should be within the limits of detection of any analytical procedure. Further to this, the techniques for isolation and hydrolysis of specific proteins should demonstrate that in vitro oxidation is minimised. There is a need for the development of standards for quality assurance material to standardise procedures between laboratories. At present, antioxidant effects on protein oxidation in vivo are limited to animal studies, where dietary antioxidants have been reported to reduce dityrosine formation during rat exercise training. Two studies on humans have been reported last year. The further application of these methods to human studies is indicated, where the quality of the determinations will be enhanced through inter-laboratory validation.

Gallium-transferrin binding in treated and untreated Parkinson's disease

The binding of gallium (Ga) to transferrin (Tf) was studied in plasma from control patients, in patients with untreated Parkinson's disease (PD) and in patients with PD treated either with levodopa (L-dopa) alone or in combination with selegiline. Mean percentage Ga-Tf binding was significantly reduced in untreated and treated PD compared with controls. Binding, however, was significantly greater in treated than in untreated patients. There was no difference in binding between patients treated with L-dopa alone and those treated with L-dopa and selegiline. The data support the hypothesis that oxidation reactions may be of pathogenic significance in PD.

Renal dopamine and salt-retaining states

Although generally regarded as a neurotransmitter, dopamine is also known to be secreted by the kidney whereby it promotes sodium excretion in its role as a natriuretic honnone. Peripheral dopamine may be formed by two alternative pathways; the decarboxylation of circulating L-Dopa by L-aromatic amino acid decarboxylase (LAAAD), and the desulphation of dopamine sulphate by arylsulphatase A (ASA), the latter being poorly represented in the literature. In many conditions and diseases with which sodium retention is associated, a reduced urinary excretion of dopamine has been noted implicating the involvement of dopamine in the maintenance of sodium homeostasis.This study investigates renal dopamine production via the desulphation of dopamine sulphate in a sample cohort during normal unregulated dietary sodium intake and following a low sodium regimen. After dietary salt restriction urinary dopamine sulphate levels were significantly increased, indicating that dopamine sulphate is indeed a physiological reservoir of active free dopamine, the necessity for which is reduced during self depletion. This confirmed the dopamine/dopamine sulphate pathway as one which may be relevant to the maintenance of sodium homeostasis. The activity of urinary ASA was investigated in diabetes mellitus as an example of a sodium-retaining state, and compared with that in a matched normal control group. A decreased ASA activity was anticipated, given the blunted dopamine excretion observed in many sodium-retaining states, however an unexpected increase in activity in the diabetic group was observed. Enzyme kinetic analysis of ASA showed that this was not due to the existence of an isoform having an altered affinity for dopamine sulphate. This rather paradoxical situation, that urinary-dopamine is decreased while ASA activity is increased, may be explained by the sequestering of free dopamine by autoxidation to 6-hydroxydopamine as has been hypothesised recently to occur in diabetes mellitus. To confirm the homogeneity of ASA in the normal and diabetic groups, four amplicons spanning the 3637bp intronic and exonic regions of the gene were generated by PCR. These were sequence utilising a fluorescent-dye terminator reaction using the forward PCR primer as sequencing primer. Although single nucleotide polymorphisms were observed between the two groups these occurred either in intronic regions or, when exonic, generated silent mutations, supporting the enzyme kinetic data. The expression of ASA was investigated to determine the basis of the increased activity observed in diabetes mellitus. Although a validated comparative RT-PCR assay was developed for amplification of arsa transcripts from fresh blood samples, expression analysis from archived paraffin-embedded renal tissue was complicated by the low yield and degradation of unprotected mRNA. Suggestions for the development of this work using renal cell-culture are discussed.

The effects of some neurotoxins on tetrahydrobiopterin metabolism

Previous studies in man have shown that following dosing with L--3,4-dihydroxyphenylalanine (L-DOPA) and cotrimoxazole, plasma biopterins were raised. By analogy with dihydropteridine reductase deficient children in whom plasma biopterins are greatly elevated and the observations that these preparations were dihydropteridine reductase inhibitors, it was assumed that these raised plasma levels were due to increased efflux from tissues which resulted in tissue depletion of biopterins. In some human disease states such as senile dementia of the Alzheimer type lowered plasma biopterins were observed; by analogy with tetrahydrobiopterin synthesis deficient children these reduced plasma biopterins were attributed to lowered tetrahydrobiopterin synthesis and concomitant low tissue biopterin levels. Because of ethical considerations it was not possible to measure directly the tissue biopterins changes in either case. The Wistar rat was used as a model for human tetrahydrobiopterin metabolism, since tissues not normally accessible for study in humans, such as the brain and liver, could be examined for their effects on tetrahydrobiopterin metabolism after administration of the various agents. Plasma total biopterins in normal conditions were found to be much higher than in healthy humans. The elevation of plasma total biopterins concentration following the administration of dihydropteridine reductase inhibitors to humans, such as L-DOPA and cotrimoxazole was not observed in the rat. However, the administration of inhibitors of de novo tetrahydrobiopterin biosynthesis, such as diaminohydroxypyrimidine (DAHP) and bromocriptine was shown to decrease plasma biopterins concentration. In general, hepatic biopterins were decreased after administration of both dihydropteridine reductase inhibitors and de novo biosynthesis inhibitors. Drugs which are direct (bromocriptine) or indirect (L-DOPA and Sinemet Plus) agonists at dopamine receptors were investigated and were shown to decrease hepatic total biopterins concentration, but had no effect on brain biopterins. Bromocriptine was demonstrated as a potent inhibitor of de novo tetrahydrobiopterin biosynthesis in vivo and in vitro. Cotrimoxazole decreased brain tetrahydrobiopterin concentration. DAHP was effective in causing hyperphenylalaninaemia due to tetrahydrobiopterin deficiency in the rat. p-hydroxyphenylacetate was shown to be an effective inhibitor of dihydropteridine reductase in vivo. Phenylacetate administration had no observable effect on tetrahydrobiopterin metabolism, but did cause tyrosinaemia. It is proposed that scopolamine reduces tetrahydrobiopterin turnover. Lead and aluminium exposure caused deranged tetrahydrobiopterin metabolism. Aluminium, but not lead decreased brain choline acetyltransferase activity. Phenylalanine loading in normal human subjects was followed by an elevation in plasma biopterins which was not observed after tyrosine loading. Plasma N : B ratios correlated well with VEP latencies after tyrosine loading, but not after phenylalanine loading in healthy subjects. The use of derived pterin measurements as an indicator of tetrahydrobiopterin turnover or tetrahydrofolate status is discussed in the text.

Delivery of phosphonoformate prodrugs

AIDS dementia complex is a common neurological syndrome thought to result from the invasion of the CNS by HIV. Phosphonoformate has anti-HIV activity but due to its charged nature is excluded from the CNS by the blood-brain barrier. Lipophilic triesters of phosphonoformate designed to improve transport properties are unsuitable prodrugs due to their rapid and complicated hydrolysis, involving competitive P-O and P-C bond cleavage. Diesters, though hydrolytically stable, are considered too polar to passively diffuse into the CNS. Hydrophilic drugs mimicking endogenous nutrients are known to be actively transported across the blood-brain barrier. In this thesis the possibility that diesters of phosphonoformate may be actively transported is investigated. Triesters of phosphonoformate with labile aryl carboxyl esterrs were synthesised and their hydrolysis followed by 31P NMR spectroscopy. The triesters were found to undergo rapid hydrolysis via P-C bond cleavage to the phosphite. Phosphonoformate diesters designed to be analogues of actively transported -keto acids have been synthesised and fully characterised. Tyrosine-phosphonoformate and lipid-phosphonoformate conjugates have also been synthesised and characterised. An in vitro model of the blood-brain barrier utilising confluent monolayers of porcine brain microvessel endothelial cells grown on a permeable support has been established. The presence of enzyme and antigen markers specific to the blood-brain barrier has been demonstrated for the endothelial cells and the diffusional properties of the model investigated with hydrophilic and lipophilic compounds. Active transport systems for -keto acids and large amino acids have been identified in the endothelial cell monolayers using 14C-pyruvate and 3H-L-tyrosine respectively. Temperature and concentration dependence of the two systems have been demonstrated and transport constants calculated. Competition with 14C-pyruvate transport was shown with other monocarboxylic acids including the anti-epileptic drug valproate. Stereospecificity was shown in that L-lactate inhibited pyruvate transport while D-lactate did not. Sodium methyl methoxycarbonylphosphonate, a phosphonoformate diester was shown not to compete for 14C-pyruvate transport indicating that this compound has no affinity for the carrier. Competition with 3H-L-tyrosine transport was shown with other large amino acids, including the anti-Parkinsonian agent L-dopa. Stereospecificity was shown using L- and D-tyrosine and L- and D-dopa. The tyrosine-phosphonoformate conjugate, which was stable under the experimental conditions, was shown to compete with 3H-Ltyrosine transport indicating that it may be actively transported at the blood-brain barrier. Thirty two triesters, diesters and monoesters of phosphonoformate, showed no activity in an anti-HIV screen above that attributable to hydrolysis to the parent compound.

GABA-mediated changes in inter-hemispheric beta frequency activity in early-stage Parkinson's disease

In Parkinson's disease (PD), elevated beta (15-35Hz) power in subcortical motor networks is widely believed to promote aspects of PD symptomatology, moreover, a reduction in beta power and coherence accompanies symptomatic improvement following effective treatment with l-DOPA. Previous studies have reported symptomatic improvements that correlate with changes in cortical network activity following GABAA receptor modulation. In this study we have used whole-head magnetoencephalography to characterize neuronal network activity, at rest and during visually cued finger abductions, in unilaterally symptomatic PD and age-matched control participants. Recordings were then repeated following administration of sub-sedative doses of the hypnotic drug zolpidem (0.05mg/kg), which binds to the benzodiazepine site of the GABAA receptor. A beamforming based 'virtual electrode' approach was used to reconstruct oscillatory power in the primary motor cortex (M1), contralateral and ipsilateral to symptom presentation in PD patients or dominant hand in control participants. In PD patients, contralateral M1 showed significantly greater beta power than ipsilateral M1. Following zolpidem administration contralateral beta power was significantly reduced while ipsilateral beta power was significantly increased resulting in a hemispheric power ratio that approached parity. Furthermore, there was highly significant correlation between hemispheric beta power ratio and Unified Parkinson's Disease Rating Scale (UPDRS). The changes in contralateral and ipsilateral beta power were reflected in pre-movement beta desynchronization and the late post-movement beta rebound. However, the absolute level of movement-related beta desynchronization was not altered. These results show that low-dose zolpidem not only reduces contralateral beta but also increases ipsilateral beta, while rebalancing the dynamic range of M1 network oscillations between the two hemispheres. These changes appear to underlie the symptomatic improvements afforded by low-dose zolpidem.

Modelo animal da Doença de Parkinson baseado na expressão de alfa - sinucleína: caracterização comportamental, eletrofisiológica e avaliação dos efei tos da estimulação da medula espinhal

Parkinson disease (PD) is associated with motor symptoms and dopaminergic cell loss in the nigrostriatal pathway. Alpha-synuclein is the major component of the Lewy bodies, the biological hallmarks of disease, and has been associated with familial cases of PD. Recently, the spinal cord stimulation (SCS) showed to be effective to alleviate the Parkinson symptoms in animal models and human patients. In this project, we characterized the motor and electrophysiological effects of alpha-synuclein overexpression in the substantia nigra of rats. We further investigated the effects of spinal electrical stimulation, AMPT and L-dopa administration in this model. Method: Sprague-Dawley rats were injected with empty viral vector or the vector carrying the gene for alpha-synuclein in the substantia nigra, and were tested weekly for 10 weeks in the open field and cylinder tests. A separated group of animals implanted with bilateral electrode arrays in the motor cortex and the striatum were recorded in the open field, during the SCS sessions and the pharmacological experiments. Results: Alpha-synuclein expression resulted in motor asymmetry, observed as the reduction in use of contralateral forepaw in the cylinder test. Animals showed an increase of local field potential activity in beta band three and four weeks after the virus injection, that was not evident after the 5th week. AMPT resulted in a sever parkinsonian state, with reduction in the locomotor activity and significant peak of oscillatory activity in cortex and striatum. SCS was effective to alleviate the motor asymmetry at long term, but did not reduce the corticostriatal low frequency oscillations observed 24 hs after the AMPT administration. These oscillations were attenuated by L-dopa that, even as SCS, was not effective to restore the locomotor activity during the severe dopaminergic depletion period. Discussion: The alpha-synuclein model reproduces the motor impairment and the progressive neurodegenerative process of PD. We demonstrated, by the first time, that this model also presents the increase in low frequency oscillatory activity in the corticostriatal circuit, compatible with parkinsonian condition; and that SCS has a therapeutic effect on motor symptom of this model.