Ophthalmic features of PLA2G6-related paediatric neurodegeneration with brain iron accumulation.

BACKGROUND: Neurodegeneration with brain iron accumulation (NBIA) refers to genetically heterogenous paediatric neurodegenerative disorders characterised by basal ganglia iron deposition. One major cause is recessive mutations in the PLA2G6 gene. While strabismus and optic nerve pallor have been reported for PLA2G6-related disease, the ophthalmic phenotype is not carefully defined. In this study we characterise the ophthalmic phenotype of PLA2G6-related NBIA. METHODS: Prospective cohort study. RESULTS: The eight patients were 4-26 years old when examined. All had progressive cognitive and motor regression first noted between 9 months and 6 years of age that typically first manifested as difficulty walking (ataxia). Ophthalmic examination was sometimes limited by cognitive ability. Four of eight had exotropia, 7/7 bilateral supraduction defect, 5/7 poor convergence, 6/8 saccadic pursuit, 4/8 saccadic intrusions that resembled square-wave jerks, and 8/8 bilateral optic nerve head pallor. All patients lacked Bell phenomenon. CONCLUSIONS: Upgaze palsy, although not a previously reported finding, was confirmed in all patients (except in one for whom assessment could not be performed) and thus can be considered part of the phenotype in children and young adults. Other frequent findings not previously highlighted were abnormal convergence, saccadic pursuit, and saccadic intrusions. Optic nerve head pallor and strabismus, previously reported findings in the disease, were found in 100% and 50% of our cohort, respectively, and the strabismus in our series was always exotropia. Taken together, these clinical findings may be helpful in distinguishing PLA2G6-related neurodegeneration from the other major cause of NBIA, recessive PANK2 mutations.

Comparison and validation of tissue modelization and statistical classification methods in T1-weighted MR brain images.

This paper presents a validation study on statistical nonsupervised brain tissue classification techniques in magnetic resonance (MR) images. Several image models assuming different hypotheses regarding the intensity distribution model, the spatial model and the number of classes are assessed. The methods are tested on simulated data for which the classification ground truth is known. Different noise and intensity nonuniformities are added to simulate real imaging conditions. No enhancement of the image quality is considered either before or during the classification process. This way, the accuracy of the methods and their robustness against image artifacts are tested. Classification is also performed on real data where a quantitative validation compares the methods' results with an estimated ground truth from manual segmentations by experts. Validity of the various classification methods in the labeling of the image as well as in the tissue volume is estimated with different local and global measures. Results demonstrate that methods relying on both intensity and spatial information are more robust to noise and field inhomogeneities. We also demonstrate that partial volume is not perfectly modeled, even though methods that account for mixture classes outperform methods that only consider pure Gaussian classes. Finally, we show that simulated data results can also be extended to real data.

Delta-9-tetrahydrocannabinol (THC) protects partly against demyelination by modulating the inflammatory response: an in vitro study in aggregating brain cell cultures

Delta 9-tetrahydrocannabinol (THC) has been proposed as therapeutic agent in the treatment of multiple sclerosis. In the present study, we examined whether a modulation of brain inflammatory by THC may protect against demyelination. Myelinating aggregating brain cell cultures were subjected to demyelination by a repeated treatment (3x) with the two inflammatory agents interferon-y (IFN-y) and lipopolysaccharide (LPS). The effects of THC on an acute inflammatory reponse were also examined by treating the aggregates with a single application of the two inflammatory agents. THC effects on the demyelinating process and on several mediators of the inflammatory reponse were analyzed. THC treatment partially prevented the decreased immunoreactivity for MBP, and the decrease in MBP content measured by immunoblotting. It prevented IFN-y + LPS -induced microglial reactivity; and decreased the IFN-y + LPS-induced i8ncreased phosphorylation of p44/42 MAP kinase. The other inflammatory markers, I-NOS and TNF-a mRNA expression, and p38 MAP kinase phosphorylation of p44/42 MAP kinase. The other inflammatory markers, I-NOS and TNF-a mRNA expression, and p38 MAP kinase phosphorylation were downregulated by THC treatment following a single application of the inflammatory agents, but not after repeated applications. THC protected partially against the IFN-y + LPS-induced demyelination. The protective effect of THC on IFN-y + LPS-induced demyelination may be due to a decrease of the inflammatory reponse. However, the anti-inflammatory effect of THC on some inflammatory markers is lost when the inflammatory response is more proeminent and of longer duration, suggesting either that the anti-inflammatory effect of a molecule may depend on the properties of the inflammatory response, or that the anti-inflammatory potential of THC decreases in case of repeated exposure.

Is screening for fetal anomalies reliable in HIV-infected pregnant women? A multicentre study.

OBJECTIVE: To assess the impact of HIV infection on the reliability of the first-trimester screening for Down syndrome, using free beta-human chorionic gonadotrophin, pregnancy-associated plasma protein-A and fetal nuchal translucency, and of the second-trimester screening for neural tube defects, using alpha-fetoprotein. PATIENTS AND METHODS: Multicentre study comparing the multiples of the median of markers for Down syndrome and neural tube defect screening among 214 HIV-infected pregnant women and 856 HIV-negative controls undergoing a first-trimester Down syndrome screening test, and 209 HIV-positive women and 836 HIV-negative controls with a risk evaluation for neural tube defect. The influence of treatment, chronic hepatitis and HIV disease characteristics were also evaluated. RESULTS: Multiples of the median medians for pregnancy-associated plasma protein-A and beta-human chorionic gonadotrophin were lower in HIV-positive women than controls (0.88 vs. 1.05 and 0.84 vs. 1.09, respectively; P < 0.005), but these differences had no impact on risk estimation; no differences were observed for the other markers. No association was found between HIV disease characteristics, antiretroviral treatment use at the time of screening or chronic hepatitis and marker levels. CONCLUSION: Screening for Down syndrome during the first trimester and for neural tube defect during the second trimester is accurate for HIV-infected women and should be offered, similar to HIV-negative women.

Schizophrenia: glutathione deficit as a new vulnerability factor for disconnectivity syndrome

(from the journal abstract) Schizophrenia, a major psychiatric disease, affects individuals in the centre of their personality. Its aetiology is not clearly established. In this review, we will present evidence that patients suffering of schizophrenia present a brain deficit in glutathione, a major endogenous redox regulator and antioxidant. We will also show that, in experimental models, a decrease in glutathione, particularly during development, induces morphological, electrophysiological and behavioural anomalies consistent with those observed in the disease. In the cerebrospinal fluid of drug-naive schizophrenics, glutathione level was decreased by 27% and its direct metabolite of glutathione by 16%. Glutathione level in prefrontal cortex of patients, measured by magnetic resonance spectroscopy, was 52% lower than in controls. Patients' fibroblasts reveal a decrease in mRNA levels of the two glutathione synthesising enzymes, glutamatecysteine ligase modulatory subunit (GCLM) and glutathione synthetase. GCLM expression level in fibroblasts correlates negatively with symptoms severity. Glutathione is an important endogenous redox regulator and neuroactive substance. It is protecting cells from damage by reactive oxygen species generated, among others, by dopamine metabolism. A glutathione deficit-induced oxidative stress would lead to lipid peroxidation and micro-lesions at the level of dendritic spines, a synaptic damage responsible for abnormal nervous connections or structural disconnectivity. On the other hand, a glutathione deficit could also lead to a functional disconnectivity by depressing NMDA neurotransmission, in analogy to phencyclidine effects. Present experimental data are consistent with the proposed hypothesis: decreasing pharmacologically glutathione level in experimental models, with or without blocking dopamine (DA) uptake (GBR12909), induces morphological, electrophysiological and behavioural changes similar to those observed in patients. In summary, a deficit of glutathione and/or glutathione-related enzymes during early development would lead to both a functional and a structural disconnectivity, which could be at the basis of some perceptive, cognitive and behavioural troubles of the disease. It could constitute a major vulnerability factor for schizophrenia. Attempts to restore physiological glutathione functions could open new therapeutic avenues. This translational research, made possible by a close interaction between clinicians and neuroscientists, should also pave the way to the identification of biological markers for schizophrenia. In turn, they should allow early diagnostic and hopefully preventive intervention to this devastating disease. (PsycINFO Database Record (c) 2005 APA, all rights reserved)

Role for JIP-1/IB1 in pancreatic β-cell and adipocyte dysfunctions in type 2 diabetes and obesity

L'insuline, produite par les cellules β du pancréas, joue un rôle central dans le contrôle de la glycémie. Un manque d'insuline entraine le diabète de type 2, une maladie répandue au stade d'épidémie au niveau mondial. L'augmentation du nombre de personnes obèses est une des causes principales du développement de la maladie. Avec l'obésité les tissus tels que le foie, le muscle, et le tissu adipeux deviennent résistants à l'insuline. En général, cette résistance est équilibrée par une augmentation de la sécrétion d'insuline. De ce fait, un grand nombre d'individus obèses ne deviennent pas diabétiques. Lorsque les cellules β ne produisent plus suffisamment d'insuline, alors le diabète se développe. Dans l'obésité, les cellules graisseuses sont résistantes à l'insuline et relâchent des lipides et autres produits qui affectent le bon fonctionnement et la vie des cellules β. «c-Jun Ν terminal Kinase» (JNK) est une enzyme qui joue un rôle important dans la résistance de l'insuline des cellules graisseuses. Cette même en2yme contribue aussi au déclin de la cellule β dans les conditions diabétogènes, et représente ainsi une cible thérapeutique potentielle du diabète. L'objectif de cette thèse a été de comprendre le mécanisme conduisant à l'activité de JNK dans les adipocytes et cellules β, dans l'obésité et le diabète de type 2. Nous montrons que les variations de JNK sont la conséquence de taux anormaux de JIP-1/EB1, une protéine qui a été impliquée dans certaines formes génétiques de diabète de type 2. En outre nous décrivons le mécanisme responsable des anomalies de JIP1/IB1 dans les adipocytes et cellules β. La restauration des taux de JIP-1/EB1 dans les deux types cellulaires pourrait être un objectif des thérapeutiques antidiabétiques actuelles et futures. - Le nombre d'individus touchés par le diabète de type 2 atteint aujourd'hui des proportions épidémiques à l'échelle mondiale. L'augmentation de la prévalence de l'obésité est la cause principale du développement de la maladie, qui, en général, survient suite à une perte de la sensibilité à l'insuline des tissus périphériques. Dans un grand nombre des cas, l'insulino-résistance est compensée par une augmentation de la sécrétion de l'insuline par les cellules β pancréatiques. Le diabète apparaît lorsque l'insuline n'est plus produite en quantité suffisante pour contrecarrer la résistance à l'insuline des tissus. Le défaut de production de l'insuline résulte du dysfonctionnement et de la réduction massive des cellules β. Les acides gras libres non estérifiés, en particulier le palmitate, provenant d'une alimentation riche en lipides et libérés par les adipocytes insulino-résistants contribuent au déclin de la cellule β en activant la voie de signalisation «cJun N-terminal kinase» (JNK). L'activation de JNK contribue aussi à la résistance à l'insuline des adipocytes dans l'obésité, soulignant ainsi l'importance de cette voie de signalisation dans la pathophysiologie du diabète. L'objectif de cette thèse a été de comprendre les mécanismes qui régulent JNK dans les cellules β et les adipocytes. Nous montrons que l'activation de JNK dans ces deux types cellulaires est la conséquence de la variation des taux de «JNK interacting protein 1» appelé aussi «islet brain 1» (JEP-1/ΓΒΙ), une protéine qui attache les kinases de la signalisation de JNK et dont des variations génétiques ont été associées avec le diabète de type 2. Dans les cellules β cultivées avec du palmitate, ainsi que dans les adipocytes dans l'obésité, l'expression de JEP-l/BBl est modifiée. Les modulations de l'expression de JEP-1/ΓΒΙ sont réalisées par le facteur de transcription «inducible cAMP early repressor» (ICER). L'expression d'ICER dans les adipocytes est diminuée dans l'obésité, et corrèle avec l'augmentation des niveaux de JEP-1/IB1. A l'inverse, le niveau d'expression d'ICER est augmenté dans les cellules β cultivées avec du palmitate, et cette augmentation perturbe le bon fonctionnement des cellules en réduisant les niveaux de JEP-l/IBl. Comme le palmitate, les particules pro-athérogéniques LDL-cholesterol oxydés, sont élevées chez les personnes obèses et diabétiques et sont délétères aux cellules β. Ces particules modifiées activent JNK dans les cellules β en diminuant l'expression de JIP-1/IB1 via ICER. Tous ces résultats montrent que le dérèglement de l'expression de JIP-l/EBl par ICER joue un rôle central dans l'activation de JNK dans les adipocytes et cellules β en souffrance dans l'obésité et le diabète de type 2. La restauration appropriée des niveaux de JEPl/IBl et d'ICER pourrait être considérée comme un objectif pour mesurer l'efficacité des traitements antidiabétiques actuels et futurs. - Type 2 diabetes has reached epidemic proportions worldwide, and poses a major socio-economic burden on developed and developing societies. The disease is often accompanied by obesity, and arises when β-cells produce insufficient insulin to meet the increased hormone demand, caused by insulin resistance. In obesity, enlargement of adipocytes contribute to their dysfunction, which is characterized by the abnormal release of some bioactive products such as non-esterified free fatty acids (NEF As). Chronic plasma elevation of NEF As elicits β-cell dysfunction and death, thereby, representing a key feature for development of diabetes in obesity (diabesity). Palmitate is the most abundant circulating NEF As in obesity, which triggers adipocytes and β-cell dysfunction. The effects of palmitate rely on the induction of the cJun N-terminal kinase (JNK) pathway. Activation of JNK promotes both β-cells dysfunction and insulin resistance in adipocytes. This thesis was undertaken to investigate the mechanisms accounting for the induction of the JNK pathway caused by palmitate. JNK is regulated by the scaffold protein JNK interacting protein-1, also called islet brain 1 (JIP-1/IB1). The levels of JDM/IB1 are critical for glucose homeostasis, as genetic variations within the gene were associated with diabetes. We found that activation of JNK in both, β-cells exposed to palmitate, and in adipocytes of obese mice, results from variations in the expression of JIP-l/EBl. Modifications in the JIP-1/IB1 levels were the consequence of abnormal expression of the inducible cAMP early repressor (ICER) in the two cell types. In addition, our data show that this repressor plays a key role in abnormal production of adipocyte hormones and β-cell dysfunction evoked by the pro-atherogenic oxidized LDL. Taken together, this study proposes that fine-tuning of appropriate levels of JIP-l/EBl, and ICER could circumvent β-cell failure, adipocyte dysfunction, and thereby, development of diabesity.

Brain dysfunctions, psychopathologies, and body image distortions

The major features in eating disorders are a preoccupation with food and its consumption and body dissatisfaction. Diagnostic manuals provide clusters of criteria according to which affected individuals can be categorized into one or other group of eating disorder. Yet, when considering the high proportion of comorbidities and ignoring the content of the symptoms (food, body), the major features seem to yield obsessional-compulsive, addictive, and impulsive qualities. In the present article, we review studies from the neuroscientific literature (mainly lesion studies) on eating disorder, obsessive-compulsive disorder, impulse control disorder, and addiction to investigate the possibility of a wider phenotype that can be related to a common brain network. The literature localizes this network to the right frontal lobe and its connectivities. This network, when dysfunctional, might result in a behavior that favors the preoccupation with particular thoughts, behaviors, anxieties, and uncontrollable urges that are accompanied by little scope for ongoing behavioral adjustments (e.g., impulse control). We reason that this network may turn out to be equally involved in understudied mental conditions of dysfunctional body processing such as muscle dysmorphia, body dysmorphic disorder (including esthetic surgery), and xelomelia. We finally consider previous notions of a wider phenotype approach to current diagnostic practice (using DSM), such as the possibility of a model with a reduced number of diagnostic categories and primary and secondary factors, and to etiological models of mental health conditions.

SIRT1 Activates MAO-A in the Brain to Mediate Anxiety and Exploratory Drive.

SIRT1 is a NAD(+)-dependent deacetylase that governs a number of genetic programs to cope with changes in the nutritional status of cells and organisms. Behavioral responses to food abundance are important for the survival of higher animals. Here we used mice with increased or decreased brain SIRT1 to show that this sirtuin regulates anxiety and exploratory drive by activating transcription of the gene encoding the monoamine oxidase A (MAO-A) to reduce serotonin levels in the brain. Indeed, treating animals with MAO-A inhibitors or selective serotonin reuptake inhibitors (SSRIs) normalized anxiety differences between wild-type and mutant animals. SIRT1 deacetylates the brain-specific helix-loop-helix transcription factor NHLH2 on lysine 49 to increase its activation of the MAO-A promoter. Both common and rare variations in the SIRT1 gene were shown to be associated with risk of anxiety in human population samples. Together these data indicate that SIRT1 mediates levels of anxiety, and this regulation may be adaptive in a changing environment of food availability.

Brain functional abnormality in schizo-affective disorder: an fMRI study.

Background.Schizo-affective disorder has not been studied to any significant extent using functional imaging. The aim of this study was to examine patterns of brain activation and deactivation in patients meeting strict diagnostic criteria for the disorder. METHOD: Thirty-two patients meeting research diagnostic criteria (RDC) for schizo-affective disorder (16 schizomanic and 16 schizodepressive) and 32 matched healthy controls underwent functional magnetic resonance imaging (fMRI) during performance of the n-back task. Linear models were used to obtain maps of activations and deactivations in the groups. RESULTS: Controls showed activation in a network of frontal and other areas and also deactivation in the medial frontal cortex, the precuneus and the parietal cortex. Schizo-affective patients activated significantly less in prefrontal, parietal and temporal regions than the controls, and also showed failure of deactivation in the medial frontal cortex. When task performance was controlled for, the reduced activation in the dorsolateral prefrontal cortex (DLPFC) and the failure of deactivation of the medial frontal cortex remained significant. CONCLUSIONS: Schizo-affective disorder shows a similar pattern of reduced frontal activation to schizophrenia. The disorder is also characterized by failure of deactivation suggestive of default mode network dysfunction.

Brain functional abnormality in schizo-affective disorder: an fMRI study.

Background.Schizo-affective disorder has not been studied to any significant extent using functional imaging. The aim of this study was to examine patterns of brain activation and deactivation in patients meeting strict diagnostic criteria for the disorder. METHOD: Thirty-two patients meeting research diagnostic criteria (RDC) for schizo-affective disorder (16 schizomanic and 16 schizodepressive) and 32 matched healthy controls underwent functional magnetic resonance imaging (fMRI) during performance of the n-back task. Linear models were used to obtain maps of activations and deactivations in the groups. RESULTS: Controls showed activation in a network of frontal and other areas and also deactivation in the medial frontal cortex, the precuneus and the parietal cortex. Schizo-affective patients activated significantly less in prefrontal, parietal and temporal regions than the controls, and also showed failure of deactivation in the medial frontal cortex. When task performance was controlled for, the reduced activation in the dorsolateral prefrontal cortex (DLPFC) and the failure of deactivation of the medial frontal cortex remained significant. CONCLUSIONS: Schizo-affective disorder shows a similar pattern of reduced frontal activation to schizophrenia. The disorder is also characterized by failure of deactivation suggestive of default mode network dysfunction.

Brain functional abnormality in schizo-affective disorder: an fMRI study.

Background.Schizo-affective disorder has not been studied to any significant extent using functional imaging. The aim of this study was to examine patterns of brain activation and deactivation in patients meeting strict diagnostic criteria for the disorder. METHOD: Thirty-two patients meeting research diagnostic criteria (RDC) for schizo-affective disorder (16 schizomanic and 16 schizodepressive) and 32 matched healthy controls underwent functional magnetic resonance imaging (fMRI) during performance of the n-back task. Linear models were used to obtain maps of activations and deactivations in the groups. RESULTS: Controls showed activation in a network of frontal and other areas and also deactivation in the medial frontal cortex, the precuneus and the parietal cortex. Schizo-affective patients activated significantly less in prefrontal, parietal and temporal regions than the controls, and also showed failure of deactivation in the medial frontal cortex. When task performance was controlled for, the reduced activation in the dorsolateral prefrontal cortex (DLPFC) and the failure of deactivation of the medial frontal cortex remained significant. CONCLUSIONS: Schizo-affective disorder shows a similar pattern of reduced frontal activation to schizophrenia. The disorder is also characterized by failure of deactivation suggestive of default mode network dysfunction.