Effects of trimethyltin (TMT) on glial and neuronal cells in aggregate cultures: dependence on the developmental stage.

Long-term effects of trimethyltin (TMT) applied at concentrations below the cytotoxic level were examined in three-dimensional cell cultures of fetal rat telencephalon using biochemical, immunochemical and morphological criteria. It was found that in immature cultures low concentrations of TMT (10(-8) M) specifically induced a gliotic response in astrocytes, with increased immunoreactivity for glial fibrillary acidic protein, and a greater number of astrocytic processes. Significant changes in oligodendrocytic and neuronal parameters were found only at 10(-6) M of TMT. In differentiated cultures, distinct changes in cell type-specific parameters occurred at 10(-6) M of TMT (the lowest effective concentration). In addition, different patterns of responses were found for astrocytes and oligodendrocytes, as compared to immature cultures. These results suggest that among neural cells, astroblasts are most sensitive to TMT, and that the glial responses to this neurotoxicant are development-dependent.

Biochemical characterization of FANCD2 and FANCM in the Fanconi Anaemia pathway

Abstract : The maintenance of genome stability is a challenge for all living organisms. DNA is regularly subjected to chemical alterations by both endogenous and exogenous DNA damaging agents. If left unrepaired, these lesions will create mutations or lead to chromosomal instability. DNA crosslinking agents probably bring about the most toxic lesions. By linking covalently the two strands of DNA, crosslinking agents will impede essential cellular processes such as replication and transcription. Cells from Fanconi anaemia patients are extremely sensitive to these agents. Fanconi anaemia (FA) is a rare chromosomal instability disorder that leads to developmental defects, pancytopenia and cancer susceptibility. FA is a genetically heterogeneous disease with thirteen complementation groups identified. Proteins encoded by the FA genes work together in the FA pathway. Eight of these proteins form the FA core complex (FANC-A, B, C,E, F, G, L and -M), whose integrity is required to monoubiquitinate FANCD2 and FANCI in response to DNA damage. The hypersensitivity of FA cells to crosslinking agents, which perturb the progression of replication forks, has led to the hypothesis that FA proteins play a crucial role in the response to replication stress. However, at the molecular level, the functions of the FA pathway remain largely unknown. Our efforts were first focused on the characterization of FANCD2, "the key effector of the FA pathway". Using different substrates, we found that in vitro, purified hFANCD2 preferentially binds single strand DNA and double strand DNA extremities. Concomitantly, FANCM was identified as a new component of the FA core complex. Moreover FANCM was shown to have specific branch migration activities and probably a role as a "landing platform" on DNA for the other components of the core complex. By using FANCM mutants carrying deletions within the internal domain, we investigated the role of FANCM as a DNA anchor protein for the core complex. We observed that indeed, a specific part of the internal domain of FANCM interacts with components of the core complex. Finally, in collaboration with Weidong Wang's lab we characterized two new components of the FA pathway: FAAP10 and FAAP16. As a heterodimer these two proteins show affinity for dsDNA, and anneal complementary oligonucleotides in vitro. Moreover these proteins can associate with FANCM via a part of its internal domain. We find that FANCM, FAAP 10 and FAAP 16 can co-exist on the branch point of replication and recombination intermediates, and that FAAP10 and FAAP16 stimulate replication fork reversal by FANCM. These results suggest that FANCM may function as a landing platform for the core complex. After loading on DNA, the core complex can activate FANCD2 through monoubiquitination leading to its recruitment to the site of damage. Since ssDNA and double strand breaks are intermediates that are generated as a consequence of collapsed replication forks, FANCD2 by binding to ds DNA ends and ssDNA could protect such structures from the recombination repair machinery and prevent unscheduled recombination events. Alternatively, FANCD2 could avoid nucleases from gaining access to collapsed forks, preserving the DNA in state that can be used as a starting point for resumption of DNA synthesis. The overall comprehension of the FA pathway is far from been complete. Our results unravel new aspects of Fanconi Anaemia, which hopefully in the near future will address keys questions leading to a better understanding of the fascinating Fanconi Anaemia. Résumé : Le maintien de l'intégrité du génome est fondamentale chez tous les organismes vivants. L'ADN est constamment altéré par des composés aussi bien endogènes qu'exogènes. Si ces altérations ne sont pas réparées, elles peuvent conduire à l'apparition de mutations, ainsi qu'à une instabilité génomique accrue. Les lésions les plus sévères qui peuvent survenir sur l'ADN, sont les pontages inter caténaires. Des agents pontants en liant de façon covalente les deux brins d'ADN, vont empêcher le déroulement normal de processus cellulaires essentiels tels que la réplication ou la transcription. La compréhension des mécanismes permettant à la cellule de tolérer et réparer ces lésions est primordiale, notamment dans le cas des patients atteints de l'anémie de Fanconi qui présentent une très grande sensibilité à ces composés pontants. L'anémie de Fanconi est une maladie génétique rare appartenant à un groupe de pathologies associées à une grande instabilité chromosomique. Les patients atteints de l'anémie de Fanconi présentent des malformations du squelette, une pancytopénie et une forte propension à la survenue de cancer. L'anémie de Fanconi est génétiquement très hétérogène. À ce jour, 13 gènes codant pour 13 protéines FANC différentes ont été identifiés. Huit de ces protéines fonctionnent ensemble au sein d'un complexe (nommé le complexe FANC) ayant pour but de monoubiquitiner FANCD2 et FANCI en réponse à la formation de lésions sur l'ADN. L'extrême sensibilité des cellules de patients atteints de l'anémie de Fanconi à ces agents pontant l'ADN suggère l'implication des protéines FANC dans la réponse cellulaire suite à une stress réplicatif. Cependant, le rôle moléculaire exact de ces protéines demeure encore inconnu. Après purification, nous avons observé que FANCD2 était capable de lier l'ADN simple brin, ainsi que les extrémités d'ADN in vitro. Dans le même temps, FANCM fut identifié comme appartenant au complexe FANC. FANCM est décrit comme une translocase capable de promouvoir le déplacement de point de jonction dans des structures d'ADN spécifiques in vitro. De plus, en se liant à l'ADN, FANCM peut agir comme une plateforme pour les autres protéines FANC, leur permettant ainsi d'être adressées à l'ADN. En créant des protéines FANCM recombinantes ayant des délétions dans le domaine interne, nous avons pu observer que certaines protéines du complexe FANC se fixent à des sites spécifiques sur le domaine interne de FANCM. Enfin, au travers d'une collaboration, nous avons été amenés à caractériser deux nouvelles protéines appartenant au complexe FANC : FAAP 10 et FAAP16. Elles s'associent à FANCM par l'intermédiaire du domaine interne, et forment ainsi un hétérotrimére. La présence de FAAP10 et FAAP16 n'affecte pas la liaison de FANCM à l'ADN, mais semble potentialiser son activité de régression in vitro. FANCM semble donc fonctionner comme une plateforme pour les autres composants du complexe FANC. Ces derniers, une fois liés à l'ADN permettent la monoubiquitination de FANCD2 et son recrutement au site lésé de l'ADN. FANCD2 en se liant de façon préférentielle à l'ADN simple brin et aux extrémités d'ADN qui sont générés lors de l'arrêt et du démantèlement d'une fourche de réplication, pourrait protéger ces même fourches de réplication arrêtées, d'évènements de recombinaison aléatoires. Nos résultats apportent de nouveaux éléments concernant les mécanismes moléculaires de l'anémie de Fanconi. Enfin, l'étude de l'anémie de Fanconi permet aussi de mieux comprendre les mécanismes mis en place par la cellule pour tolérer des lésions survenant lors de la réplication.

Life events in conversion disorder: Role of timing and nature of events

Aims: To compare the frequency of life events in the year preceding illness onset in a series of Conversion Disorder (CD) patients, with those of a matched control group and to characterize the nature of those events in terms of "escape" potential. Traditional models of CD hypothesise that relevant stressful experiences are "converted" into physical symptoms to relieve psychological pressure, and that the resultant disability allows "escape" from the stressor, providing some advantage to the individual. Methods: The Life Events and Difficulties Schedule (LEDS) is a validated semi-structured interview designed to minimise recall and interviewer bias through rigorous assessment and independent rating of events. An additional "escape" rating was developed. Results: In the year preceding onset in 25 CD patients (mean age 38.9 years ± 8) and a similar matched period in 13 controls (mean age 36.2 years ± 10), no significant difference was found in the proportion of subjects having ≥ 1 severe event (CD 64%, controls 38%; p=0.2). In the last month preceding onset, a higher number of patients experienced ≥1 severe events than controls (52% vs 15%, odds ratio 5.95 (CI: 1.09-32.57)). Patients were twice as much more likely to have a severe escape events than controls, in the month preceding onset (44% vs 7%, odds ratio 9.43 (CI: 1.06-84.04). Conclusion: Preliminary data from this ongoing study suggest that the time frame (preceding month) and the nature ("escape") of the events may play an important role in identifying key events related to CD onset.

Developmental changes in the heavy subunit of neurofilaments in the corpus callosum of the cat.

In the corpus callosum of the cat, the heavy subunit of neurofilaments (NFH) can be demonstrated with the monoclonal antibody NE14, as early as P11, not at P3, and only in a few axons. At P18-19 and more markedly at P29, many more callosal axons have become positive to NE14 and this is similar to what is found in the adult. In contrast, callosal axons become positive to the neurofilament antibody SMI-32 only between P29 and P39 and remain positive in the adult. Treatment with alkaline phosphatase prevents axonal staining with NE14, but results in SMI-32 staining of a few callosal axons as early as P11, but not at P3. Between P11 and P19 the number of axons stained with SMI-32 after alkaline phosphatase treatment increases, in parallel with that of axons stained with NE14. Thus NE14 appears to recognize a phosphorylated form of NFH, while SMI-32 appears to recognize an epitope of NFH which is either masked by phosphate or inaccessible until between P29 and P39, unless the tissue is treated with alkaline phosphatase. These two forms of NFH appear towards the end of the period of massive developmental elimination of callosal axons. They are also synchronous with changes in the spacing of neurofilaments quantified in a separate ultrastructural study. These cytoskeletal changes may terminate the juvenile-labile state of callosal axons and allow further axial growth of the axon.

Stage managing bipolar disorder.

OBJECTIVES: Clinical staging is widespread in medicine - it informs prognosis, clinical course, and treatment, and assists individualized care. Staging places an individual on a probabilistic continuum of increasing potential disease severity, ranging from clinically at-risk or latency stage through first threshold episode of illness or recurrence, and, finally, to late or end-stage disease. The aim of the present paper was to examine and update the evidence regarding staging in bipolar disorder, and how this might inform targeted and individualized intervention approaches. METHODS: We provide a narrative review of the relevant information. RESULTS: In bipolar disorder, the validity of staging is informed by a range of findings that accompany illness progression, including neuroimaging data suggesting incremental volume loss, cognitive changes, and a declining likelihood of response to pharmacological and psychosocial treatments. Staging informs the adoption of a number of approaches, including the active promotion of both indicated prevention for at-risk individuals and early intervention strategies for newly diagnosed individuals, and the tailored implementation of treatments according to the stage of illness. CONCLUSIONS: The nature of bipolar disorder implies the presence of an active process of neuroprogression that is considered to be at least partly mediated by inflammation, oxidative stress, apoptosis, and changes in neurogenesis. It further supports the concept of neuroprotection, in that a diversity of agents have putative effects against these molecular targets. Clinically, staging suggests that the at-risk state or first episode is a period that requires particularly active and broad-based treatment, consistent with the hope that the temporal trajectory of the illness can be altered. Prompt treatment may be potentially neuroprotective and attenuate the neurostructural and neurocognitive changes that emerge with chronicity. Staging highlights the need for interventions at a service delivery level and implementing treatments at the earliest stage of illness possible.

Clinical and radiological findings in Pallister-Killian syndrome.

Pallister-Killian syndrome (PKS) is a potentially lethal disorder with facial dysmorphism, pigmentary skin anomalies, developmental delay and major visceral anomalies, such as diaphragmatic hernia, anorectal malformation, and congenital heart disease. PKS is causally associated with mosaic tetrasomy of chromosome 12p. A routine chromosome analysis in peripheral lymphocytes usually fails to detect the mosaic state. A prompt diagnosis rests on clinical awareness and a subsequent chromosome or molecular analysis in fibroblasts, buccal mucosal cells, or bone marrow cells. We report here on three infants with PKS. One infant had aortic dilatation, a previously unreported association in PKS. More importantly, all infants showed a recognizable, though mild, pattern of skeletal changes mainly affecting axial bones, including delayed ossification of the vertebral bodies and pubic bones, flared anterior ribs, and broad metaphyses of the long bones, particularly of the femora. These skeletal changes should be considered as a useful diagnostic sign in PKS. Awareness of the axial skeletal alterations can be helpful in prompting clinicians to search for mosaic tetrasomy 12p and perform chromosomal analysis in appropriate tissue types.

Prevalence, prenatal diagnosis and clinical features of oculo-auriculo-vertebral spectrum: a registry-based study in Europe.

Oculo-auriculo-vertebral spectrum is a complex developmental disorder characterised mainly by anomalies of the ear, hemifacial microsomia, epibulbar dermoids and vertebral anomalies. The aetiology is largely unknown, and the epidemiological data are limited and inconsistent. We present the largest population-based epidemiological study to date, using data provided by the large network of congenital anomalies registries in Europe. The study population included infants diagnosed with oculo-auriculo-vertebral spectrum during the 1990-2009 period from 34 registries active in 16 European countries. Of the 355 infants diagnosed with oculo-auriculo-vertebral spectrum, there were 95.8% (340/355) live born, 0.8% (3/355) fetal deaths, 3.4% (12/355) terminations of pregnancy for fetal anomaly and 1.5% (5/340) neonatal deaths. In 18.9%, there was prenatal detection of anomaly/anomalies associated with oculo-auriculo-vertebral spectrum, 69.7% were diagnosed at birth, 3.9% in the first week of life and 6.1% within 1 year of life. Microtia (88.8%), hemifacial microsomia (49.0%) and ear tags (44.4%) were the most frequent anomalies, followed by atresia/stenosis of external auditory canal (25.1%), diverse vertebral (24.3%) and eye (24.3%) anomalies. There was a high rate (69.5%) of associated anomalies of other organs/systems. The most common were congenital heart defects present in 27.8% of patients. The prevalence of oculo-auriculo-vertebral spectrum, defined as microtia/ear anomalies and at least one major characteristic anomaly, was 3.8 per 100,000 births. Twinning, assisted reproductive techniques and maternal pre-pregnancy diabetes were confirmed as risk factors. The high rate of different associated anomalies points to the need of performing an early ultrasound screening in all infants born with this disorder.

Genome-wide association study of recurrent major depressive disorder in two European case-control cohorts.

Major depressive disorder (MDD) is a highly prevalent disorder with substantial heritability. Heritability has been shown to be substantial and higher in the variant of MDD characterized by recurrent episodes of depression. Genetic studies have thus far failed to identify clear and consistent evidence of genetic risk factors for MDD. We conducted a genome-wide association study (GWAS) in two independent datasets. The first GWAS was performed on 1022 recurrent MDD patients and 1000 controls genotyped on the Illumina 550 platform. The second was conducted on 492 recurrent MDD patients and 1052 controls selected from a population-based collection, genotyped on the Affymetrix 5.0 platform. Neither GWAS identified any SNP that achieved GWAS significance. We obtained imputed genotypes at the Illumina loci for the individuals genotyped on the Affymetrix platform, and performed a meta-analysis of the two GWASs for this common set of approximately half a million SNPs. The meta-analysis did not yield genome-wide significant results either. The results from our study suggest that SNPs with substantial odds ratio are unlikely to exist for MDD, at least in our datasets and among the relatively common SNPs genotyped or tagged by the half-million-loci arrays. Meta-analysis of larger datasets is warranted to identify SNPs with smaller effects or with rarer allele frequencies that contribute to the risk of MDD.

Differences between first episode schizophrenia and schizoaffective disorder.

BACKGROUND: The diagnostic and clinical overlap between schizophrenia and schizoaffective disorder is an important nosological issue in psychiatry that is yet to be resolved. The aim of this study was to compare the clinical and functional characteristics of an epidemiological treated cohort of first episode patients with an 18-month discharge diagnosis of schizophrenia (FES) or schizoaffective disorder (FESA). METHODS: This study was part of the larger First Episode Psychosis Outcome Study (FEPOS) which involved a medical file audit study of all 786 patients treated at the Early Psychosis Prevention and Intervention Centre between 1998 and 2000. Of this cohort, 283 patients had an 18-month discharge diagnosis of FES and 64 had a diagnosis of FESA. DSM-IV diagnoses and clinical and functional ratings were derived and validated by two consultant psychiatrists. RESULTS: Compared to FES patients, those with FESA were significantly more likely to have a later age of onset (p=.004), longer prodrome (p=.020), and a longer duration of untreated psychosis (p<.001). At service entry, FESA patients presented with a higher illness severity (p=.020), largely due to the presence of more severe manic symptoms (p<.001). FESA patients also had a greater number of subsequent inpatient admissions (p=.017), had more severe depressive symptoms (p=.011), and higher levels of functioning at discharge. DISCUSSION: The findings support the notion that these might be considered two discernable disorders; however, further research is required to ascertain the ways and extent to which these disorders are discriminable at presentation and over time.

Developmental constraints on vertebrate genome evolution.

Constraints in embryonic development are thought to bias the direction of evolution by making some changes less likely, and others more likely, depending on their consequences on ontogeny. Here, we characterize the constraints acting on genome evolution in vertebrates. We used gene expression data from two vertebrates: zebrafish, using a microarray experiment spanning 14 stages of development, and mouse, using EST counts for 26 stages of development. We show that, in both species, genes expressed early in development (1) have a more dramatic effect of knock-out or mutation and (2) are more likely to revert to single copy after whole genome duplication, relative to genes expressed late. This supports high constraints on early stages of vertebrate development, making them less open to innovations (gene gain or gene loss). Results are robust to different sources of data -- gene expression from microarrays, ESTs, or in situ hybridizations; and mutants from directed KO, transgenic insertions, point mutations, or morpholinos. We determine the pattern of these constraints, which differs from the model used to describe vertebrate morphological conservation ("hourglass" model). While morphological constraints reach a maximum at mid-development (the "phylotypic" stage), genomic constraints appear to decrease in a monotonous manner over developmental time.