Genetic and functional analyses demonstrate a role for abnormal glycinergic signaling in autism.

Autism spectrum disorder (ASD) is a common neurodevelopmental condition characterized by marked genetic heterogeneity. Recent studies of rare structural and sequence variants have identified hundreds of loci involved in ASD, but our knowledge of the overall genetic architecture and the underlying pathophysiological mechanisms remains incomplete. Glycine receptors (GlyRs) are ligand-gated chloride channels that mediate inhibitory neurotransmission in the adult nervous system but exert an excitatory action in immature neurons. GlyRs containing the α2 subunit are highly expressed in the embryonic brain, where they promote cortical interneuron migration and the generation of excitatory projection neurons. We previously identified a rare microdeletion of the X-linked gene GLRA2, encoding the GlyR α2 subunit, in a boy with autism. The microdeletion removes the terminal exons of the gene (GLRA2(Δex8-9)). Here, we sequenced 400 males with ASD and identified one de novo missense mutation, p.R153Q, absent from controls. In vitro functional analysis demonstrated that the GLRA2(Δex8)(-)(9) protein failed to localize to the cell membrane, while the R153Q mutation impaired surface expression and markedly reduced sensitivity to glycine. Very recently, an additional de novo missense mutation (p.N136S) was reported in a boy with ASD, and we show that this mutation also reduced cell-surface expression and glycine sensitivity. Targeted glra2 knockdown in zebrafish induced severe axon-branching defects, rescued by injection of wild type but not GLRA2(Δex8-9) or R153Q transcripts, providing further evidence for their loss-of-function effect. Glra2 knockout mice exhibited deficits in object recognition memory and impaired long-term potentiation in the prefrontal cortex. Taken together, these results implicate GLRA2 in non-syndromic ASD, unveil a novel role for GLRA2 in synaptic plasticity and learning and memory, and link altered glycinergic signaling to social and cognitive impairments.

Treatment with Interleukin-7 Restores Host Defense against Pneumocystis in CD4+ T-Lymphocyte-Depleted Mice.

Pneumocystis pneumonia (PCP) is a major cause of morbidity and mortality in patients with HIV infection. CD4(+) T lymphocytes are critical for host defense against this infection, but in the absence of CD4(+) T lymphocytes, CD8(+) T lymphocytes may provide limited host defense. The cytokine interleukin-7 (IL-7) functions to enhance lymphocyte proliferation, survival, and recruitment of immune cells to sites of infection. However, there is little known about the role of IL-7 in PCP or its potential use as an immunotherapeutic agent. We hypothesized that treatment with recombinant human IL-7 (rhIL-7) would augment host defense against Pneumocystis and accelerate pathogen clearance in CD4-depleted mice. Control and CD4-depleted mice were infected with Pneumocystis, and rhIL-7 was administered via intraperitoneal injection. Our studies indicate that endogenous murine IL-7 is part of the normal host response to Pneumocystis murina and that administration of rhIL-7 markedly enhanced clearance of Pneumocystis in CD4-depleted mice. Additionally, we observed increased recruitment of CD8(+) T lymphocytes to the lungs and decreased apoptosis of pulmonary CD8(+) T lymphocytes in rhIL-7-treated animals compared to those in untreated mice. The antiapoptotic effect of rhIL-7 was associated with increased levels of Bcl-2 protein in T lymphocytes. rhIL-7 immunotherapy in CD4-depleted mice also increased the number of gamma interferon (IFN-γ)-positive CD8(+) central memory T lymphocytes in the lungs. We conclude that rhIL-7 has a potent therapeutic effect in the treatment of murine Pneumocystis pneumonia in CD4-depleted mice. This therapeutic effect is mediated through enhanced recruitment of CD8(+) T cells and decreased apoptosis of lung T lymphocytes, with a preferential action on central memory CD8(+) T lymphocytes.

[Schooling of patients exhibiting Autism Spectrum Disorders without mental retardation]. / La scolarisation des patients atteints par des troubles du spectre autistique sans retard mental.

INTRODUCTION: Autism Spectrum Disorders belong to Pervasive Development Disorders. Although access to education is recommended by the French National High Authority for Health (HAS), the practice remains limited and the reasons for the low education rate of these children have still not been sufficiently explored in the literature. OBJECTIVE: The main objective of this study was to analyze the links between Autism Spectrum Disorder without mental retardation, psychiatric comorbidity and education. The secondary objective was to analyze the cognitive and contextual factors that could limit educational inclusion. METHOD: Eighty-three autistic patients (3-18years old; 73 males and 10 females) with childhood autism, atypical autism or Asperger's syndrome (criteria from the International Classification of Diseases-10) without mental retardation and in education were assessed at the Alpine Centre for Early Diagnosis of Autism. The sample included 45 subjects with childhood autism, 12 subjects with atypical autism and 26 subjects with Asperger's syndrome. The diagnosis was based on the Autism Diagnostic Interview Revised (ADI-R), in accordance with the recommendations of the HAS, the Autism Diagnostic Observation Schedule (ADOS) and the Wechsler Intelligence Scale for Children, 4th edition (WISC-IV). RESULTS: Our results showed that childhood autism and atypical autism were mainly found in nursery and primary school, whereas Asperger's syndrome was mainly found in secondary school (Chi(2)=18.23; df=6; P<.006). Individuals with childhood autism and atypical autism were more likely to receive the support of a special educational assistant (Chi(2)=15.61; df=2; P<.000) and underwent a higher number of consultations and treatment episodes than those with Asperger's syndrome (Chi(2)=27.83; df=14; P<.015). The cognitive profiles obtained with the WISC-IV also differed: the Verbal Comprehension Index (VCI) and Working Memory Index (WMI) were higher for Asperger's syndrome than for childhood autism and atypical autism (respectively, F=23.11, P<.000; df=2; partial η(2)=.576 and F=8.06, P<.001; df=2; partial η(2)=.357). Linear regression showed that the VCI and Processing Speed Index (PSI) were inversely correlated to the number of hours spent with a special educational assistant: the lower these indexes, the greater the amount of time spent with a special educational assistant. No link was found between psychiatric comorbidity, type of psychological and psychiatric treatment, and education. DISCUSSION: The use of special educational assistants seems to be linked to the diagnosis of Autism Spectrum Disorders and neuropsychological functioning, as assessed by WISC-IV, along a continuum that ranges from childhood autism (more needs and deficits) to atypical autism to Asperger's syndrome. The Verbal Comprehension Index (VCI) and the Processing Speed Index (PSI) could be used to evaluate the number of hours of support needed by children and to better target the deficits and specific needs of children without mental retardation who are in education. A study on a larger scale could help to more closely address the question of the cognitive abilities of children with Autism Spectrum Disorder without mental retardation, so as to better help them in their education.

What clinical characteristics of children with autism influence their inclusion in regular classrooms?

BACKGROUND: This study took place in the context of recent legislation enacted in several countries--including France--and aimed at promoting inclusion of children with intellectual disabilities. It focuses on young children with autism and examines the links between the children's characteristics and their weekly hours of regular-classroom inclusion and intervention in specialised setting. METHOD: Standardised clinical and sociodemographic data were collected for 77 children with autism, along with data about their interventional programmes. RESULTS: The study showed that the number of hours of inclusion at school was influenced by the children's behavioural and adaptive characteristics, as well as by the socioprofessional category of their parents, although these factors did not affect the number of hours spent in specialised setting. Moreover, the total amount of time per week spent in interventional services of any kind was very small for some of the children. CONCLUSION: The time spent in special-intervention services and regular classrooms combined did not add up to an adequate number of weekly hours for these children, particularly those exhibiting at least one of the following characteristics: low adaptation level, major behavioural problems or low socioprofessional category of parents.

A novel mutation in the neurofibromatosis type 1 (NF1) gene promotes skipping of two exons by preventing exon definition.

Using a protein truncation assay, we have identified a new mutation in the neurofibromatosis type 1 (NF1) gene that causes a severe defect in NF1 pre-mRNA splicing. The mutation, which consists of a G to A transition at position +1 of the 5' splice site of exon 12a, is associated with the loss of both exons 11 and 12a in the NF1 mRNA. Through the use of in vivo and in vitro splicing assays, we show that the mutation inactivates the 5' splice site of exon 12a, and prevents the definition of exon 12a, a process that is normally required to stimulate the weak 3' splice site of exon 12a. Because the 5' splice site mutation weakens the interaction of splicing factors with the 3' splice site of exon 12a, we propose that exon 11/exon 12a splicing is also compromised, leading to the exclusion of both exons 11 and 12a. Our results provide in vivo support for the importance of the exon definition model during NF1 splicing, and suggest that the NF1 region containing exons 11 and 12a plays an important role in the activity of neurofibromin.

Germ-line deletion involving the INK4 locus in familial proneness to melanoma and nervous system tumors.

Joint predisposition to malignant melanoma and nervous system tumors (NSTs) is a puzzle. Several melanoma susceptibility genes have been identified, including p16, a clustered tumor suppressor. However, the molecular bases of inherited proclivity to NSTs in the absence of a recognizable genetic syndrome are unknown. We analyzed two families with joint proneness to melanoma and NSTs in view of genetic linkage and identification of the causal molecular lesions. Highly informative linkage markers were used for segregation analyses of the predisposition alleles in the two pedigrees. Characterization of the molecular lesions required hemizygosity mapping based on microsatellite markers physically mapped to contigs of the 9p21 region and a Southern blot approach using several PCR-generated probes. Both families were found to be allelic and linked to p16 markers. In the family segregating the melanoma/NST syndrome, a large germ-line deletion ablated the whole p16, p19, and p15 gene cluster (or INK4 locus), whereas a more circumscribed molecular lesion disrupting p16 and p19 but leaving p15 unaltered segregated with the melanoma-astrocytoma syndrome (MIM 155755). Our results suggest that multiple cancer susceptibility in these two families ensues from contiguous tumor suppressor gene deletion. Indeed, known phenotypes associated with germ-line p16 mutations and an apparent correlation between the deletion span and tumor spectrum in the two families suggest a new model of cancer pathogenesis based on the inactivation of contiguous tumor suppressor genes, an alternative to the established pleiotropic effects of single-gene disruption.

Novel recurrent nonsense mutation causing neurofibromatosis type 1 (NF1) in a family segregating both NF1 and Noonan syndrome.

Neurofibromatosis type 1 (NF1), a genetic disorder with neuroectodermal involvement, demonstrates phenotypic overlap in some patients with Noonan syndrome (NS), ultimately resulting in the so-called neurofibromatosis-Noonan syndrome (NF-NS). A strong association of the two phenotypic traits was recently illustrated by a four-generation family, although NF1 and NS were eventually demonstrated to segregate independently on the basis of polymorphic DNA markers [Bahuau et al., 1996: Am J Med Genet 66:347-355]. Identification of the causal NF1 mutation seemed a prerequisite to further dissecting this singular familial association. Using the protein truncation assay, a nonsense mutation (C2446T-->R816X) of the neurofibromin gene was evidenced. This mutation occurred on a CpG dinucleotide within exon 16 and 5' to the GAP domain-specifying region of the gene. R816X creates a recognition site for endonuclease HphI, absent in 2 individuals with NS only. Screening 184 unrelated NF1 patients, three novel occurrences of the mutation were found in individuals diagnosed with classical NF1. Based on the assumption of genotype-phenotype correlation in these individuals, clinical and molecular analyses of this four-generation family demonstrated that the NF-NS phenotype was additive, being the result of both classical NF1 and NS. This particular observation also suggests the presence of an NS locus on 17q, which might be of interest for further linkage studies.

Microsatellite in the beta-tubulin gene of Toxoplasma gondii as a new genetic marker for use in direct screening of amniotic fluids.

To examine the correlation between Toxoplasma gondii genotype and congenital human toxoplasmosis, the polymorphism of the microsatellite consisting of a dinucleotide (TG) repeat in the intron of the beta-tubulin gene was investigated by PCR. Thirty-four reference strains were studied, including 7 strains virulent in mice and 27 strains avirulent in mice. The seven virulent strains had a (TG)8 microsatellite, and the avirulent strains had a (TG)7 microsatellite. This confirms the dichotomy already observed for virulent and avirulent strains. Additionally, 37 samples of amniotic fluid from infected fetuses were tested. All of them had the (TG)7 microsatellite marker. This result confirms that most of the human cases of congenital toxoplasmosis are due to strains avirulent in mice. Nevertheless, their virulence in human fetuses was obvious, as numerous abnormalities were observed on ultrasonic examination. The new genetic marker is the first one directly used for typing T. gondii isolates without any bias due to cultivation of the parasite. This microsatellite marker is not sufficient to type the strains which are avirulent in mice; however, seeking more polymorphic microsatellites should be worthwhile to obtain new genetic markers for direct screening of biological samples.

Myotonic dystrophy protein kinase gene expression in skeletal muscle from congenitally affected infants.

Myotonic dystrophy (DM) is an autosomal dominant neuromuscular disorder characterized by marked variability of its clinical manifestations. The mutational basis of DM is an unstable (CTG)n trinucleotide repeat in the 3' untranslated region of the myotonic dystrophy protein kinase gene (DMPK). We used quantitative RT-PCR to determine DMPK mRNA levels in muscular biopsies from three congenitally affected (CDM) and two control infants. The CDM infants had increased DMPK mRNA levels, which were not correlated to increased expression of the mutant allele. This increase may be the consequence of a maturational muscular arrest, which may maintain an elevated level of DMPK mRNA until birth.

Familial aggregation of malignant melanoma/dysplastic naevi and tumours of the nervous system: an original syndrome of tumour proneness.

A five-generation family is here reported in which several members developed malignant melanoma, dysplastic naevi, astrocytoma in all grades, benign or malignant schwannoma, neurofibroma, or meningioma in a single instance. Significant cosegregation of skin and nervous tumours, preclusion of allelism to type 1 neurofibromatosis and phenotypic departure from known syndromes of hereditary proneness to cancer make one suggest an original familial predisposition to both malignant melanoma and central/peripheral nervous tumours.

Exclusion of allelism of Noonan syndrome and neurofibromatosis-type 1 in a large family with Noonan syndrome-neurofibromatosis association.

A large four-generation family with Noonan syndrome (NS) and neurofibromatosis-type 1 (NF1) was studied for clinical association between the two diseases and for linkage analysis with polymorphic DNA markers of the NF1 region in 17q11.2. Nonrandom segregation between NS and NF1 phenotypes was observed. Neurofibromatosis was tightly linked to NF1 markers, whereas Noonan syndrome was found not be allelic to NF1. These results suggest that two mutations at two independent but closely linked loci are the cause of neurofibromatosis-Noonan syndrome (NF-NS) association in this family.