[Twenty years of on-site clinical genetics consultations for people with ASD]. / Vingt ans de consultations de génétique clinique sur site dans les hôpitaux de jour pour les personnes atteintes de troubles du spectre autistique de la région parisienne.

Despite advances in neurogenetics of autism spectrum disorders (ASD), many patients fail to be systematically investigated, owing to preconceived ideas, limited access to genetics facilities and inadequacy of consultations to children with behavioural problems. To improve access to services, we reversed the paradigm and delivered on-site genetics consultations to ASD children of Greater Paris day care hospitals and specialized institutions. Since 1998, an ambulatory medical genetics team has been in operation, offering on-site consultations and services to patients and relatives in their usual environment. Because the mobile medical genetics unit operates under the umbrella of a university hospital, service laboratories were shared, including molecular cytogenetics and next generation sequencing (NGS). For the past 20 years, 502 patients from 26 institutions benefited from on-site consultations and genetics services in their usual environment. Less than 1 % of parents declined the offer. Previously undiagnosed genetics conditions were recognized in 71 ASD children, including pathogenic CNV variants (34/388 : 8.8 ; de novo : 19, inherited : 4), Fragile X (4/312 : 1.3 %) and deleterious variants in disease causing genes (33/141 ; 23.4 % : de novo : 23 ; inherited : 10, including 5 X-linked and 5 compound heterozygote mutations). Brain MRI were possible in 347 patients and 42 % were considered abnormal (146/347). All diagnosed patients presented atypical/syndromic ASD with moderate to severe intellectual disability. Thanks to such flexible organisation, a considerable number of missed consultations were tracked and families first benefited from medical genetics services. Owing to constraints imposed by behavioural problems in ASD, we suggest considering on-site genetics services to implement standard of care and counteract the loss of chance to patients and relatives.

TITLE: Vingt ans de consultations de génétique clinique sur site dans les hôpitaux de jour pour les personnes atteintes de troubles du spectre autistique de la région parisienne. ABSTRACT: Malgré les avancées de la recherche, un grand nombre de patients atteints de troubles du spectre autistique (TSA) n'ont pas accès aux explorations aujourd'hui disponibles, du fait d'idées reçues, de l'insuffisance des structures à même de les explorer et de l'inadaptation des consultations hospitalières à leurs troubles du comportement. Pour améliorer l'accès aux soins et au progrès des connaissances, nous avons inversé le paradigme et offrons depuis 20 ans des consultations de génétique clinique sur site dans les hôpitaux de jour et les institutions spécialisées de la région parisienne. Depuis 1998, une équipe mobile de génétique médicale propose aux patients et à leurs familles des consultations dans leur environnement habituel. L'unité mobile opère sous l'égide de l'hôpital universitaire Necker Enfants-Malades, qui leur donne accès aux services de biochimie, de cytogénétique moléculaire et de séquençage de nouvelle génération (NGS). En vingt ans, 502 patients appartenant à 26 institutions ont bénéficié de consultations sur site et d'un accès aux plateformes de génétique moléculaire. Moins de 1 % des parents ont décliné la proposition. Des affections génétiques ont été identifiées chez 71 patients présentant un TSA : anomalies cytogénétiques causales (34/388 : 8,8 % ; de novo : 19, héritées : 4), X Fragile (4/312 : 1,3 %) et mutations monogéniques reconnues responsables de TSA (33/141 ; 23,4 % : de novo : 23 ; héritées : 10, dont 5 liées à l'X et 5 récessives autosomiques). L'IRM cérébrale a été possible chez 347 patients et considérée comme anormale chez 42 % d'entre eux (146/347). Tous les patients diagnostiqués présentaient un TSA atypique ou syndromique, avec déficience intellectuelle modérée à sévère. Grâce à ce mode d'intervention, un grand nombre de consultations manquantes ont été rattrapées et les familles ont pu bénéficier d'une consultation de génétique. Eu égard aux contraintes imposées par les troubles du comportement dans les TSA, les consultations sur site constituent, pour les patients et leurs apparentés, un moyen d'améliorer l'accès aux soins et de réduire le risque de méconnaissance d'une pathologie organique à présentation psychiatrique.

Impact of on-site clinical genetics consultations on diagnostic rate in children and young adults with autism spectrum disorder.

Background: Neurogenetics investigations and diagnostic yield in patients with autism spectrum disorder (ASD) have significantly improved over the last few years. Yet, many patients still fail to be systematically investigated. Methods: To improve access to services, an ambulatory team has been established since 1998, delivering on-site clinical genetics consultations and gradually upgrading services to 502 children and young adults with ASD in their standard environment across 26 day-care hospitals and specialized institutions within the Greater Paris region. The evaluation included a clinical genetics consultation, screening for fragile X syndrome, metabolic workup, chromosomal microarray analysis, and, in a proportion of patients, next-generation sequencing of genes reported in ASD and other neurodevelopmental disorders. Results: Fragile X syndrome and pathogenic copy number variants (CNVs) accounted for the disease in 10% of cases, including 4/312 (1.3%) with fragile X syndrome and 34/388 (8.8%) with pathogenic CNVs (19 de novo and 4 inherited). Importantly, adding high-throughput resequencing of reported intellectual disability/ASD genes to the screening procedure had a major impact on diagnostic yield in the 141 patients examined most recently. Pathogenic or likely pathogenic sequence variants in 27 disease genes were identified in 33/141 patients (23.4%; 23 were de novo and 10 inherited, including five X-linked and five recessive compound heterozygous variants). Diagnosed cases presented atypical and/or syndromic ASD with moderate to severe intellectual disability. The diagnostic yield of fragile X syndrome and array CGH testing combined with next-generation sequencing was significantly higher than fragile X syndrome and array CGH alone (p value 0.009). No inborn errors of metabolism were detected with the metabolic screening. Conclusion: Based on the diagnostic rate observed in this cohort, we suggest that a stepwise procedure be considered, first screening pathogenic CNVs and a limited number of disease genes in a much larger number of patients, especially those with syndromic ASD and intellectual disability.

Vascular disrupting activity and the mechanism of action of EHT 6706, a novel anticancer tubulin polymerization inhibitor.

Tumor blood vessels are an important emerging target for anticancer therapy. Here, we characterize the in vitro antiproliferative and antiangiogenic properties of the synthetic small molecule, 7-ethoxy-4-(3,4,5-trimethoxybenzyl)isoquinolin-8-amine dihydrochloride, EHT 6706, a novel microtubule-disrupting agent that targets the colchicine-binding site to inhibit tubulin polymerization. At low nM concentrations, EHT 6706 exhibits highly potent antiproliferative activity on more than 60 human tumor cell lines, even those described as being drug resistant. EHT 6706 also shows strong efficacy as a vascular-disrupting agent, since it prevents endothelial cell tube formation and disrupts pre-established vessels, changes the permeability of endothelial cell monolayers and inhibits endothelial cell migration. Genome-wide transcriptomic analysis of EHT 6706 effects on human endothelial cells shows that the antiangiogenic activity elicits gene deregulations of antiangiogenic pathways. These findings indicate that EHT 6706 is a promising tubulin-binding compound with potentially broad clinical antitumor efficacy.

Differential effects of PPARgamma ligands on oxidative stress-induced death of retinal pigmented epithelial cells.

PURPOSE: To investigate the role of the peroxisome proliferator-activated receptor (PPAR)-γ in modulating retinal pigmented epithelium (RPE) responses to oxidative stress. METHODS: ARPE-19 cells were treated with the oxidant, t-butylhydroperoxide (tBH) to induce apoptosis. Cells pretreated with synthetic PPARγ agonists of the antidiabetic thiazolidinediones class before tBH challenge were assessed for viability and, by microarray analysis, for effects on gene expression. RESULTS: Treatment of ARPE-19 cells with tBH resulted in a loss of viability and global changes in the pattern of gene expression. PPARγ ligands were found to have differential modulatory effects on tBH-induced apoptosis of RPE cells. Whereas rosiglitazone and pioglitazone potentiated cell death, troglitazone acted as a potent cytoprotective agent. Downregulation of PPARγ expression by an siRNA resulted in enhanced cell death in response to tBH treatment and blocked the cytoprotective effect of troglitazone consistent with a role of PPARγ in mediating this response. Microarray analysis revealed that while rosiglitazone and pioglitazone had little effect on gene changes induced by tBH treatment, troglitazone dramatically reduced the number of changes caused by oxidative stress. A unique subset of genes that were deregulated by tBH and selectively normalized by troglitazone were identified. CONCLUSIONS: These findings demonstrate that PPARγ agonists can have differential effects on RPE survival in response to oxidative stress. Oxidative stress leads to deregulation of a large set of genes in ARPE-19 cells. A specific subset of these genes can be selectively modulated by troglitazone and represent potential novel targets for cytoprotective therapies.

Methods and platforms for the quantification of splice variants' expression.

The relatively limited number of human protein encoding genes highlights the importance of the diversity generated at the level of the mRNA transcripts. As alternative RNA splicing plays a key role in mediating this diversity, it becomes critical to develop the tools and platforms that will deliver quantitative information on the specific expression levels associated with splice isoforms. This chapter describes the constraints generated by this global transcriptome analysis and the state-of-the-art techniques and products available to the scientific community.