Recherche de tiers corps pour la distillation azéotropique discontinue

La distillation batch est une technique de séparation importante dans l’industrie chimique, notamment pour les mélanges azéotropiques. Une procédure d’exploration systématique de la faisabilité de procédés de distillation batch, pouvant nécessiter l’ajout d’un tiers corps a été élaborée au sein du logiciel RegSolExpert®. L’illustration consiste à séparer le mélange eau – acétonitrile formant un azéotrope à température de bulle minimal

Male and female mice lacking Neuroligin-3 modify the behavior of their wild-type littermates

In most mammals, including humans, the postnatal acquisition of normal social and nonsocial behavior criticallydepends on interactions with peers. Here we explore the possibility that mixed-group housing of mice carrying adeletion of Nlgn3, a gene associated with autism spectrum disorders, and their wild-type littermates induceschanges in each other’s behavior. We have found that, when raised together, male Nlgn3 knockout mice and theirwild-type littermates displayed deficits in sociability. Moreover, social submission in adult male Nlgn3 knockoutmice correlated with an increase in their anxiety. Re-expression of Nlgn3 in parvalbumin-expressing cells intransgenic animals rescued their social behavior and alleviated the phenotype of their wild-type littermates, furtherindicating that the social behavior of Nlgn3 knockout mice has a direct and measurable impact on wild-typeanimals’ behavior. Finally, we showed that, unlike male mice, female mice lacking Nlgn3 were insensitive to theirpeers’ behavior but modified the social behavior of their littermates. Altogether, our findings show that theenvironment is a critical factor in the development of behavioral phenotypes in transgenic and wild-type mice. Inaddition, these results reveal that the social environment has a sexually dimorphic effect on the behavior of micelacking Nlgn3, being more influential in males than females

modulation of inflammation related genes in the cornea of a mouse model of dry eye upon treatment with cyclosporine eye drops

ABSTRACTPurpose/Aim: Inflammation is recognized as playing an etiological role in dry eye disease. This study aimed to assess the efficacy of various topical cyclosporine A (CsA) formulations on co..

Rescue of oxytocin response and social behaviour in a mouse model of autism

A fundamental challenge in developing treatments for autism spectrum disorders is the heterogeneity of the condition. More than one hundred genetic mutations confer high risk for autism, with each individual mutation accounting for only a small fraction of cases1,2,3. Subsets of risk genes can be grouped into functionally related pathways, most prominently those involving synaptic proteins, translational regulation, and chromatin modifications. To attempt to minimize this genetic complexity, recent therapeutic strategies have focused on the neuropeptides oxytocin and vasopressin4,5,6, which regulate aspects of social behaviour in mammals7. However, it is unclear whether genetic risk factors predispose individuals to autism as a result of modifications to oxytocinergic signalling. Here we report that an autism-associated mutation in the synaptic adhesion molecule Nlgn3 results in impaired oxytocin signalling in dopaminergic neurons and in altered behavioural responses to social novelty tests in mice. Notably, loss of Nlgn3 is accompanied by a disruption of translation homeostasis in the ventral tegmental area. Treatment of Nlgn3-knockout mice with a new, highly specific, brain-penetrant inhibitor of MAP kinase-interacting kinases resets the translation of mRNA and restores oxytocin signalling and social novelty responses. Thus, this work identifies a convergence between the genetic autism risk factor Nlgn3, regulation of translation, and oxytocinergic signalling. Focusing on such common core plasticity elements might provide a pragmatic approach to overcoming the heterogeneity of autism. Ultimately, this would enable mechanism-based stratification of patient populations to increase the success of therapeutic interventions

Front Pediatr

INTRODUCTION: Primary infection or reactivation of Epstein-Barr Virus (EBV) is a significant cause of morbidity and mortality in pediatric kidney transplantation. Valganciclovir (VGC) treatment is recommended for prophylaxis of cytomegalovirus infection, but its role for the prevention of EBV infection remains controversial. PATIENTS AND METHODS: All pediatric kidney transplant recipients aged 4.5 log/ml. Outcomes were compared between patients receiving VGC prophylaxis (group P+) and those not receiving VGC prophylaxis (group P-). RESULTS: A total of 79 patients were included, 57 (72%) in the P+ group and 22 (28%) in the P- group; 25 (31%) were at risk of primary infection and 54 (69%) at risk of reactivation. During the first year post-transplant, the occurrence of severe EBV infection was not different between the P+ group (n = 13, 22.8%) and the P- group (n = 5, 22.7%) (p = 0.99). Among patients at risk of primary infection, the rate of severe EBV infection was not different between the two groups (42.1% in P+ vs. 33.3% in P-). A higher frequency of neutropenia was found in the P+ group (66.6%) than in the P- group (33.4%) (p < 0.01). CONCLUSION: Our observational study suggests no effect of VGC for the prevention of EBV infection in pediatric kidney transplant recipients, irrespective of their EBV status. Adverse effects revealed an increased risk of neutropenia

Spondyloenchondrodysplasia Due to Mutations in ACP5: A Comprehensive Survey

Purpose: Spondyloenchondrodysplasia is a rare immuno-osseous dysplasia caused by biallelic mutations in ACP5. We aimed to provide a survey of the skeletal, neurological and immune manifestations of this disease in a cohort of molecularly confirmed cases. Methods: We compiled clinical, genetic and serological data from a total of 26 patients from 18 pedigrees, all with biallelic ACP5 mutations. Results: We observed a variability in skeletal, neurological and immune phenotypes, which was sometimes marked even between affected siblings. In total, 22 of 26 patients manifested autoimmune disease, most frequently autoimmune thrombocytopenia and systemic lupus erythematosus. Four patients were considered to demonstrate no clinical autoimmune disease, although two were positive for autoantibodies. In the majority of patients tested we detected upregulated expression of interferon-stimulated genes (ISGs), in keeping with the autoimmune phenotype and the likely immune-regulatory function of the deficient protein tartrate resistant acid phosphatase (TRAP). Two mutation positive patients did not demonstrate an upregulation of ISGs, including one patient with significant autoimmune disease controlled by immunosuppressive therapy. Conclusions: Our data expand the known phenotype of SPENCD. We propose that the OMIM differentiation between spondyloenchondrodysplasia and spondyloenchondrodysplasia with immune dysregulation is no longer appropriate, since the molecular evidence that we provide suggests that these phenotypes represent a continuum of the same disorder. In addition, the absence of an interferon signature following immunomodulatory treatments in a patient with significant autoimmune disease may indicate a therapeutic response important for the immune manifestations of spondyloenchondrodysplasia

Heterogeneity and convergence: the synaptic pathophysiology of autism

Autism is a developmental disorder characterised by a high heterogeneity of clinical diagnoses and genetic associations. This heterogeneity is a challenge for the identification of the pathophysiology of the disease and for the development of new therapeutic strategies. New conceptual approaches are being used to try to challenge this complexity and gene cluster analysis studies suggest that the pathophysiology of autism is associated with a dysregulation of specific cellular mechanisms. This review will present the experimental evidence for a convergence of synaptic pathophysiology between syndromic and non-syndromic forms of autism, grouped under the generic term of autism spectrum disorders. In particular I will highlight the results from genetic mouse models identifying a convergence of dysregulation of the synaptic type I metabotropic glutamate receptor pathway in mouse models for autism spectrum disorders. These results help to build a new conceptual framework for the study of the synaptic phenotype of autism, which is important for the identification of new therapeutic strategies