Dysregulated CRMP Mediates Circadian Deficits in a Drosophila Model of Fragile X Syndrome / 神经科学通报·英文版

Fragile X syndrome (FXS) is the leading inherited cause of intellectual disability, resulting from the lack of functional fragile X mental retardation protein (FMRP), an mRNA binding protein mainly serving as a translational regulator. Loss of FMRP leads to dysregulation of target mRNAs. The Drosophila model of FXS show an abnormal circadian rhythm with disruption of the output pathway downstream of the clock network. Yet the FMRP targets involved in circadian regulation have not been identified. Here, we identified collapsing response mediator protein (CRMP) mRNA as a target of FMRP. Knockdown of pan-neuronal CRMP expression ameliorated the circadian defects and abnormal axonal structures of clock neurons (ventral lateral neurons) in dfmr1 mutant flies. Furthermore, specific reduction of CRMP in the downstream output insulin-producing cells attenuated the aberrant circadian behaviors. Molecular analyses revealed that FMRP binds with CRMP mRNA and negatively regulates its translation. Our results indicate that CRMP is an FMRP target and establish an essential role for CRMP in the circadian output in FXS Drosophila.

Síndrome X frágil: presentación clínica, patología y tratamiento / Fragile X syndrome: clinical presentation, pathology and treatment

Resumen El síndrome X frágil es la condición monogenética que produce más casos de autismo y de discapacidad intelectual. La repetición de tripletes CGG (> 200) y su metilación conllevan el silenciamiento del gen FMR1. La proteína FMRP (producto del gen FMR1) interacciona con los ribosomas, controlando la traducción de mensajeros específicos y su pérdida produce alteraciones de la conectividad sináptica. El tamizaje de síndrome X frágil se realiza por reacción en cadena de la polimerasa. La recomendación actual de la Academia Americana de Pediatría es realizar pruebas a quienes presenten discapacidad intelectual, retraso global del desarrollo o antecedentes familiares de afección por la mutación o premutación. Países hispanos como Colombia, Chile y España reportan altas prevalencias de síndrome X frágil y han creado asociaciones o corporaciones nacionales de X frágil que buscan acercar a los pacientes a redes disponibles de diagnóstico y tratamiento.

Abstract Fragile X syndrome is the monogenetic condition that produces more cases of autism and intellectual disability. The repetition of CGG triplets (> 200) and their methylation entail the silencing of the FMR1 gene. The FMRP protein (product of the FMR1 gene) interacts with ribosomes by controlling the translation of specific messengers, and its loss causes alterations in synaptic connectivity. Screening for fragile X syndrome is performed by polymerase chain reaction. Current recommendation of the American Academy of Pediatrics is to test individuals with intellectual disability, global developmental retardation or with a family history of presence of the mutation or premutation. Hispanic countries such as Colombia, Chile and Spain report high prevalence of fragile X syndrome and have created fragile X national associations or corporations that seek to bring patients closer to available diagnostic and treatment networks.

Fragile X Syndrome in a Colombian Family / Sindrome X frágil en una Familia Colombiana

RESUMEN Se realizó un estudio descriptivo a una familia de Cali, Colombia, en el cual se evaluaron nueve pacientes, tres de los cuales presentaban discapacidad intelectual sin diagnóstico etiológico anterior. El caso índice fue diagnosticado con el síndrome X frágil mediante pruebas moleculares de ADN. Se realizaron pruebas en cascada a todos los miembros de la familia disponibles, identificando dos individuos adicionales con la mutación completa y cuatro portadores del alelo con pre mutación. Con este informe pretendemos contribuir a la epidemiología colombiana del síndrome y destacamos la importancia del diagnóstico etiológico de la discapacidad intelectual y proporcionar un tratamiento integral y específico a las personas afectadas. Además se busca identificar a los portadores de la pre mutación o mujeres con mutación completa sin fenotipo clásico para el asesoramiento genético y la educación sobre posibles patologías asociadas.

SUMMARY A study was performed on a family from Cali, Colombia in which nine patients were evaluated, three of which presented with intellectual disability with no previous etiological diagnosis. The proband was diagnosed with Fragile X syndrome by DNA molecular testing and, cascade testing, performed on all available family members, identifying two additional individuals with the full mutation and four carriers of a premutation allele. With this report we seek to contribute to Colombian epidemiology of the syndrome and emphasize the importance of diagnosis to provide a comprehensive and specific treatment to those affected. Further we seek to identify premutation carriers in their families or women with a full mutation without the classic phenotype for genetic counseling and education about potential associated pathologies.

Densidad asimétrica neuronal inter-hemisférica de la corteza insular en ratones FMR1 knock-out / Interhemispheric neural density asymmetry of insular cortex in FMR1 knock-out mice

El síndrome X frágil en los seres humanos es causado por una mutación en el gen FMR1 y se asocia con grave retraso mental, hiperactividad y ansiedad. Hemos comparado ratones FMR1-KO con ratones Control en la densidad neuronal de la corteza insular, área del cerebro asociada con el procesamiento del dolor y manejo de la ansiedad. Los ratones también fueron sometidos a una prueba de aprendizaje espacial en un entorno de ansiedad. Los resultados muestran asimetría significativa entre la densidad neuronal entre ínsula izquierda y derecha en KO en comparación con ratones de tipo Control. En cuanto al comportamiento, a pesar de los ratones KO no mostraron marcados déficits en la realización de tareas mostraron una velocidad superior a la de sus homólogos de tipo Control. Por otra parte, la asimetría de densidad insular se correlaciona con una mayor velocidad a nivel individual. Estos resultados sugieren que la asimetría de la densidad neuronal insular en FMR1 ratones KO se puede considerar como un correlato anatómico de las anormalidades de comportamiento observados.

Fragile X syndrome in humans is caused by a mutation in the FMR1 gene and it is associated with severe mental retardation, hyperactivity and anxiety. Here we compare FMR1 Knock-Out mice, a model of Fragile-X syndrome, and wild-type mice with respect to the neuronal density of the insular cortex, a brain area associated with pain processing and anxiety management. Mice were also subjected to a spatial learning test in an anxiogenic environment. Results show significant asymmetry between neuronal density between left and right insula in knock out as compared to wild type mice. Behaviorally, although knock-out mice did not show deficits in task completion they explored the maze at a higher velocity than their wild-type counterparts. Furthermore, insular density asymmetry correlated with higher velocity during one of the spatial navigation tasks at the individual mouse level. These results suggest that insular neuronal density asymmetry in FMR1 Knot-Out mice may be considered as an anatomical correlate of the observed behavioral abnormalities.

Cloning,expression and purification of fragile X mental retardation protein / 基础医学与临床

Objective Explore the conditions of the cloning,expression and purification of FMRP.Methods The plasmid pET22b(+)-FMR1,constructed by molecular cloning,was transformed into E.coli BL21(DE3) competent cells and induced to express FMRP by IPTG.Recombinant FMRP was purified by affinity chromatography,verified by Western-blot,and tested for its RNA binding ability.Results FMR1 cDNA was successfully cloned into pET22b(+) vector and expressed in E.coli BL21(DE3).A protein with Mr 79 000 was purified and confirmed to be FMRP.This protein retained the RNA binding ability of FMRP.Conclusion We successfully expressed recombinant hFMRP with high purity and activity in E.coli,which provided a reliable material to study the function of FMRP.