Low and High-Normal FMR1 Triplet Cytosine, Guanine Guanine Repeats Affect Ovarian Reserve and Fertility in Women Who Underwent In Vitro Fertilization Treatment? Results from a Cross-Sectional Study.

Dynamic mutations in the 5' untranslated region of FMR1 are associated with infertility. Premutation alleles interfere with prenatal development and increase infertility risks. The number of CGG repeats that causes the highest decrease in ovarian reserves remains unclear. We evaluated the effect of FMR1 CGG repeat lengths on ovarian reserves and in vitro fertilization (IVF) treatment outcomes in 272 women with alleles within the normal range. FMR1 CGG repeat length was investigated via PCR and capillary electrophoresis. Alleles were classified as low-normal, normal, and high-normal. Serum levels of follicle-stimulating hormone and anti-Mullerian hormone (AMH) in the follicular phase of the menstrual cycle were measured, and antral follicles (AFC) were counted. IVF outcomes were collected from medical records. Regarding FMR1 CGG repeat length alleles, 63.2% of women presented at least one low-normal allele. Those carrying low-normal alleles had significantly lower AMH levels than women carrying normal or high-normal alleles. Low-normal/low-normal genotype was the most frequent, followed by low-normal/normal and normal/normal. A comparison of ovarian reserve markers and reproductive outcomes of the three most frequent genotypes revealed that AFC in the low-normal/normal genotype was significantly lower than the low-normal/low-normal genotype. The low number of FMR1 CGG repeats affected AMH levels and AFC but not IVF outcomes per cycle of treatment.

Molecular analysis of FMR1 gene in a population in Southern Brazil: Comparison of four methods.

OBJECTIVES: Fragile X syndrome (FXS) is caused by expansion of the number of cytosine-guanine-guanine (CGG) repeats in the regulatory region of the gene fragile X mental retardation 1 (FMR1). The molecular diagnoses of FXS can be performed using two tests based on two different techniques, namely polymerase chain reaction (PCR) and Southern blotting (SB). However, both of these techniques have limitations. The purpose of this study was to evaluate the performance of the commercial FragilEase™ PCR kit for FXS diagnosis comparing to other laboratory methods. DESIGN: and methods: This study had a retrospective design. We analyzed the performance of the FragilEase™ PCR kit using 90 DNA samples from patients with clinical suspicion of FXS or a family history of the syndrome using capillary electrophoresis and compared with the results obtained for the same samples using PCR, SB, and AmplideX FMR1 PCR. RESULTS: FragilEase™ PCR kit displayed high concordance with the results obtained using PCR, SB, and AmplideX FMR1 PCR regarding the detection of normal, intermediate/gray zone, premutation, and full mutation alleles, as well as female homozygosity and mosaicism. The replicate sizes found using the FragilEase™ PCR assay varied on average by two CGG repeats. CONCLUSION: FragilEase™ PCR, as well as other commercially available kits, efficiently detect FMR1 mutations and simplify the workflow in laboratories that performing FXS diagnoses.

Fragile X syndrome: clinical presentation, pathology and treatment.

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.

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.

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.

Finding FMR1 mosaicism in Fragile X syndrome.

OBJECTIVE: Almost all patients with Fragile X Syndrome (FXS) exhibit a CGG repeat expansion (full mutation) in the Fragile Mental Retardation 1 gene (FMR1). Here, the authors report five unrelated males with FXS harboring a somatic full mutation/deletion mosaicism. METHODS: Mutational profiles were only elucidated by using a combination of molecular approaches (CGG-based PCR, Sanger sequencing, MS-MLPA, Southern blot and mPCR). RESULTS: Four patients exhibited small deletions encompassing the CGG repeats tract and flanking regions, whereas the remaining had a larger deletion comprising at least exon 1 and part of intron 1 of FMR1 gene. The presence of a 2-3 base pairs microhomology in proximal and distal non-recurrent breakpoints without scars supports the involvement of microhomology mediated induced repair (MMBIR) mechanism in three small deletions. CONCLUSION: The authors data highlights the importance of using different research methods to elucidate atypical FXS mutational profiles, which are clinically undistinguishable and may have been underestimated.

Estudios de la región 5'UTR del gen FMR-1 en pacientes con falla ovárica prematura / Studies of the 5' - UTRTR region in the FMR-1 gene in patients withe Premature Ovarian Failure

La falla ovárica prematura (FOP) es un síndrome de patogénesis multicausal que afecta aproximadamente al 1% de las mujeres en edad reproductiva. Numerosos estudios asocian el estado de premutación (amplificación del número de tripletes CGG entre 50/55 y 200 repeticiones) en el gen FMR-1 y FOP. Alrededor de un 4% de las pacientes FOP presentan alelos con premutación. La amplificación del número de tripletes por encima de 200 repeticiones causa el Síndrome de Fragilidad del X (SFX). El objetivo del presente trabajo fue estudiar la región 5´ no codificante del gen en un grupo de pacientes FOP de Argentina. La región de interés se amplificó por PCR a partir de muestras de ADN de 100 pacientes FOP y 145 mujeres controles. Los alelos de las pacientes y controles fueron agrupados en 7 categorías de acuerdo al número de tripletes obtenidos. Se observó que el número de repeticiones más frecuente se encuentra en el rango de 26 a 30 tripletes, tanto en pacientes como en controles. En el grupo de pacientes FOP, 5/197 (2.6%) alelos no relacionados estudiados presentaron un número de tripletes CGG mayor a 50, mientras que sólo 1 de 290 (0.34%) para el grupo control. Todas las pacientes FOP con valores de tripletes CGG mayor a 50 presentaron amenorrea secundaria. Estos resultados están en concordancia con lo comunicado para otras poblaciones acerca de la existencia de una asociación entre la premutación del gen FMR-1 y el desarrollo de FOP. Asimismo, los resultados obtenidos refuerzan la importancia de la genotipificación del gen FMR-1 en las pacientes FOP, a los efectos de estimar el riesgo de su descendencia para el SFX.

Premature ovarian failure (POF) is a syndrome of multicausal pathogenesis that affects 1% of women before the age of 40. Several studies associate the premutation state (CGG repeats increased in number between 50/55 and 200) in the FMR-1 gene and POF. About 4% of POF women have alleles in the FMR-1 gene in the permutation range. An increase above 200 in the number of triplets in this gene causes the Fragile X Syndrome (FXS). The purpose of the present study was to analyze the 5´untranslated region of the FMR-1 gene in a group of patients from Argentina. The region of interest was amplified by PCR from DNA samples of 100 POF patients and 145 control women. Alleles from controls and patients were grouped in 7 categories according to the number of triplets obtained. We observed that the most frequent number of repeats ranged from 26 to 30 triplets, in both patient and control groups. In the POF group, 5 out of 197 (2.6%) not related alleles presented a number of CGG triplets higher than 50, while only 1 out of 290 (0.34%) was present in controls. All POF patients with a number of CGG repeats higher than 50 presented secondary amenorrhea. These results are in accordance with previous reports from other populations showing an association between the premutation state in the FMR-1 gene and POF development. In addition, these results reinforce the importance of genotyping POF patients to estimate the risk of their offspring for Fragile X Syndrome.

The fragile x-associated tremor and ataxia syndrome (FXTAS) / A síndrome de tremor e ataxia associada ao X frágil (FXTAS)

FXTAS (Fragile X-associated tremor and ataxia syndrome) is a late- onset neurodegenerative disorder affecting mainly men, over 50 years of age, who are carriers of the FMR1 gene premutation. The full mutation of this gene causes the fragile X syndrome (FXS), the most common cause of inherited mental retardation. Individuals affected by FXTAS generally present intention tremor and gait ataxia that might be associated to specific radiological and/or neuropathological signs. Other features commonly observed are parkinsonism, cognitive decline, peripheral neuropathy and autonomic dysfunction. Nearly a decade after its clinical characterization, FXTAS is poorly recognized in Brazil. Here we present a review of the current knowledge on the clinical, genetic and diagnostic aspects of the disease.

A FXTAS (síndrome de tremor e ataxia associada ao X frágil) é uma doença neurodegenerativa de início tardio que afeta principalmente homens acima dos 50 anos de idade, portadores de pré-mutação do gene FMR1. A mutação completa desse gene é responsável pela síndrome do cromossomo X frágil (SXF), a causa mais comum de deficiência mental herdada. Indivíduos afetados pela FXTAS geralmente apresentam tremor de intenção e ataxia de marcha que podem estar associados a sinais radiológicos ou neuropatológicos específicos. Outras características comumente observadas são parkinsonismo, declínio cognitivo, neuropatia periférica e disfunções autonômicas. Quase uma década após sua caracterização clínica, a FXTAS é mal conhecida por médicos no Brasil. Esta revisão apresenta o conhecimento atual sobre os aspectos clínicos, genéticos e diagnósticos da síndrome.

Clinical checklists in the selection of mentally retarded males for molecular screening of fragile X syndrome

Fragile X syndrome is the most frequent cause of inherited mental retardation. The phenotype in this syndrome is quite variable and less conspicuous in younger patients, making clinical diagnosis difficult and thus making molecular diagnosis necessary. The use of clinical checklists in mentally retarded individuals can help selecting patients to be given priority in the molecular investigation for the fragile-X mutation in the FMR1 gene. We evaluated two clinical checklists in a sample of 200 Brazilian male patients with mental retardation. The highest scores in the two checklists concentrated among the 19 males (9.5 percent) found to carry full mutations. Our results confirm the importance of fragile-X checklists as a clinical tool in the study of mentally retarded patients.