Publications by authors named "Alexia Boizot"
Article Synopsis
- - The study investigates the genetic causes of congenital hypogonadotropic hypogonadism (CHH), a rare disorder linked to deficiencies in gonadotropin-releasing hormone (GnRH), in six families from Pakistan.
- - Researchers used genome sequencing to identify pathogenic single nucleotide variants and copy number variants, discovering novel mutations in known CHH-related genes such as GNRHR and KISS1R in four families, while two others had significant deletions in the ANOS1 gene.
- - The findings highlight the importance of using a comprehensive analysis of genetic variants to enhance diagnostic accuracy for CHH patients.
Article Synopsis
- * In a study involving overfeeding of adults, participants received either grape polyphenol extract or a placebo, with blood samples analyzed to observe metabolic changes.
- * The results showed that grape polyphenol supplementation helped counteract metabolic markers related to weight gain, indicating a protective effect against negative impacts of overfeeding.
Article Synopsis
- Two double-blind trials involving 42 men and 19 women assessed the impact of 2 g/day of grape polyphenol extract during a 31-day period of high calorie-high fructose overfeeding.
- While body weight and fat mass increased in both men and women, grape polyphenol supplementation did not prevent changes in insulin sensitivity or fat accumulation, particularly in the liver for men.
- Interestingly, the intake of polyphenols was linked to a decrease in fat cell size in women's femoral fat, indicating some localized effects despite overall metabolic alterations remaining unchanged.
Article Synopsis
- NCKAP1/NAP1 is crucial for neuronal development and impacts cytoskeletal dynamics in the brain; disruptions can lead to conditions like autism spectrum disorder (ASD) and intellectual disability.
- This research analyzes genetic data from 21 individuals with harmful NCKAP1 variants, reporting a correlation with neurodevelopmental disorders such as ASD, language delays, and motor skill issues.
- Findings indicate that NCKAP1 is highly expressed in brain development stages, particularly in excitatory neurons, and its loss-of-function may hinder neuronal migration, linking it to ASD and associated delays.
Gene transfer is a widely developed technique for studying and treating genetic diseases. However, the development of therapeutic strategies is challenging, due to the cellular and functional complexity of the central nervous system (CNS), its large size and restricted access. We explored two parameters for improving gene transfer efficacy and capacity for the selective targeting of subpopulations of cells with lentiviral vectors (LVs).
View Article and Find Full Text PDFGrowing evidence shows that alterations occurring at early developmental stages contribute to symptoms manifested in adulthood in the setting of neurodegenerative diseases. Here, we studied the molecular mechanisms causing giant axonal neuropathy (GAN), a severe neurodegenerative disease due to loss-of-function of the gigaxonin-E3 ligase. We showed that gigaxonin governs Sonic Hedgehog (Shh) induction, the developmental pathway patterning the dorso-ventral axis of the neural tube and muscles, by controlling the degradation of the Shh-bound Patched receptor.
View Article and Find Full Text PDFBackground: The BTB-KELCH protein Gigaxonin plays key roles in sustaining neuron survival and cytoskeleton architecture. Indeed, recessive mutations in the Gigaxonin-encoding gene cause Giant Axonal Neuropathy (GAN), a severe neurodegenerative disorder characterized by a wide disorganization of the Intermediate Filament network. Growing evidences suggest that GAN is a continuum with the peripheral neuropathy Charcot-Marie-Tooth diseases type 2 (CMT2).
View Article and Find Full Text PDFBackground: Giant Axonal Neuropathy (GAN) is a fatal neurodegenerative disorder with early onset characterized by a severe deterioration of the peripheral and central nervous system, involving both the motor and the sensory tracts and leading to ataxia, speech defect and intellectual disabilities. The broad deterioration of the nervous system is accompanied by a generalized disorganization of the intermediate filaments, including neurofilaments in neurons, but the implication of this defect in disease onset or progression remains unknown. The identification of gigaxonin, the substrate adaptor of an E3 ubiquitin ligase, as the defective protein in GAN allows us to now investigate the crucial role of the gigaxonin-E3 ligase in sustaining neuronal and intermediate filament integrity.
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