A de novo mutation affecting human TrkB associated with severe obesity and developmental delay

2004 ◽  
Vol 7 (11) ◽  
pp. 1187-1189 ◽  
Author(s):  
Giles S H Yeo ◽  
Chiao-Chien Connie Hung ◽  
Justin Rochford ◽  
Julia Keogh ◽  
Juliette Gray ◽  
...  
Keyword(s):  
Developmental Delay ◽  
Severe Obesity ◽  
De Novo ◽  
De Novo Mutation

Sleep Exacerbations and Facial Twitching: Diagnostic Clues for ADCY5-Related Dyskinesias

2020 ◽  
Author(s):  
Margherita Nosadini ◽  
Gianluca D'Onofrio ◽  
Maria Federica Pelizza ◽  
Concetta Luisi ◽  
Davide Padrin ◽  
...  
Keyword(s):  
Movement Disorder ◽  
Developmental Delay ◽  
De Novo ◽  
Brain Magnetic Resonance Imaging ◽  
Neurological Impairment ◽  
De Novo Mutation ◽  
Oligoclonal Bands ◽  
Emotional Stimuli ◽  
Childhood Onset ◽  
Ataxic Gait

Abstract Background Mutations in the adenylate cyclase 5 (ADCY5) gene are associated with childhood-onset paroxysmal dyskinesia. Methods We report a new video-documented case of pediatric ADCY5-related dyskinesia with de novo ADCY5 mutation. Results A boy born to nonconsanguineous parents after an uneventful pregnancy had developmental delay and hypotonia. At the age of 7 months, he presented with paroxysmal jerky–choreic–dystonic involuntary movements in wakefulness involving limbs, trunk, and face, exacerbated by emotional stimuli. These episodes gradually worsened in duration and frequency: at the age of 2.5 years, they occurred up to six times per day, and appeared also during sleep in prolonged bouts; the boy also had basal choreoathetoid–dystonic movements, hyperactivity, paraparetic–ataxic gait, generalized hypotonia with brisk tendon reflexes, drooling, and language delay with intellectual disability. Brain magnetic resonance imaging, electroencephalogram, electromyogram, eye review, metabolic investigations, oligoclonal bands, and autoantibodies were normal. Extensive genetic testing had not let to a diagnosis, until a heterozygous de novo mutation c.1252C > T (p.Arg418Trp) was identified in the ADCY5 gene. Clonazepam had partial effectiveness. The boy walked at the age of 3.5 years. At the age of 5 years, the paroxysmal movement disorder has slightly improved. Conclusion ADCY5 mutations should be considered among the differential diagnoses of early-onset paroxysmal choreic–athetosic–myoclonic–dystonic movement disorder involving limbs, trunk, and face, in patients with global neurological impairment with hypotonia and developmental delay. Facial dyskinesias and exacerbation by drowsiness/sleep and emotional stimuli are important clues that may allow a timely recognition of the disorder and avoidance of unnecessary diagnostic investigations.

scholarly journals Case Report: A Novel de novo Mutation in DNM1L Presenting With Developmental Delay, Ataxia, and Peripheral Neuropathy

2021 ◽  
Vol 9 ◽  
Author(s):  
Yanping Wei ◽  
Min Qian
Keyword(s):  
Peripheral Neuropathy ◽  
Developmental Delay ◽  
De Novo ◽  
Refractory Epilepsy ◽  
De Novo Mutation ◽  
Global Developmental Delay ◽  
Missense Mutations ◽  
Related Protein ◽  
Resonance Imaging ◽  
Genetic Results

DNM1L encodes dynamin-related protein 1 (Drp1), which is a member of the dynamin superfamily of GTPases and mediates mitochondrial and peroxisomal fission. In humans, several de novo heterozygous missense mutations in DNM1L have been reported, which were characterized by devastating courses with refractory epilepsy, myoclonus, and brain atrophy on MRI. We describe a 4.5-year-old male child harboring a novel de novo mutation in DNM1L presenting a phenotype of developmental delay, ataxia, and peripheral neuropathy. The clinical features, magnetic resonance imaging findings, and genetic results were summarized. Meanwhile, all the cases of DNM1L mutations reported were reviewed. DNM1L variants may need to be considered in phenotypes that include global developmental delay, peripheral neuropathy, and ataxia.

scholarly journals Neurodevelopmental disease genes implicated by de novo mutation and CNV morbidity

2017 ◽  
Author(s):  
Bradley P. Coe ◽  
Holly A.F. Stessman ◽  
Arvis Sulovari ◽  
Madeleine Geisheker ◽  
Fereydoun Hormozdiari ◽  
...  
Keyword(s):  
Developmental Delay ◽  
De Novo ◽  
Gene Dosage ◽  
De Novo Mutation ◽  
Disease Genes ◽  
Missense Mutations ◽  
Genomic Disorder ◽  
Network Analyses ◽  
Neurodevelopmental Disease ◽  
Deletion Syndromes

ABSTRACTWe combined de novo mutation (DNM) data from 10,927 cases of developmental delay and autism to identify 301 candidate neurodevelopmental disease genes showing an excess of missense and/or likely gene-disruptive (LGD) mutations. 164 genes were predicted by two different DNM models, including 116 genes with an excess of LGD mutations. Among the 301 genes, 76% show DNM in both autism and intellectual disability/developmental delay cohorts where they occur in 10.3% and 28.4% of the cases, respectively. Intersecting these results with copy number variation (CNV) morbidity data identifies a significant enrichment for the intersection of our gene set and genomic disorder regions (36/301, LR+ 2.53, p=0.0005). This analysis confirms many recurrent LGD genes and CNV deletion syndromes (e.g., KANSL1, PAFAH1B1, RA1, etc.), consistent with a model of haploinsufficiency. We also identify genes with an excess of missense DNMs overlapping deletion syndromes (e.g., KIF1A and the 2q37 deletion) as well as duplication syndromes, such as recurrent MAPK3 missense mutations within the chromosome 16p11.2 duplication, recurrent CHD4 missense DNMs in the 12p13 duplication region, and recurrent WDFY4 missense DNMs in the 10q11.23 duplication region. Finally, we also identify pathogenic CNVs overlapping more than one recurrently mutated gene (e.g., Sotos and Kleefstra syndromes) raising the possibility that multiple gene-dosage imbalances may contribute to phenotypic complexity of these disorders. Network analyses of genes showing an excess of DNMs confirm previous well-known enrichments but also highlight new functional networks, including cell-specific enrichments in the D1+ and D2+ spiny neurons of the striatum for both recurrently mutated genes and genes where missense mutations cluster.

scholarly journals ATP1A1 de novo Mutation-Related Disorders: Clinical and Genetic Features

2021 ◽  
Vol 9 ◽  
Author(s):  
Zehong Lin ◽  
Jinliang Li ◽  
Taoyun Ji ◽  
Ye Wu ◽  
Kai Gao ◽  
...  
Keyword(s):  
Developmental Delay ◽  
De Novo ◽  
Wide Spectrum ◽  
De Novo Mutation ◽  
Loss Of Function ◽  
Severe Phenotype ◽  
Related Disorder ◽  
Genetic Features ◽  
Refractory Seizures ◽  
Transmembrane Regions

Background:ATP1A1 encodes an α1 isoform of Na+/K+-ATPase, which is expressed abundantly in kidneys and central nervous system. ATP1A1 variants may cause Na+/K+-ATPase loss of function and lead to a wide spectrum of phenotypes. This study aims to summarize the clinical and genetic features of ATP1A1 de novo mutation-related disorders and explore the potential correlations between phenotypes and genotypes.Methods: We analyzed two new cases harboring novel de novo ATP1A1 variants and reviewed all reported cases.Results: Both our probands had developmental delay, patient 1 accompanied with sleep disorders, irritability, and patient 2 with refractory seizures. They each had a novel de novo heterozygous missense variant, c.2797G>A[p.Asp933Asn] (NM_000701) and c.2590G>A[p.Gly864Arg] (NM_000701) respectively. Four patients with de novo ATP1A1 variants have been reported in two previous papers. Among them, three patients had refractory seizures and one patient had complex hereditary spastic paraplegia (HSP). Therefore, all six patients had developmental delay, and four of them had epilepsy. All variants located in the transmembrane regions M3, M4, M7, and M8 of ATP1A1 protein. Four patients with mutations in M3 and M7 had more severe phenotypes, including developmental delay and epileptic encephalopathy, three of them with hypomagnesemia, whereas two patients with mutations in M4 and M8 had milder phenotypes, only with mild developmental delay, without seizures or hypomagnesemia. Correcting hypomagnesemia had not controlled those seizures.Conclusions: Two novel de novo ATP1A1 variants identified in two patients here enriched the genotypic and phenotypic spectrum of ATP1A1 mutation-related disorder. Our findings suggest that hypomagnesemia in this disorder might relate to more severe phenotype and indicate more severe Na+/K+-ATPase dysfunction. Variations in M3 and M7 transmembrane regions were related to more severe phenotype than those in M4 and M8, which suggested that variations in M3 and M7 might cause more severe ATP1A1 functional defect.

scholarly journals A Novel de novo Mutation in EBF3 Associated With Hypotonia, Ataxia, and Delayed Development Syndrome in a Chinese Boy

2021 ◽  
Vol 12 ◽  
Author(s):  
Yanru Huang ◽  
Libin Mei ◽  
Yangdan Wang ◽  
Huiming Ye ◽  
Xiaomin Ma ◽  
...  
Keyword(s):  
Developmental Delay ◽  
Clinical Diagnosis ◽  
De Novo ◽  
Pathogenic Mutation ◽  
De Novo Mutation ◽  
Luciferase Reporter ◽  
Global Developmental Delay ◽  
Whole Exome ◽  
Development Delay ◽  
Delayed Development

ObjectiveGlobal developmental delay has markedly high phenotypic and genetic heterogeneity, and is a great challenge for clinical diagnosis. Hypotonia, ataxia, and delayed development syndrome (HADDS), first reported in 2017, is one type of global development delay. The aim of the present study was to investigate the genetic etiology of a Chinese boy with global developmental delay.MethodsWe combined clinical and imaging phenotyping with trio whole-exome sequencing and Sanger sequencing to the patient and his clinically unaffected parents. A luciferase reporter and immunofluorescence were performed to detect the effect of mutation on transcriptional activity and subcellular localization.ResultsThe patient presented with several previously unreported symptoms in the patients with HADDS, including hemangiomas, mild hearing abnormalities and tracheomalacia. A novel EBF3 c.589A > G missense mutation (p.Asn197Asp, p.N197D) was identified in the patient but not in his parents. By constructing the plasmid and transfecting HEK293T cells, EBF3-N197D mutant showed impaired activation of luciferase reporter expression of the p21 promoter, and the mutant affected its entry into the nucleus.ConclusionTo the best of our knowledge, this is the first report of EBF3 pathogenic mutation which associated with HADDS in the Chinese population. Our results expand the phenotypes and pathogenic mutation spectrum of HADDS, thus potentially facilitating the clinical diagnosis and genetic counseling of HADDS patients.

scholarly journals Intranasal oxytocin administration ameliorates social behavioral deficits in a POGZWT/Q1038R mouse model of autism spectrum disorder

2021 ◽  
Vol 14 (1) ◽  
Author(s):  
Kohei Kitagawa ◽  
Kensuke Matsumura ◽  
Masayuki Baba ◽  
Momoka Kondo ◽  
Tomoya Takemoto ◽  
...  
Keyword(s):  
Autism Spectrum Disorder ◽  
Social Behavior ◽  
Mouse Model ◽  
Mouse Models ◽  
De Novo ◽  
Neurodevelopmental Disorder ◽  
Autism Spectrum ◽  
Spectrum Disorder ◽  
De Novo Mutation ◽  
Behavioral Deficits

AbstractAutism spectrum disorder (ASD) is a highly prevalent neurodevelopmental disorder characterized by core symptoms of impaired social behavior and communication. Recent studies have suggested that the oxytocin system, which regulates social behavior in mammals, is potentially involved in ASD. Mouse models of ASD provide a useful system for understanding the associations between an impaired oxytocin system and social behavior deficits. However, limited studies have shown the involvement of the oxytocin system in the behavioral phenotypes in mouse models of ASD. We have previously demonstrated that a mouse model that carries the ASD patient-derived de novo mutation in the pogo transposable element derived with zinc finger domain (POGZWT/Q1038R mice), showed ASD-like social behavioral deficits. Here, we have explored whether oxytocin (OXT) administration improves impaired social behavior in POGZWT/Q1038R mice and found that intranasal oxytocin administration effectively restored the impaired social behavior in POGZWT/Q1038R mice. We also found that the expression level of the oxytocin receptor gene (OXTR) was low in POGZWT/Q1038R mice. However, we did not detect significant changes in the number of OXT-expressing neurons between the paraventricular nucleus of POGZWT/Q1038R mice and that of WT mice. A chromatin immunoprecipitation assay revealed that POGZ binds to the promoter region of OXTR and is involved in the transcriptional regulation of OXTR. In summary, our study demonstrate that the pathogenic mutation in the POGZ, a high-confidence ASD gene, impairs the oxytocin system and social behavior in mice, providing insights into the development of oxytocin-based therapeutics for ASD.

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