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1.
Am J Hum Genet ; 111(6): 1206-1221, 2024 06 06.
Article in English | MEDLINE | ID: mdl-38772379

ABSTRACT

Utilizing trio whole-exome sequencing and a gene matching approach, we identified a cohort of 18 male individuals from 17 families with hemizygous variants in KCND1, including two de novo missense variants, three maternally inherited protein-truncating variants, and 12 maternally inherited missense variants. Affected subjects present with a neurodevelopmental disorder characterized by diverse neurological abnormalities, mostly delays in different developmental domains, but also distinct neuropsychiatric signs and epilepsy. Heterozygous carrier mothers are clinically unaffected. KCND1 encodes the α-subunit of Kv4.1 voltage-gated potassium channels. All variant-associated amino acid substitutions affect either the cytoplasmic N- or C-terminus of the channel protein except for two occurring in transmembrane segments 1 and 4. Kv4.1 channels were functionally characterized in the absence and presence of auxiliary ß subunits. Variant-specific alterations of biophysical channel properties were diverse and varied in magnitude. Genetic data analysis in combination with our functional assessment shows that Kv4.1 channel dysfunction is involved in the pathogenesis of an X-linked neurodevelopmental disorder frequently associated with a variable neuropsychiatric clinical phenotype.


Subject(s)
Neurodevelopmental Disorders , Adolescent , Adult , Child , Child, Preschool , Female , Humans , Infant , Male , Epilepsy/genetics , Exome Sequencing , Genetic Diseases, X-Linked/genetics , Heterozygote , Mutation, Missense/genetics , Neurodevelopmental Disorders/genetics , Pedigree , Phenotype , Shal Potassium Channels/genetics
2.
Clin Genet ; 106(4): 476-482, 2024 Oct.
Article in English | MEDLINE | ID: mdl-38837402

ABSTRACT

Microcephalic osteodysplastic primordial dwarfism type I (MOPDI) is a very rare and severe autosomal recessive disorder characterized by marked intrauterine growth retardation, skeletal dysplasia, microcephaly and brain malformations. MOPDI is caused by biallelic mutations in RNU4ATAC, a non-coding gene involved in U12-type splicing of 1% of the introns in the genome, which are recognized by their specific splicing consensus sequences. Here, we describe a unique observation of immunodeficiency in twin sisters with mild MOPDI, who harbor a novel n.108_126del mutation, encompassing part of the U4atac snRNA 3' stem-loop and Sm protein binding site, and the previously reported n.111G>A mutation. Interestingly, both twin sisters show mild B-cell anomalies, including low naive B-cell counts and increased memory B-cell and plasmablasts counts, suggesting partial and transitory blockage of B-cell maturation and/or excessive activation of naive B-cells. Hence, the localization of a mutation in stem II of U4atac snRNA, as observed in another RNU4ATAC-opathy with immunodeficiency, that is, Roifman syndrome (RFMN), is not required for the occurrence of an immune deficiency. Finally, we emphasize the importance of considering immunodeficiency in MOPDI management to reduce the risk of serious infectious episodes.


Subject(s)
B-Lymphocytes , Dwarfism , Fetal Growth Retardation , Microcephaly , Mutation , Osteochondrodysplasias , Phenotype , RNA, Small Nuclear , Humans , Female , B-Lymphocytes/immunology , B-Lymphocytes/pathology , Microcephaly/genetics , Microcephaly/pathology , RNA, Small Nuclear/genetics , Fetal Growth Retardation/genetics , Fetal Growth Retardation/pathology , Dwarfism/genetics , Dwarfism/pathology , Osteochondrodysplasias/genetics , Osteochondrodysplasias/pathology , Siblings , Immunologic Deficiency Syndromes/genetics , Immunologic Deficiency Syndromes/pathology
3.
Genet Med ; 24(5): 1096-1107, 2022 05.
Article in English | MEDLINE | ID: mdl-35063350

ABSTRACT

PURPOSE: Rare genetic variants in CDK13 are responsible for CDK13-related disorder (CDK13-RD), with main clinical features being developmental delay or intellectual disability, facial features, behavioral problems, congenital heart defect, and seizures. In this paper, we report 18 novel individuals with CDK13-RD and provide characterization of genome-wide DNA methylation. METHODS: We obtained clinical phenotype and neuropsychological data for 18 and 10 individuals, respectively, and compared this series with the literature. We also compared peripheral blood DNA methylation profiles in individuals with CDK13-RD, controls, and other neurodevelopmental disorders episignatures. Finally, we developed a support vector machine-based classifier distinguishing CDK13-RD and non-CDK13-RD samples. RESULTS: We reported health and developmental parameters, clinical data, and neuropsychological profile of individuals with CDK13-RD. Genome-wide differential methylation analysis revealed a global hypomethylated profile in individuals with CDK13-RD in a highly sensitive and specific model that could aid in reclassifying variants of uncertain significance. CONCLUSION: We describe the novel features such as anxiety disorder, cryptorchidism, and disrupted sleep in CDK13-RD. We define a CDK13-RD DNA methylation episignature as a diagnostic tool and a defining functional feature of the evolving clinical presentation of this disorder. We also show overlap of the CDK13 DNA methylation profile in an individual with a functionally and clinically related CCNK-related disorder.


Subject(s)
Intellectual Disability , Neurodevelopmental Disorders , CDC2 Protein Kinase/genetics , DNA Methylation/genetics , Epigenesis, Genetic/genetics , Humans , Intellectual Disability/diagnosis , Intellectual Disability/genetics , Male , Neurodevelopmental Disorders/genetics , Phenotype
4.
Bone ; 179: 116953, 2024 02.
Article in English | MEDLINE | ID: mdl-37918503

ABSTRACT

The SP7 gene encodes a zinc finger transcription factor (Osterix), which is a member of the Sp subfamily of sequence-specific DNA-binding proteins, playing an important role in osteoblast differentiation and maturation. SP7 pathogenic variants have been described in association with different allelic disorders. Monoallelic or biallelic SP7 variants cause Osteogenesis imperfecta type XII (OI12), a very rare condition characterized by recurrent fractures, skeletal deformities, undertubulation of long bones, hearing loss, no dentinogenesis imperfecta, and white sclerae. Monoallelic or biallelic SP7 variants may also cause sclerotic skeletal dysplasias (SSD), partially overlapping with Juvenile Paget's disease and craniodiaphyseal dysplasia, characterized by skull hyperostosis, long bones sclerosis, large ribs and clavicles, and possible recurrent fractures. Here, we report the long-term follow-up of an 85-year-old woman presenting with a complex bone disorder including features of either OI12 (bone fragility with multiple fractures, severe deformities and short stature) or SSD (striking skull hyperostosis with optic atrophy, very large ribs and clavicles and long bones sclerosis). Exome sequencing showed previously undescribed biallelic loss of function variants in the SP7 gene: NM_001173467.2(SP7): c.359_362del, p.(Asp120Valfs*11); NM_001173467.2(SP7): c.1163_1174delinsT, p.(Pro388Leufs*33). RT-qPCR confirmed a severely reduced SP7 transcription compared to controls. Our report provides new insights into the clinical and molecular features and long-term outcome of SP7-related bone disorders (SP7-BD), suggesting a continuum phenotypic spectrum characterized by bone fragility, undertubulation of long bones, scoliosis, and very heterogeneous bone mineral density ranging from osteoporosis to osteosclerosis.


Subject(s)
Hyperostosis , Osteogenesis Imperfecta , Female , Humans , Aged, 80 and over , Follow-Up Studies , Sclerosis/pathology , Osteogenesis Imperfecta/genetics , Bone and Bones/pathology , Hyperostosis/pathology
5.
Eur J Med Genet ; 64(11): 104320, 2021 Nov.
Article in English | MEDLINE | ID: mdl-34438093

ABSTRACT

De novo heterozygous missense mutations in TRPM3 have been shown to cause developmental and epileptic encephalopathies (DEE). It is a very rare condition, as only 9 patients have been described to date. We report here a novel patient carrying the recurrent p.Val837Met variant and presenting new clinical features, such as trigonocephaly, expanding the phenotypical spectrum of the disease.


Subject(s)
Mutation, Missense , Phenotype , Spasms, Infantile/genetics , TRPM Cation Channels/genetics , Child, Preschool , Humans , Male , Spasms, Infantile/diagnostic imaging , Spasms, Infantile/pathology
6.
Diagnostics (Basel) ; 10(8)2020 Jul 22.
Article in English | MEDLINE | ID: mdl-32708028

ABSTRACT

The opportunity to encounter and appreciate the range of human variation in anatomic structures-and its potential impact on related structures, function, and treatment-is one of the chief benefits of cadaveric dissection for students in clinical preprofessional programs. The dissection lab is also where students can examine unusual anatomic variants that may not be included in their textbooks, lab manuals, or other course materials. For students specializing in physical medicine, awareness and understanding of muscle variants has a practical relevance to their preparations for clinical practice. In a routine dissection of the superficial chest muscles, graduate students in a human gross anatomy class exposed a large, well-developed sternalis muscle. The exposure of this muscle generated many student questions about M sternalis: its prevalence and appearance, its function, its development, and its evolutionary roots. Students used an inquiry protocol to guide their searches through relevant literature to gather this information. Instructors developed a decision tree to assist students in their inquiries, both by helping them to make analytic inferences and by highlighting areas of interest needing further investigation. Answering these questions enriches the understanding and promotes "habits of mind" for exploring musculoskeletal anatomy beyond simple descriptions of function and structure.

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