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1.
Neurogenetics ; 2024 Apr 23.
Article in English | MEDLINE | ID: mdl-38652341

ABSTRACT

Aminoacyl-tRNA synthetases (ARSs) aminoacylate tRNA molecules with their cognate amino acid, enabling information transmission and providing substrates for protein biosynthesis. They also take part in nontranslational functions, mediated by the presence of other proteins domains. Mutations in ARS genes have been described as responsive to numerous factors, including neurological, autoimmune, and oncological. Variants of the ARS genes, both in heterozygosity and homozygosity, have been reported to be responsible for different pathological pictures in humankind. We present the case of a patient referred in infancy for failure to thrive and acquired microcephaly (head circumference: -5 SD). During follow-up we highlighted: dysphagia (which became increasingly severe until it became incompatible with oral feeding, with gastrostomy implantation, resulting in resolution of feeding difficulties), strabismus, hypotonia. NCV (Nerve Conduction Velocity) showed four limbs neuropathy, neurophysiological examination performed at 2 years of age mainly sensory and demyelinating. Exome sequencing (ES) was performed, detecting two novel compound heterozygous variants in the NARS1 gene (OMIM *108410): NM_004539:c.[662 A > G]; [1155dup], p.[(Asn221Ser)]; [(Arg386Thrfs*19)], inherited from mother and father respectively. In this article, we would like to focus on the presence of progressive dysphagia and severe neurodevelopmental disorder, associated with two novel variants in the NARS1 gene.

2.
BMC Med Genomics ; 17(1): 68, 2024 Mar 05.
Article in English | MEDLINE | ID: mdl-38443934

ABSTRACT

BACKGROUND: Thousand and one amino-acid kinase 1 (TAOK1) encodes the MAP3K protein kinase TAO1, which has recently been displayed to be essential for neuronal maturation and cortical differentiation during early brain development. Heterozygous variants in TAOK1 have been reported in children with neurodevelopmental disorders, with or without macrocephaly, hypotonia and mild dysmorphic traits. Literature reports lack evidence of neuronal migration disorders in TAOK1 patients, although studies in animal models suggest this possibility. CASE PRESENTATION: We provide a clinical description of a child with a neurodevelopmental disorder due to a novel TAOK1 truncating variant, whose brain magnetic resonance imaging displays periventricular nodular heterotopia. CONCLUSIONS: To our knowledge, this is the first report of a neuronal migration disorder in a patient with a TAOK1-related neurodevelopmental disorder, thus supporting the hypothesized pathogenic mechanisms of TAOK1 defects.


Subject(s)
Neurodevelopmental Disorders , Periventricular Nodular Heterotopia , Animals , Male , Child , Humans , Periventricular Nodular Heterotopia/diagnostic imaging , Periventricular Nodular Heterotopia/genetics , Amino Acids , Phosphorylation , Brain , Neurodevelopmental Disorders/genetics
3.
Eur J Hum Genet ; 32(6): 619-629, 2024 Jun.
Article in English | MEDLINE | ID: mdl-38351292

ABSTRACT

Mowat-Wilson syndrome (MOWS) is a rare congenital disease caused by haploinsufficiency of ZEB2, encoding a transcription factor required for neurodevelopment. MOWS is characterized by intellectual disability, epilepsy, typical facial phenotype and other anomalies, such as short stature, Hirschsprung disease, brain and heart defects. Despite some recognizable features, MOWS rarity and phenotypic variability may complicate its diagnosis, particularly in the neonatal period. In order to define a novel diagnostic biomarker for MOWS, we determined the genome-wide DNA methylation profile of DNA samples from 29 individuals with confirmed clinical and molecular diagnosis. Through multidimensional scaling and hierarchical clustering analysis, we identified and validated a DNA methylation signature involving 296 differentially methylated probes as part of the broader MOWS DNA methylation profile. The prevalence of hypomethylated CpG sites agrees with the main role of ZEB2 as a transcriptional repressor, while differential methylation within the ZEB2 locus supports the previously proposed autoregulation ability. Correlation studies compared the MOWS cohort with 56 previously described DNA methylation profiles of other neurodevelopmental disorders, further validating the specificity of this biomarker. In conclusion, MOWS DNA methylation signature is highly sensitive and reproducible, providing a useful tool to facilitate diagnosis.


Subject(s)
DNA Methylation , Facies , Hirschsprung Disease , Homeodomain Proteins , Intellectual Disability , Microcephaly , Repressor Proteins , Zinc Finger E-box Binding Homeobox 2 , Humans , Intellectual Disability/genetics , Intellectual Disability/diagnosis , Intellectual Disability/pathology , Zinc Finger E-box Binding Homeobox 2/genetics , Zinc Finger E-box Binding Homeobox 2/metabolism , Microcephaly/genetics , Microcephaly/diagnosis , Microcephaly/pathology , Hirschsprung Disease/genetics , Hirschsprung Disease/diagnosis , Hirschsprung Disease/pathology , Homeodomain Proteins/genetics , Repressor Proteins/genetics , Female , Male , Child , Child, Preschool , Adolescent , CpG Islands
4.
Mol Syndromol ; 15(1): 63-70, 2024 Feb.
Article in English | MEDLINE | ID: mdl-38357260

ABSTRACT

Introduction: Xia-Gibbs syndrome (OMIM 615829) is a rare developmental disorder, caused by heterozygous de novo variants in the AHDC1 gene. Hallmark features include global developmental delay, facial dysmorphisms, and behavioral problems. To date, more than 250 individuals have been diagnosed worldwide. Case Report: We report a 13-year-old female who, in association with typical features of Xia-Gibbs syndrome, presented with macrocrania, pes cavus, and conjunctival melanosis. Whole-exome sequencing identified a de novo frameshift variant, which had not been reported in the literature before. Conclusion: We summarized the main clinical and phenotypic features of patients described in the literature, and in addition, we discuss another feature found in our patient and observed in other cases described, eye asymmetry, which has never been highlighted, and suggest that it could be part of the typical clinical presentation of this condition.

5.
Int J Mol Sci ; 25(2)2024 Jan 19.
Article in English | MEDLINE | ID: mdl-38279250

ABSTRACT

The genetic causes of epilepsies and developmental and epileptic encephalopathies (DEE) with onset in early childhood are increasingly recognized. Their outcomes vary from benign to severe disability. In this paper, we wished to retrospectively review the clinical, genetic, EEG, neuroimaging, and outcome data of patients experiencing the onset of epilepsy in the first three years of life, diagnosed and followed up in four Italian epilepsy centres (Epilepsy Centre of San Paolo University Hospital in Milan, Child Neurology and Psychiatry Unit of AUSL-IRCCS di Reggio Emilia, Pediatric Neurology Unit of Vittore Buzzi Children's Hospital, Milan, and Child Neurology and Psychiatry Unit, IRCCS Mondino Foundation, Pavia). We included 168 patients (104 with monogenic conditions, 45 with copy number variations (CNVs) or chromosomal abnormalities, and 19 with variants of unknown significance), who had been followed up for a mean of 14.75 years. We found a high occurrence of generalized seizures at onset, drug resistance, abnormal neurological examination, global developmental delay and intellectual disability, and behavioural and psychiatric comorbidities. We also documented differing presentations between monogenic issues versus CNVs and chromosomal conditions, as well as atypical/rare phenotypes. Genetic early-childhood-onset epilepsies and DEE show a very wide phenotypic and genotypic spectrum, with a high risk of complex neurological and neuropsychiatric phenotypes.


Subject(s)
Epilepsy, Generalized , Epilepsy , Humans , Child, Preschool , DNA Copy Number Variations , Retrospective Studies , Epilepsy/genetics , Epilepsy/diagnosis , Seizures/genetics
6.
Genet Med ; 26(1): 101007, 2024 Jan.
Article in English | MEDLINE | ID: mdl-37860968

ABSTRACT

PURPOSE: BCL11B-related disorder (BCL11B-RD) arises from rare genetic variants within the BCL11B gene, resulting in a distinctive clinical spectrum encompassing syndromic neurodevelopmental disorder, with or without intellectual disability, associated with facial features and impaired immune function. This study presents an in-depth clinico-biological analysis of 20 newly reported individuals with BCL11B-RD, coupled with a characterization of genome-wide DNA methylation patterns of this genetic condition. METHODS: Through an international collaboration, clinical and molecular data from 20 individuals were systematically gathered, and a comparative analysis was conducted between this series and existing literature. We further scrutinized peripheral blood DNA methylation profile of individuals with BCL11B-RD, contrasting them with healthy controls and other neurodevelopmental disorders marked by established episignature. RESULTS: Our findings unveil rarely documented clinical manifestations, notably including Rubinstein-Taybi-like facial features, craniosynostosis, and autoimmune disorders, all manifesting within the realm of BCL11B-RD. We refine the intricacies of T cell compartment alterations of BCL11B-RD, revealing decreased levels naive CD4+ T cells and recent thymic emigrants while concurrently observing an elevated proportion of effector-memory expressing CD45RA CD8+ T cells (TEMRA). Finally, a distinct DNA methylation episignature exclusive to BCL11B-RD is unveiled. CONCLUSION: This study serves to enrich our comprehension of the clinico-biological landscape of BCL11B-RD, potentially furnishing a more precise framework for diagnosis and follow-up of individuals carrying pathogenic BCL11B variant. Moreover, the identification of a unique DNA methylation episignature offers a valuable diagnosis tool for BCL11B-RD, thereby facilitating routine clinical practice by empowering physicians to reevaluate variants of uncertain significance within the BCL11B gene.


Subject(s)
Intellectual Disability , Neurodevelopmental Disorders , Humans , CD8-Positive T-Lymphocytes/metabolism , Transcription Factors/genetics , Neurodevelopmental Disorders/genetics , Intellectual Disability/genetics , DNA Methylation/genetics , Tumor Suppressor Proteins/genetics , Repressor Proteins/genetics , Repressor Proteins/metabolism
7.
J Neuromuscul Dis ; 11(1): 213-219, 2024.
Article in English | MEDLINE | ID: mdl-38143368

ABSTRACT

Activating Signal Cointegrator 1 complex (ASC-1 complex) is a ribonucleoprotein tetramer participating in transcriptional coactivation and RNA processing, consisting of four subunits: ASCC1-ASCC3 and ASC-1. Pathogenic variants in the TRIP4 and ASCC1 genes, encoding the ASC-1 and ASCC1 subunits, were recently described in congenital myopathic conditions without signs of motor neuron involvement, and Spinal Muscular Atrophy-like (SMA-like) phenotype with prenatal bone fractures. We present a novel pathogenic TRIP4 variant in two siblings with severe phenotype and mixed sensory-motor polyneuropathy. The reviewed phenotypic spectrum is broad, but sensory-motor polyneuropathy is so-far unreported. We thus expand ASC-1 related myopathy phenotype.


Subject(s)
Muscular Atrophy, Spinal , Muscular Diseases , Peripheral Nervous System Diseases , Polyneuropathies , Humans , Muscular Diseases/genetics , Peripheral Nervous System Diseases/genetics , Muscular Atrophy, Spinal/genetics , Phenotype , Transcription Factors/genetics , DNA Helicases/genetics , Carrier Proteins/genetics
8.
Mol Syndromol ; 14(6): 493-497, 2023 Dec.
Article in English | MEDLINE | ID: mdl-38058756

ABSTRACT

Introduction: Synaptotagmin 1 (SYT1), the predominant SYT isoform in the central nervous system, likely acts by promoting vesicle docking, deforming the plasma membrane via Ca2+-dependent membrane penetration. Case Presentation: Here, we describe a 21-year-old woman harboring a novel variant in the SYT1 gene, who presents with a complex phenotype, featuring severe intellectual disability, absent speech, behavioral abnormalities, motor stereotypies, dystonic posturing of her hands, a hyperkinetic movement disorder in her childhood, infantile hypotonia, sialorrhea, mild dysmorphic features, epilepsy, peculiar EEG findings, and severe scoliosis. Discussion: Based on our case and literature review on the 22 previously described patients, we can confirm a complex neurodevelopmental disorder in which, unlike other synaptopathies, epilepsy is present in a subset of cases (including our patient: 5/23, 22%), although characteristic EEG changes are far more common (10/23, 43.5%). Our patient's age allows us to provide long-term follow-up data and thus better delineate the SYT1-related clinical phenotype.

9.
Cerebellum ; 2023 Oct 13.
Article in English | MEDLINE | ID: mdl-37831383

ABSTRACT

Autosomal recessive spinocerebellar ataxia 13 (SCAR13) is a neurological disease characterized by psychomotor delay, mild to profound intellectual disability with poor or absent language, nystagmus, stance ataxia, and, if walking is acquired, gait ataxia. Epilepsy and polyneuropathy have also been documented in some patients. Cerebellar atrophy and/or ventriculomegaly may be present on brain MRI. SCAR13 is caused by pathogenic variants in the GRM1 gene encoding the metabotropic receptor of glutamate type 1 (mGlur1), which is highly expressed in Purkinje cerebellar cells, where it plays a fundamental role in cerebellar development. Here we discuss the case of an 8-year-old patient who presented with a severe neurodevelopmental disorder with balance disturbance, absence of independent walking, absence of language, diffuse hypotonia, mild nystagmus, and mild dysphagia. Whole-exome sequencing revealed a compound heterozygosity for two likely pathogenic variants in the GRM1 gene, responsible for the patient's phenotype, and made it possible to diagnose autosomal recessive spinocerebellar ataxia SCAR13. The detected (novel) variants appear to be causative of a particularly severe picture with regard to neurodevelopment, in the context of the typical neurological signs of spinocerebellar ataxia.

10.
Fetal Pediatr Pathol ; 42(6): 979-989, 2023 Dec.
Article in English | MEDLINE | ID: mdl-37747279

ABSTRACT

Background: SOX2 disorders are associated with anophthalmia-esophageal-genital syndrome or microphthalmia, syndromic 3 (MCOPS3- # 206900). Case Report: We describe a third fetal case with a de novo 3q26.32q26.33 deletion extending for 4.31 Mb, detected in a 15-week fetus. After legal interruption of pregnancy, at autopsy, the fetus presented bilateral microphthalmia, right cleft lip and palate, bilateral cerebral ventriculomegaly and dilated third ventricle, microcystic left lung, and intestinal malrotation. Histologically, the left lung showed congenital pulmonary airway malformation (CPAM) type 2. Retinal dysplasia was found in both eyes. Discussion/Conclusion: The human SOX2 gene (OMIM #184429) is located on chromosome 3 at position q26.3-27 and encodes a transcription factor involved in the development of the central and peripheral nervous systems, retina, and lung. In our case, the combination of cerebral, retinal, and pulmonary anomalies, not previously described, are consistent with SOX2 haploinsufficiency due to chromosomal deletion.


Subject(s)
Cleft Lip , Cleft Palate , Pregnancy , Female , Humans , Cleft Lip/genetics , Cleft Palate/genetics , Chromosome Deletion , Transcription Factors/genetics , Cytogenetic Analysis , Comparative Genomic Hybridization , SOXB1 Transcription Factors/genetics
11.
Genes (Basel) ; 14(9)2023 08 31.
Article in English | MEDLINE | ID: mdl-37761885

ABSTRACT

In 1990, Gorlin et al. described four types of craniofacial duplications: (1) single mouth with duplication of the maxillary arch; (2) supernumerary mouth laterally placed with rudimentary segments; (3) single mouth with replication of the mandibular segments; and (4) true facial duplication, namely diprosopus. We describe a newborn born with wide-spaced eyes, a very broad nose, and two separate mouths. Workup revealed the absence of the corpus callosum and the presence of a brain midline lipoma, wide sutures, and a Chiari I malformation with cerebellar herniation. We conducted a systematic review of the literature and compared all the cases described as diprosopus. In 96% of these, the central nervous system is affected, with anencephaly being the most commonly associated abnormality. Other associated anomalies include cardiac malformations (86%), cleft palate (63%), diaphragmatic hernia (13%), and disorder of sex development (DSD) (13%). Although the facial features are those that first strike the eye, the almost obligate presence of cerebral malformations suggests a disruptive event in the cephalic pole of the forming embryo. No major monogenic contribution has been recognized today for this type of malformation.


Subject(s)
Cleft Palate , Infant, Newborn , Humans , Face , Brain/diagnostic imaging , Central Nervous System
12.
Front Genet ; 14: 1231434, 2023.
Article in English | MEDLINE | ID: mdl-37636262

ABSTRACT

We report a 7-year-old boy born with epidermal nevi (EN) arranged according to Blaschko's lines involving the face and head, right upper limb, chest, and left lower limb, who developed a left paratesticular embryonal rhabdomyosarcoma at 18 months of age. Parallel sequencing identified a gain-of-function variant (c.37G>C, p.Gly13Arg) of HRAS in both epidermal nevus and tumor but not in leukocytes or buccal mucosal epithelial cells, indicating its postzygotic origin. The variant accounted for 33% and 92% of the total reads in the nevus and tumor DNA specimens, respectively, supporting additional somatic hits in the latter. DNA methylation (DNAm) profiling of the tumor documented a signature consistent with embryonal rhabdomyosarcoma and CNV array analysis inferred from the DNAm arrays and subsequent MLPA analysis demonstrated copy number gains of the entire paternal chromosome 11 carrying the mutated HRAS allele, likely as the result of paternal unidisomy followed by subsequent gain(s) of the paternal chromosome in the tumor. Other structural rearrangements were observed in the tumours, while no additional pathogenic variants affecting genes with role in the RAS-MAPK and PI3K-AKT-MTOR pathways were identified. Our findings provide further evidence of the contribution of "gene dosage" to the multistep process driving cell transformation associated with hyperactive HRAS function.

13.
J Med Genet ; 60(12): 1224-1234, 2023 Nov 27.
Article in English | MEDLINE | ID: mdl-37586838

ABSTRACT

BACKGROUND: KBG syndrome is caused by haploinsufficiency of ANKRD11 and is characterised by macrodontia of upper central incisors, distinctive facial features, short stature, skeletal anomalies, developmental delay, brain malformations and seizures. The central nervous system (CNS) and skeletal features remain poorly defined. METHODS: CNS and/or skeletal imaging were collected from molecularly confirmed individuals with KBG syndrome through an international network. We evaluated the original imaging and compared our results with data in the literature. RESULTS: We identified 53 individuals, 44 with CNS and 40 with skeletal imaging. Common CNS findings included incomplete hippocampal inversion and posterior fossa malformations; these were significantly more common than previously reported (63.4% and 65.9% vs 1.1% and 24.7%, respectively). Additional features included patulous internal auditory canal, never described before in KBG syndrome, and the recurrence of ventriculomegaly, encephalic cysts, empty sella and low-lying conus medullaris. We found no correlation between these structural anomalies and epilepsy or intellectual disability. Prevalent skeletal findings comprised abnormalities of the spine including scoliosis, coccygeal anomalies and cervical ribs. Hand X-rays revealed frequent abnormalities of carpal bone morphology and maturation, including a greater delay in ossification compared with metacarpal/phalanx bones. CONCLUSION: This cohort enabled us to describe the prevalence of very heterogeneous neuroradiological and skeletal anomalies in KBG syndrome. Knowledge of the spectrum of such anomalies will aid diagnostic accuracy, improve patient care and provide a reference for future research on the effects of ANKRD11 variants in skeletal and brain development.


Subject(s)
Abnormalities, Multiple , Bone Diseases, Developmental , Intellectual Disability , Tooth Abnormalities , Humans , Intellectual Disability/diagnosis , Intellectual Disability/genetics , Abnormalities, Multiple/diagnosis , Abnormalities, Multiple/genetics , Bone Diseases, Developmental/diagnostic imaging , Bone Diseases, Developmental/genetics , Tooth Abnormalities/diagnostic imaging , Tooth Abnormalities/genetics , Facies , Phenotype , Repressor Proteins/genetics , Transcription Factors , Neuroimaging
14.
Genes (Basel) ; 14(8)2023 07 26.
Article in English | MEDLINE | ID: mdl-37628577

ABSTRACT

Split Hand-Foot Malformation (SHFM) is a congenital limb defect characterized by a median cleft of the hands and/or feet due to the absence/hypoplasia of the central rays. It may occur as part of a syndromic condition or as an isolated malformation. The most common of the six genetic loci identified for this condition is correlated to SHFM1 and maps in the 7q21q22 region. SHFM1 is characterized by autosomal dominant transmission, incomplete penetrance and variable expressivity. Associated features often include hearing loss, intellectual disability/developmental delay and craniofacial abnormalities. Disruption of the DLX5/DLX6 genes, mapping within the SHFM1 locus, is now known to be responsible for the phenotype. Through SNP array, we analyzed a patient affected by SHFM1 associated with deafness and an abnormality of the inner ear (incomplete partition type I); we identified a deletion in 7q21, not involving the DLX5/6 genes, but including exons 15 and 17 of DYNC1I1, known to act as exonic enhancers (eExons) of the DLX5/6 genes. We further demonstrated the role of DYNC1I1 eExons in regulating DLX5/6 expression by means of showing a reduced expression of the DLX5/6 genes through RT-PCR in a patient-derived lymphoblastoid cell line. Furthermore, our data and a review of published cases do not support the hypothesis that DLX5/6 are imprinted in humans. This work is an example of how the disruption of regulatory elements can be responsible for congenital malformations.


Subject(s)
Deafness , Limb Deformities, Congenital , Humans , Genes, Homeobox , Lower Extremity , Limb Deformities, Congenital/genetics , Deafness/genetics , Transcription Factors/genetics , Homeodomain Proteins/genetics
15.
Front Neurol ; 14: 1207176, 2023.
Article in English | MEDLINE | ID: mdl-37521304

ABSTRACT

Objective: We aimed to report on previously unappreciated clinical features associated with FOXP1-related intellectual disability (ID) syndrome, a rare neurodevelopmental disorder characterized by global developmental delay, intellectual disability, and language delay, with or without autistic features. Methods: We performed whole-exome sequencing (WES) to molecularly characterize an individual presenting with ID, epilepsy, autism spectrum disorder, behavioral problems, and facial dysmorphisms as major features. Results: WES allowed us to identify a previously unreported de novo splice site variant, c.1429-1G>T (NM_032682.6), in the FOXP1 gene (OMIM*605515) as the causative event underlying the phenotype. Clinical reassessment of the patient and revision of the literature allowed us to refine the phenotype associated with FOXP1 haploinsufficiency, including hyperkinetic movement disorder and flat angiomas as associated features. Interestingly, the patient also has an asymmetric face and choanal atresia and a novel de novo variant of the CHD7 gene. Conclusion: We suggest that FOXP1-related ID syndrome may also predispose to the development of hyperkinetic movement disorders and flat angiomas. These features could therefore require specific management of this condition.

16.
Brain Dev ; 45(8): 445-450, 2023 Sep.
Article in English | MEDLINE | ID: mdl-37271660

ABSTRACT

INTRODUCTION: Raynaud-Claes syndrome is a very rare X-linked condition, characterized by intellectual disability, impaired language development, brain abnormalities, facial dysmorphisms and drug-resistant epilepsy. It is caused by loss-of-function variants in the CLCN4 gene, which encodes the 2Cl-/H + exchanger ClC-4, prominently expressed in the hippocampus and cerebellum. Different genotypic variants have been described, each exhibiting specific phenotypic characteristics. The loss-of-function variant p.Gly544Arg in the CLCN4 gene has been described in only two male probands, but there are no reports on phenotypic characterization in females. CASE PRESENTATION: We present a 30-year-old Italian woman with early-onset drug-resistant epilepsy, developmental and epileptic encephalopathy, developmental delay, absence of verbal language development, behavioral impairment with autistic features, and clusters of seizures during catamenial periods. The interictal EEG showed slight inconstant slowing of the background rhythm, with abnormal frontal predominant mu like rhythm and generalized spike and polyspike wave discharges, which increased in frequency during drowsiness. A brain MRI showed slight cranio-encephalic asymmetry and a smaller size of the left hippocampus. The whole exome sequencing (WES) revealed a de novo heterozygous c.1630G > A variant in the CLCN4 gene, resulting in the amino acid substitution p.Gly544Arg (rs587777161), consistent with Raynaud-Claes syndrome. DISCUSSION AND CONCLUSION: Our patient is the first case of a de novo p.Gly544Arg variant of the CLCN4 gene in a female proband, confirming that female patients with Raynaud-Claes syndrome can be as severely affected as the male counterparts. Our case expands the phenotypic characterization of different genotypic CLCN4 variants, which can become crucial in the future for early diagnosis if targeted therapy becomes available.


Subject(s)
Chloride Channels , Epilepsy, Generalized , Humans , Female , Adult , Epilepsy, Generalized/genetics , Mutation, Missense , Chloride Channels/genetics , Developmental Disabilities/genetics , Amino Acid Substitution
17.
Am J Hum Genet ; 110(6): 963-978, 2023 06 01.
Article in English | MEDLINE | ID: mdl-37196654

ABSTRACT

De novo variants are a leading cause of neurodevelopmental disorders (NDDs), but because every monogenic NDD is different and usually extremely rare, it remains a major challenge to understand the complete phenotype and genotype spectrum of any morbid gene. According to OMIM, heterozygous variants in KDM6B cause "neurodevelopmental disorder with coarse facies and mild distal skeletal abnormalities." Here, by examining the molecular and clinical spectrum of 85 reported individuals with mostly de novo (likely) pathogenic KDM6B variants, we demonstrate that this description is inaccurate and potentially misleading. Cognitive deficits are seen consistently in all individuals, but the overall phenotype is highly variable. Notably, coarse facies and distal skeletal anomalies, as defined by OMIM, are rare in this expanded cohort while other features are unexpectedly common (e.g., hypotonia, psychosis, etc.). Using 3D protein structure analysis and an innovative dual Drosophila gain-of-function assay, we demonstrated a disruptive effect of 11 missense/in-frame indels located in or near the enzymatic JmJC or Zn-containing domain of KDM6B. Consistent with the role of KDM6B in human cognition, we demonstrated a role for the Drosophila KDM6B ortholog in memory and behavior. Taken together, we accurately define the broad clinical spectrum of the KDM6B-related NDD, introduce an innovative functional testing paradigm for the assessment of KDM6B variants, and demonstrate a conserved role for KDM6B in cognition and behavior. Our study demonstrates the critical importance of international collaboration, sharing of clinical data, and rigorous functional analysis of genetic variants to ensure correct disease diagnosis for rare disorders.


Subject(s)
Intellectual Disability , Neurodevelopmental Disorders , Humans , Animals , Facies , Neurodevelopmental Disorders/genetics , Neurodevelopmental Disorders/pathology , Phenotype , Drosophila , Intellectual Disability/pathology , Jumonji Domain-Containing Histone Demethylases/genetics
18.
Clin Genet ; 104(2): 230-237, 2023 08.
Article in English | MEDLINE | ID: mdl-37038048

ABSTRACT

Spondylocostal dysostosis (SCD), a condition characterized by multiple segmentation defects of the vertebrae and rib malformations, is caused by bi-allelic variants in one of the genes involved in the Notch signaling pathway that tunes the "segmentation clock" of somitogenesis: DLL3, HES7, LFNG, MESP2, RIPPLY2, and TBX6. To date, seven individuals with LFNG variants have been reported in the literature. In this study we describe two newborns and one fetus with SCD, who were found by trio-based exome sequencing (trio-ES) to carry homozygous (c.822-5C>T) or compound heterozygous (c.[863dup];[1063G>A]) and (c.[521G>T];[890T>G]) variants in LFNG. Notably, the c.822-5C>T change, affecting the polypyrimidine tract of intron 5, is the first non-coding variant reported in LFNG. This study further refines the clinical and molecular features of spondylocostal dysostosis 3 and adds to the numerous investigations supporting the usefulness of trio-ES approach in prenatal and neonatal settings.


Subject(s)
Abnormalities, Multiple , Hernia, Diaphragmatic , Humans , Infant, Newborn , Spine/abnormalities , Abnormalities, Multiple/genetics , Hernia, Diaphragmatic/genetics , Alleles , T-Box Domain Proteins/genetics , Membrane Proteins/genetics , Intracellular Signaling Peptides and Proteins/genetics
19.
Genes (Basel) ; 14(3)2023 02 22.
Article in English | MEDLINE | ID: mdl-36980822

ABSTRACT

Pathogenic variants in RASA1 are typically associated with a clinical condition called "capillary malformation-arteriovenous malformation" (CM-AVM) syndrome, an autosomal dominant genetic disease characterized by a broad phenotypic variability, even within families. In CM-AVM syndrome, multifocal capillary and arteriovenous malformations are mainly localized in the central nervous system, spine and skin. Although CM-AVM syndrome has been widely described in the literature, only 21 cases with prenatal onset of clinical features have been reported thus far. Here, we report four pediatric cases of molecularly confirmed CM-AVM syndrome which manifested during the prenatal period. Polyhydramnios, non-immune hydrops fetalis and chylothorax are only a few possible aspects of this condition, but a correct interpretation of these prenatal signs is essential due to the possible fatal consequences of unrecognized encephalic and thoracoabdominal deep vascular malformations in newborns and in family members carrying the same RASA1 variant.


Subject(s)
Arteriovenous Malformations , Port-Wine Stain , Female , Humans , Infant, Newborn , Child , Pregnancy , Mutation , p120 GTPase Activating Protein/genetics , Port-Wine Stain/genetics , Port-Wine Stain/diagnosis , Port-Wine Stain/pathology , Arteriovenous Malformations/diagnostic imaging , Arteriovenous Malformations/genetics , GTPase-Activating Proteins/genetics
20.
Ann Clin Transl Neurol ; 9(8): 1276-1288, 2022 08.
Article in English | MEDLINE | ID: mdl-35871307

ABSTRACT

OBJECTIVE: This study delineates the clinical and molecular spectrum of ANKLE2-related microcephaly (MIC), as well as highlights shared pathological mechanisms between ANKLE2 and the Zika virus. METHODS: We identified 12 individuals with MIC and variants in ANKLE2 with a broad range of features. Probands underwent thorough phenotypic evaluations, developmental assessments, and anthropometric measurements. Brain imaging studies were systematically reviewed for developmental abnormalities. We functionally interrogated a subset of identified ANKLE2 variants in Drosophila melanogaster. RESULTS: All individuals had MIC (z-score ≤ -3), including nine with congenital MIC. We identified a broad range of brain abnormalities including simplified cortical gyral pattern, full or partial callosal agenesis, increased extra-axial spaces, hypomyelination, cerebellar vermis hypoplasia, and enlarged cisterna magna. All probands had developmental delays in at least one domain, with speech and language delays being the most common. Six probands had skin findings characteristic of ANKLE2 including hyper- and hypopigmented macules. Only one individual had scalp rugae. Functional characterization in Drosophila recapitulated the human MIC phenotype. Of the four variants tested, p.Val229Gly, p.Arg236*, and p.Arg536Cys acted as partial-loss-of-function variants, whereas the c.1421-1G>C splicing variant demonstrated a strong loss-of-function effect. INTERPRETATION: Deleterious variants in the ANKLE2 gene cause a unique MIC syndrome characterized by congenital or postnatal MIC, a broad range of structural brain abnormalities, and skin pigmentary changes. Thorough functional characterization has identified shared pathogenic mechanisms between ANKLE2-related MIC and congenital Zika virus infection. This study further highlights the importance of a thorough diagnostic evaluation including molecular diagnostic testing in individuals with MIC.


Subject(s)
Microcephaly , Nervous System Malformations , Zika Virus Infection , Zika Virus , Animals , Drosophila melanogaster , Humans , Microcephaly/genetics , Syndrome , Zika Virus/genetics , Zika Virus Infection/congenital , Zika Virus Infection/diagnosis
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