[Genetic and clinical analysis of two children with microcephaly and mental retardation due to a frameshifting variant of CASK gene].

OBJECTIVE: To explore the clinical and genetic characteristics of two children with mental retardation and microcephaly. METHODS: Two children who had visited the Anhui Children's Hospital respectively on March 12 and June 22, 2021 were selected as the study subjects. Peripheral venous blood samples were collected from them and their parents, and subjected to chromosomal karyotyping and whole exome sequencing analyses. Candidate variants were verified by Sanger sequencing and pathogenicity analysis. RESULTS: Chromosomal karyotyping and copy number detection of the two children had found no abnormality. Whole exome sequencing revealed that child 1 has harbored a c.471delT (p.Pro157Profs*9) frameshifting variant of the CASK gene, whilst child 2 has harbored a c.1259_1269delCTGAGAATAAC (p.Pro420fs*27) frameshifting variant of the CASK gene. Sanger sequencing confirmed that both variants were de novo in origin. Based on the guidelines from the American College of Medical Genetics and Genomics (ACMG) and the Association for Molecular Pathology (AMP), both variants were rated as pathogenic (PVS1+PS2+PP3). CONCLUSION: The de novo variants of the CASK gene probably underlay the pathogenesis of mental retardation and microcephaly in both children.

[Genetic analysis of a child with Dias-Logan syndrome due to variant of BCL11A gene].

OBJECTIVE: To analyze the clinical and genetic characteristics of a child featuring Dias-Logan syndrome. METHODS: A child with speech disorders and delayed psychomotor development from childhood who was admitted to the Rehabilitation Medicine Department of Children's Hospital Affiliated to Zhengzhou University in July 2022 was selected as the research subject. Clinical data of the child was collected. Genomic DNA was extracted from peripheral blood samples of the child and his parents. Potential variant was screened by whole exome sequencing, and candidate variant was verified by Sanger sequencing. RESULTS: The child has presented with global developmental delay, microcephaly, special facial features and behavioral problems. Genetic testing revealed a de novo variant of the BCL11A gene, namely c.561_567delACACGCA (p.Q187fs*7), which was classified as pathogenic (PVS1+PS2+PM2_Supporting). CONCLUSION: The heterozygous variant of BCL11A gene probably underlay the Dias-Logan syndrome in this child. Above finding has enriched the phenotypic and mutational spectrum of the BCL11A gene and provides a basis for genetic counseling and clinical decision-making.

Chromosome 16p11.2 microdeletion syndrome with microcephaly and Dandy-Walker malformation spectrum: expanding the known phenotype.

BACKGROUND: Chromosome 16p11.2 deletions and duplications were found to be the second most common copy number variation (CNV) reported in cases with clinical presentation suggestive of chromosomal syndromes. Chromosome 16p11.2 deletion syndrome shows remarkable phenotypic heterogeneity with a wide variability of presentation extending from normal development and cognition to severe phenotypes. The clinical spectrum ranges from neurocognitive and global developmental delay (GDD), intellectual disability, and language defects (dysarthria /apraxia) to neuropsychiatric and autism spectrum disorders. Other presentations include dysmorphic features, congenital malformations, insulin resistance, and a tendency for obesity. Our study aims to narrow the gap of knowledge in Saudi Arabia and the Middle Eastern and Northern African (MENA) region about genetic disorders, particularly CNV-associated disorders. Despite their rarity, genetic studies in the MENA region revealed high potential with remarkable genetic and phenotypic novelty. RESULTS: We identified a heterozygous de novo recurrent proximal chromosome 16p11.2 microdeletion by microarray (arr[GRCh38]16p11.2(29555974_30166595)x1) [(arr[GRCh37]16p11.2(29567295_30177916)x1)] and confirmed by whole exome sequencing (arr[GRCh37]16p11.2(29635211_30199850)x1). We report a Saudi girl with severe motor and cognitive disability, myoclonic epilepsy, deafness, and visual impairment carrying the above-described deletion. Our study broadens the known phenotypic spectrum associated with recurrent proximal 16p11.2 microdeletion syndrome to include developmental dysplasia of the hip, optic atrophy, and a flat retina. Notably, the patient exhibited a rare combination of microcephaly, features consistent with the Dandy-Walker spectrum, and a thin corpus callosum (TCC), which are extremely infrequent presentations in patients with the 16p11.2 microdeletion. Additionally, the patient displayed areas of skin and hair hypopigmentation, attributed to a homozygous hypomorphic allele in the TYR gene. CONCLUSION: This report expands on the clinical phenotype associated with proximal 16p11.2 microdeletion syndrome, highlighting the potential of genetic research in Saudi Arabia and the MENA region. It underscores the importance of similar future studies.

Are important predictors of adverse outcome in children with symptomatic congenital cytomegalovirus infection overlooked in clinical settings?

OBJECTIVE: Congenital cytomegalovirus infection (cCMV) is a common, frequently unrecognized cause of childhood disability. The aim of the present study was to determine the symptoms that raise the suspicion of cCMV, define the neurodevelopmental outcomes, and assess their correlations. METHODS: This longitudinal observational study comprised 78 children with symptomatic cCMV who underwent neuropediatric follow-up for 4 to 17.9 years. RESULTS: Symptoms of central nervous system involvement, hearing/visual impairments, and hepatic involvement were mostly recognized. The average age of disease suspicion was 3.3 months. In terms of outcomes, 10.53% of the children developed complex minor neurological dysfunction and 23.68% developed cerebral palsy. Visual and hearing impairments occurred in 38.16% and 14.47% of patients, respectively. Intellectual disability was present in 30.26% of patients, and epilepsy in 21.05%. Microcephaly and hearing impairment was significantly associated with overall neurodevelopmental outcome. Microcephaly was also associated with poor motor outcomes, hearing impairment, and severe visual impairment. Furthermore, microcephaly and intrauterine growth restriction were significantly associated with poor cognitive outcomes. CONCLUSION: Symptoms that raised the suspicion of cCMV-especially microcephaly, hearing impairment, and intrauterine growth restriction-were important parameters that were associated with outcomes; however, their recognition was often insufficient and/or late.

RING1 missense variants reveal sensitivity of DNA damage repair to H2A monoubiquitination dosage during neurogenesis.

Polycomb repressive complex 1 (PRC1) modifies chromatin through catalysis of histone H2A lysine 119 monoubiquitination (H2AK119ub1). RING1 and RNF2 interchangeably serve as the catalytic subunit within PRC1. Pathogenic missense variants in PRC1 core components reveal functions of these proteins that are obscured in knockout models. While Ring1a knockout models remain healthy, the microcephaly and neuropsychiatric phenotypes associated with a pathogenic RING1 missense variant implicate unappreciated functions. Using an in vitro model of neurodevelopment, we observe that RING1 contributes to the broad placement of H2AK119ub1, and that its targets overlap with those of RNF2. PRC1 complexes harboring hypomorphic RING1 bind target loci but do not catalyze H2AK119ub1, reducing H2AK119ub1 by preventing catalytically active complexes from accessing the locus. This results in delayed DNA damage repair and cell cycle progression in neural progenitor cells (NPCs). Conversely, reduced H2AK119ub1 due to hypomorphic RING1 does not generate differential expression that impacts NPC differentiation. In contrast, hypomorphic RNF2 generates a greater reduction in H2AK119ub1 that results in both delayed DNA repair and widespread transcriptional changes. These findings suggest that the DNA damage response is more sensitive to H2AK119ub1 dosage change than is regulation of gene expression.

Cilia defects upon loss of WDR4 are linked to proteasomal hyperactivity and ubiquitin shortage.

The WD repeat-containing protein 4 (WDR4) has repeatedly been associated with primary microcephaly, a condition of impaired brain and skull growth. Often, faulty centrosomes cause microcephaly, yet aberrant cilia may also be involved. Here, we show using a combination of approaches in human fibroblasts, zebrafish embryos and patient-derived cells that WDR4 facilitates cilium formation. Molecularly, we associated WDR4 loss-of-function with increased protein synthesis and concomitant upregulation of proteasomal activity, while ubiquitin precursor pools are reduced. Inhibition of proteasomal activity as well as supplementation with free ubiquitin restored normal ciliogenesis. Proteasome inhibition ameliorated microcephaly phenotypes. Thus, we propose that WDR4 loss-of-function impairs head growth and neurogenesis via aberrant cilia formation, initially caused by disturbed protein and ubiquitin homeostasis.

Dual diagnosis of achondroplasia and mandibulofacial dysostosis with microcephaly.

BACKGROUND: Achondroplasia and mandibulofacial dysostosis with microcephaly (MFDM) are rare monogenic, dominant disorders, caused by gain-of-function fibroblast growth factor receptor 3 (FGFR3) gene variants and loss-of-function elongation factor Tu GTP binding domain-containing 2 (EFTUD2) gene variants, respectively. The coexistence of two distinct Mendelian disorders in a single individual is uncommon and challenges the traditional paradigm of a single genetic disorder explaining a patient's symptoms, opening new avenues for diagnosis and management. CASE PRESENTATION: We present a case of a female patient initially diagnosed with achondroplasia due to a maternally inherited pathogenic FGFR3 variant. She was referred to our genetic department due to her unusually small head circumference and short stature, which were both significantly below the expected range for achondroplasia. Additional features included distinctive facial characteristics, significant speech delay, conductive hearing loss, and epilepsy. Given the complexity of her phenotype, she was recruited to the DDD (Deciphering Developmental Disorders) study and the 100,000 Genomes project for further investigation. Subsequent identification of a complex EFTUD2 intragenic rearrangement confirmed an additional diagnosis of mandibulofacial dysostosis with microcephaly (MFDM). CONCLUSION: This report presents the first case of a dual molecular diagnosis of achondroplasia and mandibulofacial dysostosis with microcephaly in the same patient. This case underscores the complexity of genetic diagnoses and the potential for coexistence of multiple genetic syndromes in a single patient. This case expands our understanding of the molecular basis of dual Mendelian disorders and highlights the importance of considering the possibility of dual molecular diagnoses in patients with phenotypic features that are not fully accounted for by their primary diagnosis.

Microcephaly with or without chorioretinopathy, lymphedema, or mental retardation (MCLMR)- the new lacunae: a case report.

BACKGROUND: Microcephaly with or without chorioretinopathy, lymphedema, or mental retardation is a rare autosomal dominant disease caused by mutations in KIF11 which disrupt EG5 protein function, impacting the development and maintenance of retinal and lymphatic structures due to its expression in the retinal photoreceptor cilia. The primary ocular finding in MCLMR is chorioretinopathy. Additional features can include microphthalmia, angle-closure glaucoma, persistent hyperplastic primary vitreous, cataract, pseudo-coloboma, persistent hyaloid artery, and myopic or hypermetropic astigmatism. The appearance of the chorioretinal lesions as white to pinkish, round, non-elevated atrophic areas devoid of blood vessels resembles the lacunae in Aicardy syndrome. Due to the lack of systematic description of the lesions and significant phenotypical variability, there is an impending need for a detailed report of each case. CASE PRESENTATION: A child with microcephaly detected in the third trimester of gestation began her following in the ophthalmology department due to a non-visually significant cataract. Shortly after, she developed nystagmus and large-angle alternating esotropia with cross-fixation. Her fundus initially showed a pallid optic disc and pigmentary changes, developing thereafter retinal lacunae and a retinal fold. Her differential diagnosis accompanied the dynamic changes in her fundus, which included congenital infections, Leber´s Congenital Amaurosis and Aicardy syndrome. At 19 months old, genetic testing identified a heterozygous mutation (c.1159 C > T, p.Arg387*) in the KIF11 gene. The patient underwent bilateral medial rectus muscle recession surgery at 2 years old for persistent esotropia, with significant improvement. Refraction revealed a hyperopic astigmatism in both eyes (+ 0.25 -2.50 × 180 OD and + 0.75 -2.00 × 170 OS). She continues to require right eye patching for 2 hours daily. CONCLUSIONS: This case report expands the phenotypic spectrum of MCLMR by demonstrating a unique combination of retinal features which sheds new light on differential diagnosis from Aicardy syndrome. Our findings emphasize the significant phenotypic variability associated with MCLMR, particularly regarding ocular involvement. This underscores the importance of detailed clinical evaluation and comprehensive reporting of cases to improve our understanding of the disease spectrum and genotype-phenotype correlations.

IER3IP1-mutations cause microcephaly by selective inhibition of ER-Golgi transport.

Mutations in the IER3IP1 (Immediate Early Response-3 Interacting Protein 1) gene can give rise to MEDS1 (Microcephaly with Simplified Gyral Pattern, Epilepsy, and Permanent Neonatal Diabetes Syndrome-1), a severe condition leading to early childhood mortality. The small endoplasmic reticulum (ER)-membrane protein IER3IP1 plays a non-essential role in ER-Golgi transport. Here, we employed secretome and cell-surface proteomics to demonstrate that the absence of IER3IP1 results in the mistrafficking of proteins crucial for neuronal development and survival, including FGFR3, UNC5B and SEMA4D. This phenomenon correlates with the distension of ER membranes and increased lysosomal activity. Notably, the trafficking of cargo receptor ERGIC53 and KDEL-receptor 2 are compromised, with the latter leading to the anomalous secretion of ER-localized chaperones. Our investigation extended to in-utero knock-down of Ier3ip1 in mouse embryo brains, revealing a morphological phenotype in newborn neurons. In summary, our findings provide insights into how the loss or mutation of a 10 kDa small ER-membrane protein can cause a fatal syndrome.

Integrative analysis of molecular pathways and morphological anomalies associated with congenital Zika syndrome.

Congenital Zika syndrome (CZS) comprises a set of clinical manifestations that can be presented by neonates born to mothers infected by the Zika virus (ZIKV). CZS-associated phenotypes include neurological, skeletal, and systemic alterations and long-term developmental sequelae. One of the most frequently reported clinical conditions is microcephaly characterized by a reduction in head circumference and cognitive complications. Nevertheless, the associations among the diverse signaling pathways underlying CZS phenotypes remain to be elucidated. To shed light on CZS, we have extensively reviewed the morphological anomalies resulting from ZIKV infection, as well as genes and proteins of interest obtained from the published literature. With this list of genes or proteins, we performed computational analyses to explore the cellular processes, molecular mechanisms, and molecular pathways related to ZIKV infection. Therefore, in this review, we comprehensively describe the morphological abnormalities caused by congenital ZIKV infection and, through the analysis noted above, propose common molecular pathways altered by ZIKV that could explain both central nervous system and craniofacial skeletal alterations.

HiPSC-derived 3D neural models reveal neurodevelopmental pathomechanisms of the Cockayne Syndrome B.

Cockayne Syndrome B (CSB) is a hereditary multiorgan syndrome which-through largely unknown mechanisms-can affect the brain where it clinically presents with microcephaly, intellectual disability and demyelination. Using human induced pluripotent stem cell (hiPSC)-derived neural 3D models generated from CSB patient-derived and isogenic control lines, we here provide explanations for these three major neuropathological phenotypes. In our models, CSB deficiency is associated with (i) impaired cellular migration due to defective autophagy as an explanation for clinical microcephaly; (ii) altered neuronal network functionality and neurotransmitter GABA levels, which is suggestive of a disturbed GABA switch that likely impairs brain circuit formation and ultimately causes intellectual disability; and (iii) impaired oligodendrocyte maturation as a possible cause of the demyelination observed in children with CSB. Of note, the impaired migration and oligodendrocyte maturation could both be partially rescued by pharmacological HDAC inhibition.

[20q11.2 microdeletion syndrome: a phenotypic spectrum expansion. Case report]. / Síndrome de microdeleción 20q11.2: ampliación del espectro fenotípico. Reporte de un caso.

Background: 20q11.2 microdeletion syndrome [ORPHA: 444051] is a rare disease, since 16 patients have been reported in literature worldwide. Prevalence ratio is < 1:1,000,000 individuals. Haploinsufficiency on GDF5, SAMHD1 and EPB41L1 genes is important due to phenotypic manifestations in patients. Clinical features can be grouped into craniofacial abnormalities, limb abnormalities, neurological and perinatal disorders. The aim of this report is to present a clinical case of 20q11.21-q11.23 microdeletion, to describe clinical manifestations found, to compare them with features reported in literature, and to contribute to the phenotypic spectrum expansion. Clinical case: 5-year-old female patient who presented hypotonia, psychomotor retardation, microcephaly, facial dysmorphia, pectus excavatum, thoracolumbar scoliosis, right hip subluxation, camptodactyly and clinodactyly. Karyotype test was normal and SNP microarray test reported deletion of chromosomal region 20q11.21-q11.23. Conclusions: It was presented a 20q11.2 microdeletion syndrome confirmed case that shares the features reported in literature, in addition to previously unreported features, such as blepharoptosis, pectus excavatum, scoliosis and hip dysplasia. Interdisciplinary management is important to improve the patient's condition (in her 3 spheres), in order to achieve her best possible health status.

Introducción: el síndrome de microdeleción 20q11.2 [ORPHA: 444051] es una enfermedad rara, pues se han reportado 16 casos a nivel mundial. Su prevalencia se estima en < 1:1,000,000 de nacidos vivos. Induce haploinsuficiencia en los genes GDF5, SAMHD1 y EPB41L1, los cuales son de importancia clínica por las manifestaciones fenotípicas. Se caracteriza por anomalías craneofaciales, anomalías de extremidades, alteraciones neurológicas y perinatales. El objetivo de este reporte es presentar un caso de microdeleción 20q11.21-q11.23, describir las manifestaciones clínicas encontradas, compararlo con lo reportado en la literatura y colaborar en la ampliación del espectro fenotípico. Caso clínico: paciente del sexo femenino de 5 años que presentó hipotonía, retraso psicomotor, microcefalia, dismorfias faciales, pectus excavatum, escoliosis toracolumbar, subluxación de cadera derecha, camptodactilia y clinodactilia. La prueba de cariotipo se reportó sin alteraciones y el ensayo de microarreglo de polimorfismos de un nucleótido (SNP) reportó deleción de la región cromosómica 20q11.21-q11.23. Conclusiones: se presentó un caso confirmado de síndrome de microdeleción 20q11.2 que comparte las características reportadas en la literatura, además de características no reportadas previamente, como ptosis palpebral, pectus excavatum, escoliosis y displasia del desarrollo de cadera. Es importante el manejo interdisciplinario para buscar mejoría en la condición de la paciente (en sus 3 esferas), a fin de alcanzar el mejor estado de salud posible.

Glass syndrome derived from chromosomal breakage downstream region of SATB2.

BACKGROUND: Glass syndrome, derived from chromosomal 2q33.1 microdeletions, manifests with intellectual disability, microcephaly, epilepsy, and distinctive features, including micrognathia, down-slanting palpebral fissures, cleft palate, and crowded teeth. Recently, SATB2 located within the deletion region, was identified as the causative gene responsible for Glass syndrome. Numerous disease-causing variants within the SATB2 coding region have been reported. OBJECTIVE: Given the presentation of intellectual disability and multiple congenital anomalies in a patient with a de novo reciprocal translocation between chromosomes 1 and 2, disruption of the causative gene(s) was suspected. This study sought to identify the causative gene in the patient. METHODS: Long-read whole-genome sequencing was performed, and the expression level of the candidate gene was analyzed. RESULTS: The detection of breakpoints was successful. While the breakpoint on chromosome 1 disrupted RNF220, it was not deemed to be a genetic cause. Conversely, SATB2 is located in the approximately 100-kb telomeric region of the breakpoint on chromosome 2. The patient's clinical features resembled those of previously reported cases of Glass syndrome, despite the lack of confirmed reduced SATB2 expression. CONCLUSION: The patient was diagnosed with Glass syndrome due to the similarity in clinical features. This led us to hypothesize that disruption in the downstream region of SATB2 could result in Glass syndrome. The microhomologies identified in the breakpoint junctions indicate a potential molecular mechanism involving microhomology-mediated break-induced repair mechanism or template switching.

Mowat-Wilson syndrome: Case report.

BACKGROUND: Mowat-Wilson syndrome (MWS) is a rare genetic condition resulting in multiple congenital anomalies, including facial dysmorphism, structural anomalies of the internal organs, functional disorders, and, although less commonly, ocular abnormalities. To present a child with MWS and eye abnormalities. METHODS: A 3-year-old boy was born at 37 weeks of pregnancy with dysmorphic features, neurodevelopmental disorders, genetically confirmed MWS, nystagmus, strabismus, and suspicion of congenital glaucoma. Ophthalmic examination was carried out under general anesthesia; eyeball ultrasound and electrophysiological examination (flash visual evoked potentials) were also performed. RESULTS: The examinations revealed nystagmus, a normal response of pupils to light in both eyes, and normal intraocular pressure, that is, 17 and 18 mm Hg in the right and left eye, respectively. Corneal thickness was 606 µm in the right eye and 588 µm in the left eye. Gonioscopy revealed displacement of Schwalbe line anterior to the limbus of the cornea (posterior embryotoxon). Fundus examination revealed a pink optic disk with a cup-to-disc ratio of 0.5, macular pigment regrouping, and normal blood vessels. Flash visual evoked potentials: P2 latency was normal. P2 amplitude from the left hemisphere was reduced to 50%, and P2 amplitude over the right hemisphere was normal. CONCLUSION: Children with genetically determined congenital anomalies need regular ophthalmic checkups to accurately assess the eye and determine the prospects of vision function development.

Serious Concern of Congenital Zika Syndrome (CZS) in India: A Narrative Review.

Congenital Zika syndrome (CZS) is a major concern in India and highlights the multifaceted challenges posed by the Zika virus (ZIKV). The alarming increase in CZS cases in India, a condition that has serious effects on both public health and newborns, has raised concerns. This review highlights the importance of raising concern and awareness and taking preventive measures by studying the epidemiology, clinical symptoms, and potential long-term consequences of CZS. The review also contributes to worldwide research and information sharing to improve the understanding and prevention of CZS. As India deals with the changing nature of CZS, this thorough review is an important tool for policymakers, health workers, and researchers to understand what is happening now, plan for what to do in the future, and work together as a team, using medical knowledge, community involvement, and study projects to protect newborns' health and reduce the public health impact of these syndromes.

Little-known virus surging in Latin America may harm fetuses.

Oropouche virus could be linked to brain malformation and stillbirths, Brazilian health officials say.

Clinical spectrum of congenital Zika virus infection in Brazil: Update and issues for research development.

This review aimed to provide an update on the morphological and/or functional abnormalities related to congenital Zika virus (ZIKV) infection, based on primary data from studies conducted in Brazil since 2015. During the epidemic years (2015-2016), case series and pediatric cohort studies described several birth defects, including severe and/or disproportionate microcephaly, cranial bone overlap, skull collapse, congenital contractures (arthrogryposis and/or clubfoot), and visual and hearing abnormalities, as part of the spectrum of Congenital Zika Syndrome (CZS). Brain imaging abnormalities, mainly cortical atrophy, ventriculomegaly, and calcifications, serve as structural markers of CZS severity. Most case series and cohorts of microcephaly have reported the co-occurrence of epilepsy, dysphagia, orthopedic deformities, motor function impairment, cerebral palsy, and urological impairment. A previous large meta-analysis conducted in Brazil revealed that a confirmed ZIKV infection during pregnancy was associated with a 4% risk of microcephaly. Additionally, one-third of children showed at least one abnormality, predominantly identified in isolation. Studies examining antenatally ZIKV-exposed children without detectable abnormalities at birth reported conflicting neurodevelopmental results. Therefore, long-term follow-up studies involving pediatric cohorts with appropriate control groups are needed to address this knowledge gap. We recognize the crucial role of a national network of scientists collaborating with international research institutions in understanding the lifelong consequences of congenital ZIKV infection. Additionally, we highlight the need to provide sustainable resources for research and development to reduce the risk of future Zika outbreaks.

[Genotype and phenotype of WWOX gene related developmental and epileptic encephalopathy].

Objective: To summarize the genotype and clinical phenotype of children with WWOX gene related developmental and epileptic encephalopathy (DEE). Methods: Case series studies. The clinical data of 12 children with WWOX gene related DEE who were admitted to the Neurological Department of Children's Medical Center, Peking University First Hospital from June 2019 to December 2023 were analyzed. The children's characteristics of gene variation, clinical phenotype, auxiliary examination results, treatment and prognosis were analyzed. Results: Among 12 children with WWOX gene related DEE, there were 7 boys and 5 girls, the age of seizure onset ranged from 10 days to 6 months (median 1.8 months). Multiple seizure types were observed, including focal seizures in 10 cases, epileptic spasms in 9 cases, tonic seizures in 4 cases, myoclonic seizures in 1 case. Among 12 cases, 9 cases had multiple seizure types. All 12 cases showed microcephaly and global developmental delay. Video electroencephalography showed slowed background activity in 6 cases, hyperarrhythmia in 6 cases, multifocal discharges in 6 cases, and focal discharges in 1 case. Epileptic spasms were detected in 8 cases, tonic seizures in 4 cases and myoclonic seizures in 1 case. Brain magnetic resonance imaging showed bilateral frontotemporal subarachnoid space widening in 5 cases, deep sulci in 3 cases, bilateral ventricular enlargement in 2 cases, callosal hypoplasia in 5 cases, and delayed white matter myelination in 3 cases. The phenotypes of 12 cases were consistent with the diagnosis of DEE, and 8 of them were diagnosed with infantile epileptic spasm syndrome. All the WWOX gene variants in 12 cases were complex heterozygous variants, including 20 variants, 11 variants and 1 large intragenic WWOX gene deletion (p.Ala149Thr, p.Arg156Ser, p.R167Tfs*8, p.Leu186Val, c.605+5G>A, p.Trp218*, p.His263Arg, p.Leu275fs*19*1, p.N285Kfs*10, p.Ser304Tyr, p.Met326Arg, loss1 exon2-8) had not been reported previously. The age of last follow-up ranged from 11 months to 5 years and 3 months. During the follow-up, 1 case died at the age of 1 year and 10 months, 2 cases were seizure-free, and 9 cases still had seizures after multiple anti-seizure medications. Conclusions: The seizure onset age of children with WWOX gene related DEE is usually less than 6 months, and some of them in neonate. The common seizure types include focal seizures and epileptic spasms. Children usually have microcephaly and global developmental delay. WWOX gene related DEE usually has drug refractory epilepsy.

Clinical and genetic analysis of a case of O'Donnell-Luria-Rodan syndrome manifesting as growth retardation. / 以生长发育迟缓为表现的1例O'Donnell-Luria-Rodanç»¼åˆå¾ä¸´åºŠä¸Žé—ä¼ å­¦ç‰¹å¾åˆ†æž.

O'Donnell-Luria-Rodan (ODLURO) syndrome is an autosomal dominant genetic disorder caused by mutations in the KMT2E (lysine methyltransferase 2E) gene. The Third Xiangya Hospital of Central South University admitted a 12-year and 9-month-old male patient who presented with growth retardation, intellectual disability, and distinctive facial features. Peripheral blood was collected from the patient, and DNA was extracted for genetic testing. Chromosome karyotyping showed 46XY. Whole-exome sequencing and low-coverage massively parallel copy number variation sequencing (CNV-seq) revealed a 506 kb heterozygous deletion in the 7q22.3 region, which includes 6 genes, including KMT2E. The patient was diagnosed with ODLURO syndrome. Both the patient's parents and younger brother had normal clinical phenotypes and genetic test results, indicating that this deletion was a de novo mutation. The clinical and genetic characteristics of this case can help increase clinicians' awareness of ODLURO syndrome.

[Two new cases of X-linked intellectual developmental disorder-105 linked to a previously unreported pathogenic variant in the USP27X gene]. / Dos nuevos casos de discapacidad intelectual ligada al cromosoma X tipo 105 por variante patógena en el gen USP27X no descrita previamente.

INTRODUCTION: X-linked intellectual developmental disorder is clinically and genetically heterogeneous. The ubiquitin specific peptidase 27 X-linked gene (USP27X) has been associated with X-linked intellectual developmental disorder, and only 17 affected males have been described in the literature to date. CASE REPORT: A 6-year-old boy was assessed due to intellectual developmental disability, language delay, behavioural disorder, microcephaly and particular features. His mother had learning difficulties and a facial phenotypic overlap. A maternal uncle had an intellectual developmental disorder. Physical examination revealed an unusual phenotype (triangular facies, long palpebral fissures and eyelashes, medially eyebrow loss, prominent auricles), mild brachydactylia and hypoplasia in the distal phalanges. The clinical exome identified the probably pathogenic variant NM_001145073.3: c.692delT in the USP27X gene. The results of the family segregation analysis were positive: the mother and maternal uncle were harbourers, while healthy maternal aunt was not. CONCLUSIONS: We present two new cases of X-linked intellectual developmental disorder due to a previously unreported variant in the USP27X gene. Both patients presented neurological symptoms without any significant involvement at other levels, according to the literature. One of the cases presented microcephaly, particular features and digital anomalies, which broadens the phenotypic spectrum of this disease.

TITLE: Dos nuevos casos de discapacidad intelectual ligada al cromosoma X tipo 105 por variante patógena en el gen USP27X no descrita previamente.Introducción. La discapacidad intelectual ligada al cromosoma X es un trastorno clínica y genéticamente heterogéneo. El gen de la proteasa 27 específica de la ubiquitina ligada al cromosoma X (USP27X) se ha asociado a discapacidad intelectual ligada al cromosoma X, y en la actualidad sólo se ha descrito a 17 varones afectos en la bibliografía. Caso clínico. Niño de 6 años valorado por discapacidad intelectual, retraso del lenguaje, trastorno de la conducta, microcefalia y rasgos particulares. Madre con dificultades de aprendizaje y fenotipo facial solapante. Un tío materno con discapacidad intelectual aislada. En la exploración física destaca un fenotipo peculiar (facies triangular, fisuras palpebrales y pestañas largas, cejas menos pobladas medialmente, pabellones auriculares prominentes), leve braquidactilia e hipoplasia de falanges distales. El exoma clínico identificó la variante probablemente patógena NM_001145073.3: c.692delT en el gen USP27X. El estudio de segregación familiar fue positivo: madre y tío materno portadores, tía materna sana no portadora. Conclusiones. Describimos dos nuevos casos con discapacidad intelectual ligada al cromosoma X por variante no descrita previamente en el gen USP27X. Ambos pacientes presentan clínica neurológica sin afectación significativa a otros niveles de acuerdo con la bibliografía. Uno de los casos asocia microcefalia, rasgos particulares y anomalías digitales, lo que permite ampliar el espectro fenotípico de esta enfermedad.