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Pathogenic convergence of CNVs in genes functionally associated to a severe neuromotor developmental delay syndrome.
García-Hernández, JL, Corchete, LA, Marcos-Alcalde, Í, Gómez-Puertas, P, Fons, C, Lazo, PA
Human genomics. 2021;(1):11
Abstract
BACKGROUND Complex developmental encephalopathy syndromes might be the consequence of unknown genetic alterations that are likely to contribute to the full neurological phenotype as a consequence of pathogenic gene combinations. METHODS To identify the additional genetic contribution to the neurological phenotype, we studied as a test case a boy, with a KCNQ2 exon-7 partial duplication, by single-nucleotide polymorphism (SNP) microarray to detect copy-number variations (CNVs). RESULTS The proband presented a cerebral palsy like syndrome with a severe motor and developmental encephalopathy. The SNP array analysis detected in the proband several de novo CNVs, nine partial gene losses (LRRC55, PCDH9, NALCN, RYR3, ELAVL2, CDH13, ATP1A2, SLC17A5, ANO3), and two partial gene duplications (PCDH19, EFNA5). The biological functions of these genes are associated with ion channels such as calcium, chloride, sodium, and potassium with several membrane proteins implicated in neural cell-cell interactions, synaptic transmission, and axon guidance. Pathogenically, these functions can be associated to cerebral palsy, seizures, dystonia, epileptic crisis, and motor neuron dysfunction, all present in the patient. CONCLUSIONS Severe motor and developmental encephalopathy syndromes of unknown origin can be the result of a phenotypic convergence by combination of several genetic alterations in genes whose physiological function contributes to the neurological pathogenic mechanism.
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Implementation of high-resolution melting analysis of the porcupine (PORCN) gene for molecular diagnosis of focal dermal hypoplasia: Identification of a novel mutation.
Martínez-Saucedo, M, Ornelas-Fuentes, C, Dedden, M, Sánchez-Urbina, R, Díaz-García, H, Aquino-Jarquin, G, Moreno-Salgado, R, Granados-Riveron, JT
The journal of gene medicine. 2020;(5):e3165
Abstract
BACKGROUND Focal dermal hypoplasia (FDH) is rare X-linked dominant disease characterized by atrophy and linear pigmentation of the skin, split hand/foot deformities and ocular anomalies. FDH is caused by mutations of the Porcupine (PORCN) gene, which encodes an enzyme that catalyzes the palmitoylation of Wnt ligands required for their secretion. High resolution melting analysis (HRM) is a technique that allows rapid, labor-efficient, low-cost detection of genomic variants. In the present study, we report the successful implementation of HRM in the molecular diagnosis of FDH. METHODS Polymerase chain reaction and HRM assays were designed and optimized for each of the coding exons of the PORCN gene, processing genomic DNA samples form a non-affected control and a patient complying with the FDH diagnostic criteria. The causal mutation was characterized by Sanger sequencing from an amplicon showing a HRM trace suggesting heterozygous variation and was validated using an amplification-refractory mutation system (ARMS) assay. RESULTS The melting profiles suggested the presence of a variant in the patient within exon 1. Sanger sequencing revealed a previously unknown C to T transition replacing a glutamine codon for a premature stop codon at position 28, which was validated using ARMS. CONCLUSIONS Next-generation sequencing facilitates the molecular diagnosis of monogenic disorders; however, its cost-benefit ratio is not optimal when a single, small or medium size causal gene is already identified and the clinical diagnostic presumption is strong. Under those conditions, as it is the case for FDH, HRM represents a cost- and labor-effective approach.
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Altered homodimer formation and increased iron accumulation in VAC14-related disease: Case report and review of the literature.
Baumann, H, Tunc, S, Günther, A, Münchau, A, Lohmann, K, Brüggemann, N
Parkinsonism & related disorders. 2020;:41-46
Abstract
BACKGROUND Pathogenic variants in the VAC14 component of PIKFYVE complex (VAC14) gene have been identified as a cause of a childhood-onset complex dystonia with striato-nigral degeneration. VAC14 is a scaffold protein relevant for the regulation of phosphatidylinositol 3,5-bisphosphate (PI(3,5)P2) and is known to form homodimers. METHODS Whole exome sequencing was performed in a 32-year-old patient with adolescence-onset complex dystonia and his unaffected mother. We established primary fibroblast cultures from the patient and used stably transfected SH-SY5Y cells overexpressing wildtype or mutant VAC14 to investigate the influence of VAC14 variants on the homodimer formation. Furthermore, the current literature on VAC14-related disorders was reviewed. RESULTS Our patient presented with progressive, complex dystonia with anarthria, dysphagia, sensorineural deafness, spasticity and nigral and pallidal iron deposition and striatal hyperintensities upon MRI. We identified two rare compound-heterozygous VAC14 variants (p.Leu648Phe and p.Arg623His), both located at the C-terminus in the predicted homodimerization domain. Enhanced VAC14 homodimer formation was observed for two missense variants (p.Leu648Phe and p.Ala562Val, a published mutation), but not for p.Arg623His, compared to wildtype VAC14. In contrast to previous reports, no enlarged vacuoles were detected in fibroblasts of our patient. CONCLUSIONS We report a novel patient with a VAC14-related disorder and provide first evidence of an enhanced VAC14 homodimerization as a possible disease mechanism. Due to the increased iron deposition and the clinical overlap, this disorder should be discussed as a new form of neurodegeneration with brain iron accumulation (NBIA). We suggest that VAC14 should be implemented in NBIA gene panels.
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Mild Zellweger syndrome due to functionally confirmed novel PEX1 variants.
Lipiński, P, Stawiński, P, Rydzanicz, M, Wypchło, M, Płoski, R, Stradomska, TJ, Jurkiewicz, E, Ferdinandusse, S, Wanders, RJA, Vaz, FM, et al
Journal of applied genetics. 2020;(1):87-91
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Abstract
Zellweger spectrum disorders (ZSD) constitute a group of rare autosomal recessive disorders characterized by a defect in peroxisome biogenesis due to mutations in one of 13 PEX genes. The broad clinical heterogeneity especially in late-onset presenting patients and a mild phenotype complicates and delays the diagnostic process. Here, we report a case of mild ZSD, due to novel PEX1 variants. The patient presented with an early hearing loss, bilateral cataracts, and leukodystrophy on magnetic resonance (MR) images. Normal results of serum very-long-chain fatty acids (VLCFA) and phytanic acid were found. Molecular diagnostics were performed to uncover the etiology of the clinical phenotype. Using whole exome sequencing, there have been found two variants in the PEX1 gene-c.3450T>A (p.Cys1150*) and c.1769T>C (p.Leu590Pro). VLCFA measurement in skin fibroblasts and C26:0-lysoPC in dried blood spot therefore was performed. Both results were in line with the diagnosis of ZSD. To conclude, normal results of routine serum VLCFA and branched-chain fatty acid measurement do not exclude mild forms of ZSD. The investigation of C26:0-lysoPC should be included in the diagnostic work-up in patients with cataract, hearing loss, and leukodystrophy on MR images suspected to suffer from ZSD.
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The latest FADS: Functional analysis of GLDN patient variants and classification of GLDN-associated AMC as a type of viable fetal akinesia deformation sequence.
Mis, EK, Al-Ali, S, Ji, W, Spencer-Manzon, M, Konstantino, M, Khokha, MK, Jeffries, L, Lakhani, SA
American journal of medical genetics. Part A. 2020;(10):2291-2296
Abstract
Recessive variants in the GLDN gene, which encodes the gliomedin protein and is involved in nervous system development, have recently been associated with Arthrogryposis Multiplex Congenita (AMC), a heterogenous condition characterized by congenital contractures of more than one joint. Two cohorts of patients with GLDN-associated AMC have previously been described, evolving the understanding of the condition from lethal to survivable with the provision of significant neonatal support. Here, we describe one additional patient currently living with the syndrome, having one novel variant, p.Leu365Phe, for which we provide functional data supporting its pathogenicity. We additionally provide experimental data for four other previously reported variants lacking functional evidence, including p.Arg393Lys, the second variant present in our patient. We discuss unique and defining clinical features, adding calcium-related findings which appear to be recurrent in the GLDN cohort. Finally, we compare all previously reported patients and draw new conclusions about scope of illness, with emphasis on the finding of pulmonary hypoplasia, suggesting that AMC secondary to GLDN variants may be best fitted under the umbrella of fetal akinesia deformation sequence (FADS).