Identification and functional characterization of the first deep intronic GLA mutation (IVS4+1326C>T) causing renal variant of Fabry disease

Identification and functional characterization of the first deep intronic GLA mutation (IVS4+1326C>T) causing renal variant of Fabry disease

Background Fabry disease (FD, OMIM #301500) is an X-linked lysosomal disorder caused by the deficiency of [alpha]-galactosidase A ([alpha]-GalA), encoded by the GLA gene. Among more than 1100 reported GLA mutations, few were deep intronic mutations which have been linked to classic and cardiac varia...

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Veröffentlicht in:Orphanet journal of rare diseases 2022-06, Vol.17 (1), p.1-237, Article 237
Hauptverfasser: Dai, Xuantong, Zong, Xue, Pan, Xiaoxia, Lu, Wei, Jiang, Geng-Ru, Lin, Fujun
Format: Artikel
Sprache:eng
Schlagworte:
Alpha galactosidases
Antibodies
Biopsy
Case studies
Deep intronic mutation
DNA polymerase
DNA sequencing
Enzymatic activity
Enzymes
Fabry disease
Fabry's disease
Genes
Genetic analysis
Genetic aspects
Genetic screening
Genotype & phenotype
GLA gene
Globotriaosylceramide
Health aspects
Kidney diseases
Lymphocytes
Medical research
Microscopy
Mutation
Nucleotide sequence
Nucleotide sequencing
Pathogenicity
Patients
Phenotypes
Plasmids
Podocyte
Polymerase chain reaction
Proteinuria
Rare diseases
Renal variant
Risk factors
α-Galactosidase A
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Zusammenfassung:Background Fabry disease (FD, OMIM #301500) is an X-linked lysosomal disorder caused by the deficiency of [alpha]-galactosidase A ([alpha]-GalA), encoded by the GLA gene. Among more than 1100 reported GLA mutations, few were deep intronic mutations which have been linked to classic and cardiac variants of FD. Methods and results We report a novel hemizygous deep intronic GLA mutation (IVS4+1326C>T) in a 33-year-old Chinese man with a mild [alpha]-GalA deficiency phenotype involving isolated proteinuria and predominant globotriaosylceramide deposits in podocytes. IVS4+1326C>T, which appears to be the first deep intronic GLA mutation associated with renal variant of FD, was identified by Sanger sequencing the entire GLA genomic DNA sequence of the patient's peripheral mononuclear blood lymphocytes (PBMCs). Further sequencing of cDNA from PBMCs of the patient revealed a minor full-length GLA transcript accounting for about 25% of total GLA transcript, along with two major aberrantly spliced GLA transcripts encoding mutant forms of [alpha]-GalA with little enzyme activity characterized by in vitro [alpha]-GalA overexpression system in the HEK293T cells. Thus, the combined clinical phenotype, genetic analysis and functional studies verified the pathogenicity of IVS4+1326C>T. Conclusions The identification of IVS4+1326C>T establishes a link between deep intronic GLA mutation and the renal variant of FD, which extends the mutation spectrum in GLA gene and justifies further study of how IVS4+1326C>T and potentially other deep intronic GLA mutations contribute to Fabry podocytopathy through aberrant splicing. Future studies should also assess the true incidence of IVS4+1326C>T in patients with different variants of FD, which may improve early genetic diagnosis to allow timely treatment that can prevent disease progression and improve survival. Keywords: Fabry disease, Renal variant, Podocyte, GLA gene, Deep intronic mutation, [alpha]-Galactosidase A
ISSN:1750-1172
1750-1172
DOI:10.1186/s13023-022-02377-8