Abstract
Thin basement membrane nephropathy (TBMN) is often attributable to mutations in the COL4A3 or COL4A4 genes that encode the α3 and α4 chains of type IV collagen, respectively, a major structural protein in the glomerular basement membrane. The aim of this study was to explore a new disease-related genetic mutation associated with the clinical phenotype observed in a Chinese Han family with autosomal dominant TBMN. We conducted a clinical and genetic study comprising seven members of this TBMN family. Mutation screening for COL4A3 and COL4A4 was carried out by direct sequencing. The RNA sequences associated with both proteins were also analyzed with reverse transcription PCR and TA cloning. The result showed that every affected patient had a novel heterozygous splicing mutation in COL4A4 (c.1459 + 1G > A), which led to the elimination of the entire exon 21 from the COL4A4 cDNA and resulted in the direct splicing of exons 20 and 22. This in turn caused a frameshift mutation after exon 20 in the open reading frame of COL4A4. In conclusion, we describe a novel splicing mutation in COL4A4 that results in TBMN. This analysis increases our understanding of TBMN phenotype-genotype correlations, which should facilitate more accurate diagnosis and prenatal diagnosis of TBMN.
Highlights
Thin basement membrane nephropathy (TBMN), called benign familial hematuria, is the most common cause of inherited persistent microscopic hematuria in children and adults that occurs in at least 1% of the population[1,2]
The GBM is formed by a type IV collagen network
The triple-helical type IV collagen molecules form a network by associating with each other at their ends that forms the structural skeleton of the basement membranes[9]
Summary
Thin basement membrane nephropathy (TBMN), called benign familial hematuria, is the most common cause of inherited persistent microscopic hematuria in children and adults that occurs in at least 1% of the population[1,2] It is characterized by persistent hematuria, minimal proteinuria, normal renal function and a uniformly thinned glomerular basement membrane(GBM)[2,3]. Type IV collagen related diseases on the basis of the genotype and made further it possible to carry on prenatal diagnosis in affected members. In this present study, we investigated a pedgree with TBMN from Shandong provience, China and performed mutational analyses in COL4A3 and COL4A4, to add to the existing genotype-phenotype correlations within these genes
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