Identification and functional characterization of a novel truncating splicing variant in COL4A5 gene causing X-linked Alport syndrome with astigmatism

The American College of Medical Genetics and Genomics (ACMG) previously developed guidance for the interpretation of sequence variants. 1 In the past decade, sequencing technology has evolved rapidly with the advent of high-throughput next generation sequencing. By adopting and leveraging next generation sequencing, clinical laboratories are now performing an ever increasing catalogue of genetic testing spanning genotyping, single genes, gene panels, exomes, genomes, transcriptomes and epigenetic assays for genetic disorders. By virtue of increased complexity, this paradigm shift in genetic testing has been accompanied by new challenges in sequence interpretation. In this context, the ACMG convened a workgroup in 2013 comprised of representatives from the ACMG, the Association for Molecular Pathology (AMP) and the College of American Pathologists (CAP) to revisit and revise the standards and guidelines for the interpretation of sequence variants. The group consisted of clinical laboratory directors and clinicians. This report represents expert opinion of the workgroup with input from ACMG, AMP and CAP stakeholders. These recommendations primarily apply to the breadth of genetic tests used in clinical laboratories including genotyping, single genes, panels, exomes and genomes. This report recommends the use of specific standard terminology: ‘pathogenic’, ‘likely pathogenic’, ‘uncertain significance’, ‘likely benign’, and ‘benign’ to describe variants identified in Mendelian disorders. Moreover, this recommendation describes a process for classification of variants into these five categories based on criteria using typical types of variant evidence (e.g. population data, computational data, functional data, segregation data, etc.). Because of the increased complexity of analysis and interpretation of clinical genetic testing described in this report, the ACMG strongly recommends that clinical molecular genetic testing should be performed in a CLIA-approved laboratory with results interpreted by a board-certified clinical molecular geneticist or molecular genetic pathologist or equivalent. Show more

Alport syndrome is a genetically and phenotypically heterogeneous disorder of glomerular, cochlear, and ocular basement membranes resulting from mutations in the collagen IV genes COL4A3, COL4A4, and COL4A5. Alport syndrome can be transmitted as an X-linked, autosomal recessive, or autosomal dominant disorder. Individuals with Alport syndrome have a significant lifetime risk for kidney failure, as well as sensorineural deafness and ocular abnormalities. The availability of effective intervention for Alport syndrome-related kidney disease makes early diagnosis crucial, but this can be impeded by the genotypic and phenotypic complexity of the disorder. This review presents an approach to enhancing early diagnosis and achieving optimal outcomes. Show more

A total of 209 unrelated patients of predominantly Han Chinese ethnicity and with X-linked Alport's syndrome, a clinically heterogeneous hereditary nephritis, were enrolled in the present study to evaluate the ability to make a clinical diagnosis and perform molecular genetics analysis using skin biopsy. A negative or mosaic α5(IV) chain staining in the epidermal basement membrane was detected in 86.2% of male and 93.5% of female patients. COL4A5 mutations were identified in 85% of male patients with a negative α5(IV) chain staining pattern in the epidermal basement membrane. With use of skin biopsy and immunostaining, 16.4% of our patients were diagnosed before 3 years of age, and the youngest was diagnosed at 1 year of age. COL4A5 mutations were detected in 22 patients with normal epidermal basement membrane staining for the α5(IV) chain. Analysis of COL4A5 cDNA fragments from skin fibroblasts yielded a mutation detection rate of 83%, which was particularly valuable for identification of cryptic splicing mutations. Furthermore, 83% of COL4A5 mutations identified in the present study were novel. Thus, skin biopsy is a practical approach for the clinical diagnosis and molecular genetic analysis of X-linked Alport's syndrome. Show more