Exon-Trapping Assay Improves Clinical Interpretation of and Intronic Variants in Stickler Syndrome Type 2 and Otospondylomegaepiphyseal Dysplasia.

Stickler syndrome (SS) is a hereditary connective tissue disorder affecting bones, eyes, and hearing. Type 2 SS and the SS variant otospondylomegaepiphyseal dysplasia (OSMED) are caused by deleterious variants in and , respectively. In both genes, available database information indicates a high rate of potentially deleterious intronic variants, but published evidence of their biological effect is usually insufficient for a definite clinical interpretation. We report four previously unpublished intronic variants in (c.2241 + 5G>T, c.2809 - 2A>G, c.3168 + 5G>C) and (c.4392 + 1G>A) identified in type 2 SS/OSMED individuals. The pathogenic effect of these variants was first predicted in silico and then investigated by an exon-trapping assay. We demonstrated that all variants can induce exon in-frame deletions, which lead to the synthesis of shorter collagen XI α1 or 2 chains. Lacking residues are located in the α-triple helical region, which has a crucial role in regulating collagen fibrillogenesis. In conclusion, this study suggests that these alternative and transcripts might result in aberrant triple helix collagen. Our approach may help to improve the diagnostic molecular pathway of -related disorders.