DYNC2H1 splicing variants causing severe prenatal short-rib polydactyly syndrome and postnatal orofaciodigital syndrome.

The DYNC2H1 gene has been associated with short-rib polydactyly syndrome (SRPS), among other skeletal ciliopathies. Two cases are presented of distinctive phenotypes resulting from splicing variants in DYNC2H1. The first is a 14-week-old fetus with enlarged nuchal translucency, oral hamartoma, malformed uvula, bifid epiglottis, short ribs, micromelia, long bone agenesis, polysyndactyly, heart defect, pancreatic cysts, multicystic dysplastic kidney, megabladder and trident acetabulum. A ciliopathies NGS panel revealed two compound heterozygous variants in DYNC2H1: c.7840-18T>G r.7841_7964del p.Gly2614Aspfs5 and c.11070G>A r.11044_11116del p.Ile3682Aspfs2. Both variants were initially classified as variants of uncertain significance but were reclassified as likely pathogenic after PCR-based RNA testing. The second is an 11-year-old overweight male with multiple accessory oral frenula, median cleft lip and alveolar ridge, polysyndactyly, brachydactyly, normal rib length, and hypogonadism. Exome sequencing revealed two compound heterozygous variants in DYNC2H1: c.6315del p.(Thr2106Glnfs*7), classified as likely pathogenic, and c.3303-16A>G p.(?), classified as a variant of uncertain significance. PCR-based RNA testing suggested that c.3303-16A>G induces an in-frame deletion: r.3303_3458del p.Asp1102_Arg1153del, although the normal transcript is still produced. These results are consistent with both SRPS type I/III in the first case and orofaciodigital syndrome in the second, an unprecedented description. This work thus improves the clinical and molecular knowledge of the phenotypes associated with splicing variants in the DYNC2H1 gene.