Prenatal diagnosis and preimplantation genetics testing of 3M syndrome in a Chinese family with novel biallelic variants of CUL7

Abstract

AbstractBackground3M syndrome is a rare autosomal recessive developmental disorder characterized by pre and postnatal growth deficiency, dysmorphic facial features, and normal intelligence. 3M syndrome should be suspected in a proband with a combination of characteristic or recognizable dysmorphic features. The diagnosis of 3M syndrome could be confirmed by identifying biallelic variants in CUL7, OBSL1, or CCDC8.MethodsWhole‐exome sequencing (WES) was performed to identify genetic causes. Reverse‐transcription polymerase chain reaction (RT‐PCR) was performed to detect aberrant splicing events. Haplotypes were constructed using multiplex PCR and sequencing. Variants of the parental haplotype and target likely pathogenic variants were detected by PCR and Sanger sequencing from the embryos. Copy number variant (CNV) detection was performed by next‐generation sequencing.ResultsWe present the case of a nonconsanguineous Chinese couple with one abnormal pregnancy, where the fetus showed 3M phenotypes of shortened long bones. WES identified two novel heterozygous mutations in CUL7: NM_014780.5:c.354del (p.Gln119ArgfsTer52) and NM_014780.5:c.1373‐15G>A. RT‐PCR from RNA of the mother's peripheral blood leucocytes showed that c.1373‐15G>A caused the insertion of a 13‐bp extra intron sequence and encoded the mutant p.Leu459ProfsTer25. Both variants were classified as likely pathogenic according to ACMG/AMP guidelines and Clinical Genome Resource specifications. During genetic counseling, the options of prenatal diagnosis through chorionic villus sampling or amniocentesis, adoption, sperm donation, and electing not to reproduce, as well as preimplantation genetic testing for monogenic disorders (PGT‐M), were discussed. The couple hopes to conceive a child of their own and refused to accept the 25% risk during the next pregnancy and opted for PGT‐M. They finally successfully delivered a healthy baby through PGT‐M.ConclusionThis study expanded the mutation spectrum of CUL7, detected the aberrant splicing event of CUL7 via RT‐PCR, constructed the haplotype for PGT‐M, and demonstrated the successful delivery of a healthy baby using PGT‐M.