Combining clinical examination with exome sequencing for the diagnosis and treatment of Marfan syndrome: a case series of 6 families from China.

Background: Marfan syndrome (MFS) is a rare autosomal dominant connective tissue disorder. Diagnosing MFS can be challenging as the disease's severity and clinical manifestations differ between pathogenic variants, and because a lack of published information currently exists on phenotype-genotype correlations. This report aims to underline the clinical manifestations associated with fibrillin-1 (FBN1) gene mutations by assessing MFS in 6 families from China.

Methods: We diagnosed 6 patients and their relatives with MFS by combining a clinical examination (based on the 2010 revised Ghent nosology criteria) with a targeted next-generation sequencing analysis. The functional analysis of the causal mutations and clinical details of the affected patients were then assessed.

Results: We identified 6 pathogenic mutations in FBN1, including 1 novel frameshift, 1 nonsense, and 4 missense mutations. Most uniquely, mitral valve prolapses (MVP) and ectopia lentis (EL) were found in the cysteine-related mutations. Typically, facial symptoms of MFS are observed in frameshift or nonsense mutants, not in cysteine-related ones. Furthermore, the patients with premature terminal codons had a more serious skin condition than patients with missense mutations, partly indicating the important effect FBN1 has on skin.

Conclusions: This study expands the mutation spectrum of MFS and highlights possible genotype-phenotype correlations, thereby improving the early diagnosis and symptomatic treatment of the disease.