RESUMEN
Objective:To summarize the clinical and genetic features of 7 patients with a mild form of Geleophysic dysplasia type 2(GD2)/Acromicric dysplasia(AD) induced by fibrillin 1(FBN1) gene mutation from one Chinese family.Methods:A Chinese pedigree of mild GD2/AD treated at the Pediatric Endocrinology Department at the First Affiliated Hospital of Sun Yat-sen University between August 2017 and May 2022 was collected. Whole-exome genetic sequencing of the FBN1 gene were performed to establish the diagnosis. Additionally, a literature review was further conducted.Results:In this family, among 13 individuals spanning three generations, there were 7 affected cases, including 1 adult female, 1 adult male, and 5 children. All individuals exhibited postnatal growth failure, severe disproportionate short stature, and lacked typical facial features. Exome sequencing and Sanger sequencing confirmed the presence of a heterozygous missense mutation c. 5099A>G(p.Tyr1700Cys) in exon 42 of the FBNI gene in 6 affected individuals(Ⅱ-1, Ⅲ-1 to Ⅲ-5), which was identified as a pathogenic mutation. This mutation was previously reported in a Chinese classical achondroplasia(AD) family. Based on comprehensive genetic analysis, clinical features, and multisystem evaluation, 3 cases were diagnosed with mild type 2 growth hormone deficiency(GD2), and 4 cases were diagnosed with mild AD. Recombinant human growth hormone(rhGH; 1.1-1.4 IU·kg -1·week -1) was applied to all the 5 children, and additional gonadotropin releasing hormone analogue(GnRHa) was administered to the 2 girls in late puberty, resulting in certain growth-promoting effect. Conclusions:The c. 5099A>G(p.Tyr1700Cys) mutation not only leads to the classical type of achondroplasia(AD) as reported in the literature but also causes the non-classical GD2 or AD(mild GD2/AD). Further research is warranted to investigate the long-term therapeutic effects of rhGH treatment.
RESUMEN
Acromicric dysplasia(AD) is a rare skeletal dysplasia characterized by severe short stature, short hands and feet, normal intelligence, mild facial dysmorphism, and radiological characteristics. The clinical data and genetic test results of one patient with AD in our hospital were analyzed, and the clinical characteristics of this case were summarized. The main manifestations of the child were short stature, short hands and feet, mild facial dysmorphism, short and stubby metacarpals and phalanges on hand X-ray. One mutation, FBN1: c.5141T>G(p.Met1714Arg), was identified in this child, the mutation is inherited from her short mother and grandfather. AD is a rare congenital skeletal dysplasia disorder associated with mutations in the FBN1 gene. It conforms to the pathogenesis of autosomal dominant genetic disease.
RESUMEN
The mutation of FBN1 gene results in the abnormality of its encoded fibrillin-1 protein, which affects musculoskeletal growth and results in two opposing phenotypes of tall and short stature, with clinical manifestations of Marfan syndrome and acromelic dysplasia.Acromelic dysplasia caused by FBN1 mutation includes acromicric dysplasia(AD), geleophysic dysplasia(GD)and Weill-Marchesani syndrome(WMS). As some FBN1 mutations have been reported to cause both AD and GD.The dysregulation of TGF-β signal pathway is the underlying mechanism of acromelic dysplasia.Currently, there is no specific treatment, mainly symptomatic treatment, early identification, diagnosis and treatment will improve prognosis of patients.This article will review the pathogenesis, clinical phenotype, treatment and follow-up of acromelic dysplasia caused by FBN1 mutation.