Weill-Marchesani syndrome: natural history and genotype-phenotype correlations from 18 news cases and review of literature.

BACKGROUND: Weill-Marchesani syndrome (WMS) belongs to the group of acromelic dysplasias, defined by short stature, brachydactyly and joint limitations. WMS is characterised by specific ophthalmological abnormalities, although cardiovascular defects have also been reported. Monoallelic variations in FBN1 are associated with a dominant form of WMS, while biallelic variations in ADAMTS10, ADAMTS17 and LTBP2 are responsible for a recessive form of WMS. OBJECTIVE: Natural history description of WMS and genotype-phenotype correlation establishment. MATERIALS AND METHODS: Retrospective multicentre study and literature review. INCLUSION CRITERIA: clinical diagnosis of WMS with identified pathogenic variants. RESULTS: 61 patients were included: 18 individuals from our cohort and 43 patients from literature. 21 had variants in ADAMTS17, 19 in FBN1, 19 in ADAMTS10 and 2 in LTBP2. All individuals presented with eye anomalies, mainly spherophakia (42/61) and ectopia lentis (39/61). Short stature was present in 73% (from -2.2 to -5.5 SD), 10/61 individuals had valvulopathy. Regarding FBN1 variants, patients with a variant located in transforming growth factor (TGF)-ß-binding protein-like domain 5 (TB5) domain were significantly smaller than patients with FBN1 variant outside TB5 domain (p=0.0040). CONCLUSION: Apart from the ophthalmological findings, which are mandatory for the diagnosis, the phenotype of WMS seems to be more variable than initially described, partially explained by genotype-phenotype correlation.

Weill-Marchesani Syndrome, a Rare Presentation of Severe Short Stature with Review of the Literature.

BACKGROUND Short stature is the second most common reason for referral to a pediatric endocrinology clinic. Numerous genetic causes have been identified. Weill-Marchesani syndrome (WMS) is one of the rare genetic disorders that cause short stature. It is caused by homozygous mutations in the FBN1 gene, ADAMTS10 gene, ADAMTS17 gene, or LTBP2 gene. Despite genetic heterogeneity, WMS is clinically homogeneous. It is characterized by short stature, brachydactyly, joint stiffness, ocular abnormalities, mainly microspherophakia and glaucoma, and occasionally cardiac defects. CASE REPORT A 9-year-old boy had bilateral narrow-angle glaucoma with lens subluxation, elevated intraocular pressure, and severe myopia since early childhood. He had phenotypic dysmorphic features and radiological findings consistent with WMS. He underwent lensectomy and scleral-fixated intraocular lens implantation as well as drug treatment to control the intraocular pressure. He was a slow grower, and his growth parameters showed disproportionate short stature with brachydactyly and joint stiffness. Growth hormone provocation tests were subnormal with a peak value of 7.89 ng/mL. CONCLUSIONS The constellation of clinical presentation, radiological findings, and the molecular examination confirmed a homozygous familial variant of the ADAMTS10 gene identified by carrier gene testing. This known familial variant creates a premature termination codon classified as a likely pathogenic cause of WMS. In this syndrome, glaucoma treatment is considered the greatest challenge. The disease-causing mechanism in WMS is not known but thought to be due to abnormal actin distribution and organization in fibroblasts as a result of impaired connections between extracellular matrix components and the cytoskeleton.

A novel nonsense mutation in ADAMTS17 caused autosomal recessive inheritance Weill-Marchesani syndrome from a Chinese family.

Weill-Marchesani syndrome (WMS) is a rare connective tissue disorder characterized by short stature, brachydactyly, joint stiffness, eye anomalies, including microspherophakia, ectopia of the lenses, severe myopia, glaucoma and occasionally heart defects. Given these complex clinical manifestations and genetic heterogeneity, WMS patients presented misdiagnosed as high myopia or angle closure glaucoma. Here, we report ADAMTS17 mutations, a member of the extracellular matrix protease family, from a Chinese family. Patients have features that fall within the WMS spectrum. The exome (protein-coding regions of the genome) makes up ~1 % of the genome, it contains about 85% of known disease-related variants. Whole exome sequencing (WES) has been performed to identify the disease-associated genes, including one patient, his healthy sister, and his asymptomatic wife. Genome-wide homozygosity map was used to identify the disease caused locus. SNVs and INDELs were further predicted with MutationTaster, LRT, SIFT and SiPhy and compared to dbSNP150 and 1000 Genomes project. Filtered mutation was confirmed with Sanger sequencing in whole family members. The Genome-wide homozygosity map based on WES identified a total of 20 locus which were possible pathogenic. Further, a novel nonsense mutation c.1051A >T result in p.(lys351Ter) in ADAMTS17 had been identified in a candidate loci. The Sanger sequencing data has verified two consanguineous WMS patients in the family pedigree and revealed autosomal recessive (AR) inheritance pattern. The nonsense mutation in ADAMTS17 was analyzed in silico to explore its effects on protein function. We predicted the mutation produced non-function protein sequence. A novel nonsense mutation c.1051 A > T in ADAMTS17 had been identified caused autosomal recessive WMS in the Chinese family.

Identification and molecular characterisation of a homozygous missense mutation in the ADAMTS10 gene in a patient with Weill-Marchesani syndrome.

Weill-Marchesani syndrome is a rare disorder of the connective tissue. Functional variants in ADAMTS10 are associated with Weill-Marchesani syndrome-1. We identified a homozygous missense mutation, c.41T>A, of the ADAMTS10 gene in a 19-year-old female with typical symptoms of WMS1: proportionate short stature, brachydactyly, joint stiffness, and microspherophakia. The ADAMTS10 missense mutation was analysed in silico, with conflicting results as to its effects on protein function, but it was predicted to affect the leader sequence. Molecular characterisation in HEK293 Ebna cells revealed an intracellular mis-targeting of the ADAMTS10 protein with a reduced concentration of the polypeptide in the endoplasmic reticulum. A large reduction in glycosylation of the cytoplasmic fraction of the mutant ADAMTS10 protein versus the wild-type protein and a lack of secretion of the mutant protein are also evident in our results.In conclusion, we identified a novel missense mutation of the ADAMTS10 gene and confirmed the functional consequences suggested by the in silico analysis by conducting molecular studies.

Three novel mutations of the FBN1 gene in Chinese children with acromelic dysplasia.

Geleophysic dysplasia (GD), acromicric dysplasia (AD) and Weill-Marchesani syndrome (WMS) are rare disorders with overlapping characteristics, such as short stature, short hands and feet, joint limitations, skin thickening, mild facial anomalies, normal intelligence and abnormal skeletal symptoms, with GD distinct by progressive cardiac valvular thickening and WMS distinct by microspherophakia and ectopia lentis. Mutations in FBN1 gene have been identified in AD, GD and WMS patients. By targeted next-generation sequencing of skeletal dysplasia-related genes, including FBN1 and ADAMTSL2, three novel missense mutations, c.5189A>T (p.N1730I), c.5198G>T (p.C1733F), c.5243G>T (p.C1748F), and one known mutation c.5198G>A (p.C1733Y) of FBN1 gene were identified in four probands, respectively. Clinically, p.C1733Y was associated with GD, as reported previously, as well as the novel p.N1730I, whereas p.C1733F and p.C1748F were associated with AD and WMS. Interestingly, different mutations at the same codon (p.C1733Y and p.C1733F) were associated with different phenotypes (GD and AD, respectively). However, the mutations p.C1748F and p.C1748R were associated with WMS. Our data support the importance of TGFß-binding protein-like domain 5 of FBN1 protein in pathogenicity of acromelic dysplasia, and expands the genotype/phenotype relations of these rare forms of fibrilliopathies.

Similarity of geleophysic dysplasia and Weill-Marchesani syndrome.

The acromelic dysplasias comprise short stature, hands and feet, and stiff joints. Three disorders are ascribed to this group, namely Weill-Marchesani syndrome, geleophysic dysplasia, and acromicric dysplasia, although similar in phenotype, can be distinguished clinically. Weill-Marchesani syndrome, on the basis of microspherophakia and ectopia lentis; geleophysic dysplasia by progressive cardiac valvular thickening, tracheal stenosis, and/or bronchopulmonary insufficiency, often leading to early death. Microspherophakia has not been reported previously in geleophysic dysplasia. Mutations in FBN1, ADAMTS10, or ADAMTS17 cause Weill-Marchesani syndrome by disrupting the microfibrillar environment, while geleophysic dysplasia is associated with enhanced TGF-ß signaling mediated through mutations in FBN1 or ADAMTSL2. We studied a 35-year-old woman with geleophysic dysplasia, with short stature, small hands and feet, limitation of joint mobility, mild skin thickening, cardiac valvular disease, restrictive pulmonary disease, and microspherophakia. Sequencing of ADAMTSL2 demonstrated two changes: IVS8-2A>G consistent with a disease-causing mutation, and IVS14-7G>A with potential to generate a new splice acceptor site and result in aberrant mRNA processing. The unaffected mother carries only the IVS8-2A>G transition providing evidence that the two changes are in trans-configuration in our patient.

More than meets the eye: The evolving phenotype of Weill-Marchesani syndrome-diagnostic confusion with geleophysic dysplasia.

The criteria for diagnosing and distinguishing between Weill-Marchesani syndrome (WMS) and geleophysic dysplasia (GD) are inexact and often overlap. We report the clinical findings and evolving phenotype for a period of 18 years in a patient whose diagnosis, and distinguishing characteristics, transformed from GD to WMS. Molecular testing demonstrated novel mutations in the ADAMTS10 gene confirming a diagnosis of autosomal recessive WMS in the proposita. We further report on phenotypic features not classically linked to WMS. These findings indicate that the Weill-Marchesani phenotype may be developed and is not always apparent in early childhood.

Informe clínico de dismorfias múltiples con agregación familiar / Clinical report on multiple dysmorphias with familial aggregation

Se comunican las características clínicas de una mujer de 68 años de edad y sus dos hijas (36 y 33 años) que presentaban un conjunto de anomalías de probable origen hereditario. Se les efectuaron interconsultas con varias especialidades: medicina interna, genética, cardiología, radiología, angiología, psiquiatría, dermatología, otorrinolaringología, máxilo-facial, oftalmología y neurología. Los hallazgos comunes a las tres pacientes consistieron en tortuosidad de los vasos retinianos, glaucoma crónico de ángulo abierto, braquidactilias y otros dismorfismos en dedos de manos y pies, hallux valgus, telangiectasias en mejillas y tórax superior, orejas en ®asa», hiperostosis frontal, tórax excavado e insuficiencia mitral. El glaucoma neovascular se presentó en un ojo de cada hija. Este complejo padecimiento clínico, con alteraciones en miembros, faciales, cardiovasculares, oculares y en piel con una posible herencia de tipo autosómico dominante por su presencia en dos generaciones sucesivas, no se corresponde con ningún síndrome de los considerados en este informe

Presentation of the clinical characteristics of a 68-year-old woman and her two daughters, aged 36 and 33, who had a number of abnormalities of probable hereditary origin. Interconsultations were conducted with several specialties: internal medicine, genetics, cardiology, radiology, angiology, psychiatry, dermatology, otorhinolaryngology, maxillofacial, ophthalmology and neurology. The findings common to the three patients were retinal arterial tortuosity, chronic open angle glaucoma, brachydactyly and other dysmorphic disorders of fingers and toes, hallux valgus, telangiectasia in cheeks and upper thorax, protruding ears, frontal hyperostosis, pectus excavatum and mitral insufficiency. Both daughters had neovascular glaucoma in one of their eyes. This complex clinical condition, with disorders involving limbs, face, the cardiovascular system, eyes and skin, and a potential autosomal dominant inheritance in view of its presence in two successive generations, does not correspond to any of the syndromes considered in this report

Informe clínico de dismorfias múltiples con agregación familiar / Clinical report on multiple dysmorphias with familial aggregation

Se comunican las características clínicas de una mujer de 68 años de edad y sus dos hijas (36 y 33 años) que presentaban un conjunto de anomalías de probable origen hereditario. Se les efectuaron interconsultas con varias especialidades: medicina interna, genética, cardiología, radiología, angiología, psiquiatría, dermatología, otorrinolaringología, máxilo-facial, oftalmología y neurología. Los hallazgos comunes a las tres pacientes consistieron en tortuosidad de los vasos retinianos, glaucoma crónico de ángulo abierto, braquidactilias y otros dismorfismos en dedos de manos y pies, hallux valgus, telangiectasias en mejillas y tórax superior, orejas en ®asa¼, hiperostosis frontal, tórax excavado e insuficiencia mitral. El glaucoma neovascular se presentó en un ojo de cada hija. Este complejo padecimiento clínico, con alteraciones en miembros, faciales, cardiovasculares, oculares y en piel con una posible herencia de tipo autosómico dominante por su presencia en dos generaciones sucesivas, no se corresponde con ningún síndrome de los considerados en este informe(AU)

Presentation of the clinical characteristics of a 68-year-old woman and her two daughters, aged 36 and 33, who had a number of abnormalities of probable hereditary origin. Interconsultations were conducted with several specialties: internal medicine, genetics, cardiology, radiology, angiology, psychiatry, dermatology, otorhinolaryngology, maxillofacial, ophthalmology and neurology. The findings common to the three patients were retinal arterial tortuosity, chronic open angle glaucoma, brachydactyly and other dysmorphic disorders of fingers and toes, hallux valgus, telangiectasia in cheeks and upper thorax, protruding ears, frontal hyperostosis, pectus excavatum and mitral insufficiency. Both daughters had neovascular glaucoma in one of their eyes. This complex clinical condition, with disorders involving limbs, face, the cardiovascular system, eyes and skin, and a potential autosomal dominant inheritance in view of its presence in two successive generations, does not correspond to any of the syndromes considered in this report(AU)

Missense mutations in FBN1 exons 41 and 42 cause Weill-Marchesani syndrome with thoracic aortic disease and Marfan syndrome.

Mutations in FBN1 cause a range of overlapping but distinct conditions including Marfan syndrome (MFS), Weill-Marchesani syndrome (WMS), familial thoracic aortic aneurysms/dissections (FTAAD), acromicric dysplasia (AD), and geleophysic dysplasia (GD). Two forms of acromelic dysplasia, AD and GD, characterized by short stature, brachydactyly, reduced joint mobility, and characteristic facies, result from heterozygous missense mutations occurring in exons 41 and 42 of FBN1; missense mutations in these exons have not been reported to cause MFS or other syndromes. Here we report on probands with MFS and WMS who have heterozygous FBN1 missense mutations in exons 41 and 42, respectively. The proband with WMS has ectopia lentis, short stature, thickened pinnae, tight skin, striae atrophicae, reduced extension of the elbows, contractures of the fingers and toes, and brachydactyly and has a missense mutation in exon 42 of FBN1 (c.5242T>C; p.C1748R). He also experienced a previously unreported complication of WMS, an acute thoracic aortic dissection. The second proband displays classic characteristics of MFS, including ectopia lentis, skeletal features, and aortic root dilatation, and has a missense mutation in exon 41 of FBN1 (c.5084G>A; p.C1695Y). These phenotypes provide evidence that missense mutations in exons 41 and 42 of FBN1 lead to MFS and WMS in addition to AD and GD and also suggest that all individuals with pathogenic FBN1 mutations in these exons should be assessed for thoracic aortic disease and ectopia lentis. Further studies are necessary to elucidate the factors responsible for the different phenotypes associated with missense mutations in these exons of FBN1.