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Logo of jkmsThis ArticleThis JournalJKMS Journal of Korean Medical ScienceAboutFor Contributorse-Submission
J Korean Med Sci. Jul 2010; 25(7): 1105–1108.
Published online Jun 16, 2010. doi:  10.3346/jkms.2010.25.7.1105
PMCID: PMC2890895

Autosomal Recessive Multiple Epiphyseal Dysplasia in a Korean Girl Caused by Novel Compound Heterozygous Mutations in the DTDST (SLC26A2) Gene

Abstract

Multiple epiphyseal dysplasia is caused by heterogenous genotypes involving more than six genes. Recessive mutations in the DTDST gene cause a phenotype of recessive multiple epiphyseal dysplasia (rMED). The authors report a 9-yr old Korean girl with the rMED phenotype having novel compound heterozygous mutations in the DTDST gene, which were inherited from both parents. This is the first Korean rMED case attributed to DTDST mutations, and expands the spectrum of diseases caused by DTDST mutations.

Keywords: Osteochondrodysplasias, Diastrophic Dysplasia Sulfate Transporter

INTRODUCTION

Multiple epiphyseal dysplasia is a heterogenous group of diseases, clinically characterized by a mild-to-moderate short stature, angular deformities of the extremities, short hands and feet, and precocious osteoarthritis. The severity of the disease varies case to case even in those with the same genotype, and the most severe cases are sometimes difficult to differentiate from pseudoachondroplasia (PSACH). Mutations in genes coding cartilage oligomeric matrix protein (COMP), type IX collagen alpha 1, 2, and 3 chains (COL9A1, COL9A2, COL9A3), and matrilin 3 (MATN3) cause the dominantly inherited forms of MED, while homozygous or compound heterozygous mutations in diastrophic dysplasia sulfate transporter (DTDST or SLC26A2) gene cause recessively inherited MED (rMED, EDM4 OMIM 226900) (1, 2). However, additional MED loci have been suggested, as many MED patients do not show any mutations in the above genes (1, 2). Superti-Furga et al. (3) first reported that a homozygous p.R279W mutation in the DTDST gene developed a phenotype resembling MED, rather than diastrophic dysplasia (DTD). Subsequently, more homozygous or compound heterozygous mutations in the DTDST gene were reported in rMED patients (4, 5). However, no rMED case caused by DTDST gene mutations has been reported in the Asian population (2). Only an intermediate phenotype of Desbuquois dysplasia, diastrophic dysplasia and rMED with compound heterozygotic mutation in DTDST gene was reported in a Japanese patient (6). In the present study, we identified novel compound heterozygous mutations in a Korean girl with the rMED phenotype.

CASE REPORT

A girl was born to non-consanguineous, healthy Korean parents after a normal pregnancy with a birth weight of 3.06 kg. Any family history of musculoskeletal system was denied. Her motor development was within normal limit. At age 9 yr, she visited our clinic due to an apparent foot deformity, which was first noticed at age 3 yr. She did not have any limitation in daily activity or joint pain, but was poor at sports. Her height was 131 cm (42th percentile) and her weight 37.9 kg (80th percentile). Her face, palate, and external ears were normal. Fingers and thumbs were short but in normal alignment. Both knees and ankles were in valgus alignment. Her forefeet were adducted, which was more severe on the right side (Fig. 1A-C). A radiographic examination showed small, dysplastic epiphyses at hips, knees, ankles, and wrists. Metacarpals and phalanges were short and had flat epi-physes, and premature physeal closure at the proximal and middle phalanges of both hands had resulted in brachydactyly. A lateral view of the knees revealed double layered patellae. Forefoot adduction deformity had been caused by deformed medial cuneiform bones and twisted metatarsals (Fig. 1D-G). The spine was normal in appearance and alignment. Detailed clinical and radiographic surveys were performed to the parents of proband. Her father's height was 174 cm and her mother's 160 cm. They did not show any deformity on physical examination.

Fig. 1
The proband aged 9 yr. Mild genu valgum, forefoot adduction, and hindfoot valgus were noted (A-C). Radiographs showed genu valgum with flattening of epiphyses at the hips, knees, and ankles (D); double layered patella (E); shortening of the metacarpals ...

Genetic and biochemical study for this family was approved by the Institutional Review Board of Seoul National University Hospital. Direct sequencing analysis of PCR amplified DNA from the proband genomic DNA demonstrated no mutation in COMP, COL9A1, COL9A2, COL9A3, and MATN3. However, she had a compound heterozygous mutations in the DTDST gene, i.e., a c.485_486delTG, p.Val162GlyfsX12 mutation and a c.1153G>A, p.D385N mutation in exon 3, neither of which has been previously reported to be associated with any disease. Her mother's genomic DNA had a heterozygous c.485_486delTG mutation while her father's contained a heterozygous c.1153G>A (Fig. 2). None of 171 normal subjects (342 normal chromosomes) were shown to contain c.1153G>A variation. Interspecies amino acid sequence of p.D385 was conserved in all the species tested except Xenopus tropicalis (Fig. 3). Dermal fibroblast sulfate uptake assays (7) revealed 65-74% of the normal control level in the proband, but a near normal level in her mother (Fig. 4). Normal controls were dermal fibroblasts harvested during surgical procedure from previously healthy fracture patients of the same sage with index case. The father's dermal fibroblast was not available.

Fig. 2
Sequencing results of the DTDST gene showed compound heterozygous mutations of c.485_486delTG and c.1153G>A in the proband. The c.485_486delTG mutation was inherited maternally, and the c.1153G>A point mutation paternally.
Fig. 3
Conservation of p.D385 in DTDST protein among different species.
Fig. 4
Proband dermal fibroblast sulfate uptake was about 65-75% that of the normal control.

DISCUSSION

This case showed clinical and radiographic findings compatible with rMED, i.e., double layered patellae, flattened proximal femoral epiphyses, brachydactyly, feet deformity, and genu valgum. Full sequencing of the DTDST gene in the proband and both parents revealed two previously unreported mutations that had been inherited by the proband from both parents.

Hastbacka et al. (8) identified a gene for diastrophic dysplasia by linkage disequilibrium mapping. As encoded a novel sulfate transporter, it was named as DTDST, and later as SLC26A2. Undersulfation of proteoglycan, which was an important component of cartilage matrix, was found in DTD patient (9). Forlino et al. (10) showed impaired sulfate uptake in chondrocytes, osteoblasts and fibroblasts, significant proteoglycan undersulfation in cartilage, and reduced proliferation and/or lack of terminal chondrocyte differentiation in homozygous SLC26A2-mutant knock-in mice.

Recessive mutations in the DTDST gene cause a spectrum of osteochondrodysplasias, including achondrogenesis type IB, atelosteogenesis type II, and DTD. rMED has been reported to caused by homozygous or compound heterozygous mutations of the DTDST gene, containing either R-279W or C635S (3-5). Mikaye et al. (6) reported a case with an intermediate phenotype between rMED and DTD caused by a compound heterozygote of a novel p.T266I and a recurrent p.ΔV340 mutation. As missense mutation causing R178X was found in DTD patients (11), it is for sure that c.485_486delTG, p.Val162GlyfsX12 mutation from maternal allele in the proband will produce a truncated protein and contribute to development of the phenotype. The c.1153G>A, p.D385N mutation from paternal allele resides in the middle of sulfate transporter domain. No c.1153G>A variation was found in 171 normal subjects, and p.D385 was well conserved in other species, suggesting that c.1153G>A, p.D385N is not a polymorphism but a mutation. Hence, the compound heterozygous mutations in DTDST gene of the proband are cause of her phenotype. It is also supported by reduced uptake of sulfate in in vitro assay (Fig. 4).

As regards foot deformity, the proband had hindfoot valgus and metatarsus adductus, which should be described as skewfoot (12), rather than clubfoot. Ryoppy et al. (13) reported that 43% of their DTD cases had skewfoot deformity, and that only 29% had genuine clubfoot (equinovarus) deformity, and as was pointed by these authors the expression "clubfoot", as generally used to describe foot deformity in DTD, is a misnomer. A more specific description of foot deformity is required in patients with DTDST-associated diseases.

Footnotes

This study was supported by a grant of the Korea Healthcare technology R&D Project, Ministry for Health, Welfare and Family Affairs, Republic of Korea (A080588).

References

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