Dong‐Kyu Jin scite author profile

Background Mutations in TRPV4, a gene that encodes a Ca 2+ permeable non-selective cation channel, have recently been found in a spectrum of skeletal dysplasias that includes brachyolmia, spondylometaphyseal dysplasia, Kozlowski type (SMDK) and metatropic dysplasia (MD). Only a total of seven missense mutations were detected, however. The full spectrum of TRPV4 mutations and their phenotypes remained unclear. Objectives and methods To examine TRPV4 mutation spectrum and phenotypeÀgenotype association, we searched for TRPV4 mutations by PCR-direct sequencing from genomic DNA in 22 MD and 20 SMDK probands. Results TRPV4 mutations were found in all but one MD subject. In total, 19 different heterozygous mutations were identified in 41 subjects; two were recurrent and 17 were novel. In MD, a recurrent P799L mutation was identified in nine subjects, as well as 10 novel mutations including F471del, the first deletion mutation of TRPV4. In SMDK, a recurrent R594H mutation was identified in 12 subjects and seven novel mutations. An association between the position of mutations and the disease phenotype was also observed. Thus, P799 in exon 15 is a hot codon for MD mutations, as four different amino acid substitutions have been observed at this codon; while R594 in exon 11 is a hotspot for SMDK mutations. Conclusion The TRPV4 mutation spectrum in MD and SMDK, which showed genotypeÀphenotype correlation and potential functional significance of mutations that are non-randomly distributed over the gene, was presented in this study. The results would help diagnostic laboratories establish efficient screening strategies for genetic diagnosis of the TRPV4 dysplasia family diseases.

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Phase I/II clinical trial of enzyme replacement therapy with idursulfase beta in patients with mucopolysaccharidosis II (Hunter Syndrome)

Sohn

Cho

Park

et al. 2013

Orphanet J Rare Dis

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BackgroundMucopolysaccharidosis II (MPS II, Hunter syndrome) is a rare X-linked lysosomal storage disorder caused by the deficiency of iduronate-2-sulfatase (IDS). In affected patients, glycosaminoglycan (GAG) accumulates in the lysosomes of many organs and tissues contributing to the pathology associated with MPS II. The objective of this phase I/II clinical study was to evaluate the efficacy and safety of recombinant human iduronate-2-sulfatase (idursulfase beta, Hunterase®) in the treatment of MPS II.MethodsThirty-one MPS II patients between 6 and 35 years of age were enrolled in a randomized, single-blinded, active comparator-controlled phase I/II trial for 24 weeks. Patients were randomized to active comparator infusions (N=11), 0.5 mg/kg idursulfase beta infusions (N=10), or 1.0 mg/kg idursulfase beta infusions (N=10). The primary efficacy variable was the level of urinary GAG excretion. The secondary variables were changes in the distance walked in 6 minutes (6-minute walk test, 6MWT), echocardiographic findings, pulmonary function tests, and joint mobility.ResultsPatients in all three groups exhibited reduction in urine GAG and this reduced GAG level was maintained for 24 weeks. Urine GAG was also significantly reduced in the 0.5 mg/kg and 1.0 mg/kg idursulfase beta groups when compared to the active comparator group (P = 0.043, 0.002, respectively). Changes in 6MWT were significantly greater in the 0.5 mg/kg and 1.0 mg/kg idursulfase groups than in the active comparator group (p= 0.003, 0.015, respectively). Both idursulfase beta infusions were generally safe and well tolerated, and elicited no serious adverse drug reactions. The most frequent adverse events were urticaria and skin rash, which were easily controlled with administration of antihistamines.ConclusionsThis study indicates that idursulfase beta generates clinically significant reduction of urinary GAG, improvements in endurance as measured by 6MWT, and it has an acceptable safety profile for the treatment of MPS II.Trial registrationClinicalTrials.gov: NCT01301898

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Identification of mutations in the GNPTA (MGC4170) gene coding for GlcNAc-phosphotransferase α/β subunits in Korean patients with mucolipidosis type II or type IIIA

Paik

Song

et al. 2005

Hum. Mutat.

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Mucolipidosis types II and III are autosomal recessive inherited diseases caused by a deficiency in the lysosomal enzyme N-acetylglucosamine-1 phosphotransferase (GlcNAc-phosphotransferase), which adds phosphate to function as a recognition marker for the uptake and transport of lysosomal enzymes. We investigated mutations in the GNPTA (MGC4170) gene, which codes for the alpha/beta subunits of phosphotransferase, and in the GNPTAG gene, which codes for its gamma subunits in five Korean patients with mucolipidosis type II or IIIA. We identified seven mutations in the GNPTA gene, but none in GNPTAG. The mutations in type II patients included p.Q104X (c.310C>T), p.R1189X (c.3565C>T), p.S1058X (c.3173C>G), p.W894X (c.2681G>A), and p.H1158fsX15 (c.3474_3475delTA), all of which are nonsense or frameshift mutations. However, a splicing site mutation, IVS13+1G>A (c.2715+1G>A) was detected along with a nonsense or a frameshift mutation (p.R1189X or p.E858fsX3 (c.2574_2575delGA)) in two mucolipidosis type IIIA patients. This report shows that mutations in the GNPTA gene coding for the alpha/beta subunits of phosphotransferase, and not mutations in the GNPTAG gene, account for most of the genetic mutations found in Korean patients with mucolipidosis type II or IIIA.

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Dong‐Kyu Jin

Novel and recurrent TRPV4 mutations and their association with distinct phenotypes within the TRPV4 dysplasia family

Phase I/II clinical trial of enzyme replacement therapy with idursulfase beta in patients with mucopolysaccharidosis II (Hunter Syndrome)

Identification of mutations in the GNPTA (MGC4170) gene coding for GlcNAc-phosphotransferase α/β subunits in Korean patients with mucolipidosis type II or type IIIA

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