• Journal of mucopolysaccharidosis and rare diseases
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• 제2권1호
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• pp.1-4
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• 2016

Mucolipidosis type II (MLII; MIM#252500) and type III alpha/beta (MLIIIA; MIM#252600) very rare lysosomal storage disease cause by reduced enzyme activity of GlcNAc-1-phosphotransferase. ML II is caused by a total or near total loss of GlcNAc-1-phosphotransferase activity whether enzymatic activity in patient with ML IIIA is reduced. While ML II and ML III share similar clinical features, including skeletal abnormalities, ML II is the more severe in terms of phenotype. ML III is a much milder disorder, being characterized by latter onset of clinical symptoms and slower progressive course. GlcNAc-1-phosphotransferase is encoded by two genes, GNPTAB and GNPTG, mutations in GNPTAB give rise to ML II or ML IIIA. To date, more than 100 different GNPTAB mutations have been reported, causing either ML II or ML IIIA. Despite development of new diagnostic approach and understanding of disease mechanism, there is no specific treatment available for patients with ML II and ML IIIA yet, only supportive and symptomatic treatment is indicated.

• Journal of mucopolysaccharidosis and rare diseases
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• 제2권1호
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• pp.13-16
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• 2016

Mucolipidosis (ML) II/III are autosomal recessive diseases caused by deficiency of post-translational modification of lysosomal enzymes. The mannose-6-phosphate (M6P) residue in lysosomal enzymes synthesized by N-acetylglucosamine 1-phosphotransferase (GlcNAc-phosphotransferase) serves as recognition marker for trafficking in lysosomes. GlcNAc-phosphotransferase is encoded by GNPTAB and GNPTG. Mutations in GNPTAB cause severe ML II alpha/beta and the attenuated ML III alpha/beta. Whereas mutations in GNPTG cause the ML III gamma, the attenuated type of ML III variant. For the diagnostic approaches, increased urinary oligosaccharides excretion could be a screening test in clinically suspicious patients. To confirm the diagnosis, instead of measuring the activity of GlcNAc phosphotransferase, measuring the enzymatic activities of different lysosomal hydrolases are useful for diagnosis. The activities of several lysosomal hydrolases are decreased in fibroblasts but increased in serum of the patients. In addition, the sequence analysis of causative gene is warranted. Therefore, the confirmatory diagnosis requires a combination of clinical evaluation, biochemical and molecular genetic testing. ML II/III show complex disease manifestations with lysosomal storage as the prime cellular defect that initiates consequential organic dysfunctions. As there are no specific therapy for ML to date, understanding the molecular pathogenesis can contribute to develop new therapeutic approaches ultimately.

• 대한유전성대사질환학회지
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• 제18권3호
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• pp.99-106
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• 2018

뮤코지방증 III alpha/beta는 GNPTAB 유전자의 돌연변이로 야기되는 점액(Mucolipids) 분해 능력 장애이며 상염색체 열성으로 유전된다. 이는 혈액에서 고농축의 점액을 검사하여 진단되며 유전자 검사를 통해 진단을 확인할 수 있다. 뮤코지방증 III형은 희귀하고 점진적으로 진행하는 대사장애로 증상은 3세 경에 나타나며 성장지연, 관절 경직, 관절통, 골격 이상, 심장 판막 이상, 반복되는 호흡기 감염, 평평한 얼굴과 낮은 콧대의 거친 얼굴, 지적장애 또는 학습 문제를 보인다. 본 증례는 성장 지연과 거친 얼굴을 보이는 4세, 2세 7개월 남매에서 targeted gene panel sequencing으로 [c.2715+1G>A (p.Glu906Leufs*4), c.2544del (p. Glu849Lysfs*22)] 두 개의 변이가 이형 접합체로 발견되어 뮤코지방증 III형을 진단하였으며 c.2544del 은 새로운 돌연변이로 대조군에서 발견되지 않았고 표현형과 연관성 고려 시 pathogenic variant로 해석된다. 이와 같이 GNPTAB 유전자에서 새로운 돌연변이가 확인되어 뮤코지방증 III형 남매 증례를 보고하는 바이다. 본 증례처럼 최근 분자유전학적 기술이 발달함에 따라 조기 진단이 가능해지고 진단 후 Case 1 환자에서와 같이 치료를 위하여 pamidronate 투약 가능하나, 이와 같은 보조적 치료 외에도 조기 진단을 받은 뮤코지방증 환자들을 위한 근본적인 치료법 개발을 위한 노력이 필요하다.

• 대한유전성대사질환학회지
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• 제17권3호
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• pp.85-91
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• 2017

뮤코지방증 2형과 3형은 GlcNAc-1-phosphotransferase 효소의 기능 이상으로 인해 발생하는 상염색체 열성 유전질환이다. GlcNAc-1-phosphotransferase 효소의 기능 이상은 리소좀 효소의 세포 내 이동에 관여하는mannose-6-phosphate와 리소좀 효소간의 결합을 저해하여 리소좀 효소들이 세포 안으로 들어오지 못하게 된다. 리소좀 효소의 부족으로 인해 리소좀 기능 이상 및 뮤코지질의 축적으로 인해 다양한 임상을 보이게 된다. 본 연구는 새롭게 진단된 뮤코지방증 환자의 임상 및 생화학, 분자유전학적 양상을 기술하고 본원에서 치료받은 11명의 뮤코지방증 2, 3형 환자들의 임상 양상을 비교하여 분석하였다. 본 저자들은 17개월에 특징적 얼굴 모양 및 관절 구축을 주소로 내원한 환자에서 효소 검사를 통해 리조솜 효소의 혈장 내 증가를 확인하였으며 GNPTAB 유전자의 직접염기 서열분석을 통해 복합이형접합자 돌연변이 (c.3428 dupA [pAsn1143Lysfs*3], c.673C>T [p.Gln225*])를 발견하였다. 새로 진단된 환자를 포함하여 총 11명의 환자(뮤코지방증 2형: 7명, 3형: 4명)들을 대상으로 임상 양상을 분석하였고 진단 시 나이는 뮤코지방증 2형은 2세 1개월, 3형은 6세 9개월이었으며 진단 시 신장 표준편차지수는 각각 -3.2 (${\pm}1.5$), -1.3 (${\pm}1.1$)였다. 심초음파 결과에서 뮤코지방증 3형 환자들은 심장 판막의 이상만을 보였으나 2형 환자들에서는 비후성 심근증(n=3), 좌심비대(n=1)이 동반되었다. 간비비대(n=4)는 뮤코지방증 2형 환자에서만 확인되었다. 뮤코지방증 2형의 경우, 3명의 환자가 호흡 곤란으로 기관 절개 및 호흡기 보조를 받았으며 2 명의 환자가 호흡기 문제로 사망하였다. Pamidronate 치료는 4명의 뮤코지방증 3형 환자와 4명의 2형 환자에서 시행하고 있으며 유효성 및 안정성에 대한 추가적인 평가가 필요하다.

• Journal of Genetic Medicine
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• 제12권1호
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• pp.19-24
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• 2015

Speech and language are uniquely human-specific traits, which contributed to humans becoming the predominant species on earth. Disruptions in the human speech and language function may result in diverse disorders. These include stuttering, aphasia, articulation disorder, spasmodic dysphonia, verbal dyspraxia, dyslexia and specific language impairment. Among these disorders, stuttering is the most common speech disorder characterized by disruptions in the normal flow of speech. Twin, adoption, and family studies have suggested that genetic factors are involved in susceptibility to stuttering. For several decades, multiple genetic studies including linkage analysis were performed to connect causative gene to stuttering, and several genetic studies have revealed the association of specific gene mutation with stuttering. One notable genetic discovery came from the genetic studies in the consanguineous Pakistani families. These studies suggested that mutations in the lysosomal enzyme-targeting pathway genes (GNPTAB, GNPTG and NAPGA) are associated with non-syndromic persistent stuttering. Although these studies have revealed some clues in understanding the genetic causes of stuttering, only a small fraction of patients are affected by these genes. In this study, we summarize recent advances and future challenges in an effort to understand genetic causes underlying stuttering.

• Journal of Genetic Medicine
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• 제18권2호
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• pp.75-82
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• 2021

Speech and language functions are highly cognitive and human-specific features. The underlying causes of normal speech and language function are believed to reside in the human brain. Developmental persistent stuttering, a speech and language disorder, has been regarded as the most challenging disorder in determining genetic causes because of the high percentage of spontaneous recovery in stutters. This mysterious characteristic hinders speech pathologists from discriminating recovered stutters from completely normal individuals. Over the last several decades, several genetic approaches have been used to identify the genetic causes of stuttering, and remarkable progress has been made in genome-wide linkage analysis followed by gene sequencing. So far, four genes, namely GNPTAB, GNPTG, NAGPA, and AP4E1, are known to cause stuttering. Furthermore, thegeneration of mouse models of stuttering and morphometry analysis has created new ways for researchers to identify brain regions that participate in human speech function and to understand the neuropathology of stuttering. In this review, we aimed to investigate previous progress, challenges, and future perspectives in understanding the genetics and neuropathology underlying persistent developmental stuttering.

• Clinical and Experimental Pediatrics
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• 제55권11호
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• pp.438-444
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• 2012

Mucolipidosis II (ML II) or inclusion cell disease (I-cell disease) is a rarely occurring autosomal recessive lysosomal enzyme-targeting disease. This disease is usually found to occur in individuals aged between 6 and 12 months, with a clinical phenotype resembling that of Hurler syndrome and radiological findings resembling those of dysostosis multiplex. However, we encountered a rare case of an infant with ML II who presented with prenatal skeletal dysplasia and typical clinical features of severe secondary hyperparathyroidism at birth. A female infant was born at $37^{+1}$ weeks of gestation with a birth weight of 1,690 g (<3rd percentile). Prenatal ultrasonographic findings revealed intrauterine growth retardation and skeletal dysplasia. At birth, the patient had characteristic features of ML II, and skeletal radiographs revealed dysostosis multiplex, similar to rickets. In addition, the patient had high levels of alkaline phosphatase and parathyroid hormone, consistent with severe secondary neonatal hyperparathyroidism. The activities of ${\beta}$-D-hexosaminidase and ${\alpha}$-N-acetylglucosaminidase were moderately decreased in the leukocytes but were 5- to 10-fold higher in the plasma. Examination of a placental biopsy specimen showed foamy vacuolar changes in trophoblasts and syncytiotrophoblasts. The diagnosis of ML II was confirmed via GNPTAB genetic testing, which revealed compound heterozygosity of c.3091C>T (p.Arg1031X) and c.3456_3459dupCAAC (p.Ile1154GlnfsX3), the latter being a novel mutation. The infant was treated with vitamin D supplements but expired because of asphyxia at the age of 2 months.

• Journal of mucopolysaccharidosis and rare diseases
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• 제2권1호
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• pp.5-7
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• 2016

Mucolipidoses II and III alpha/beta (ML II and ML III) are lysosomal disorders in which the essential mannose-6-phosphate recognition marker is not synthesized onto lysosomal hydrolases and other glycoproteins. The disorders are caused by mutations in GNPTAB, which encodes two of three subunits of the heterohexameric enzyme, N-acetylglucosamine-1-phosphotransferase ML II, recognizable at birth, often causes intrauterine growth impairment and sometimes the prenatal "Pacman" dysplasia. The main postnatal manifestations of ML II include gradual coarsening of neonatally evident craniofacial features, early cessation of statural growth and neuromotor development, dysostosis multiplex and major morbidity by hardening of soft connective tissue about the joints and in the cardiac valves. Fatal outcome occurs often before or in early childhood. ML III with clinical onset rarely detectable before three years of age, progresses slowly with gradual coarsening of the facial features, growth deficiency, dysostosis multiplex, restriction of movement in all joints before or from adolescence, painful gait impairment by prominent hip disease. Cognitive handicap remains minor or absent even in the adult, often wheelchair-bound patient with variable though significantly reduced life expectancy. As yet, there is no cure for individuals affected by these diseases. So, clinical manifestations and conservative treatment is important. This review aimed to highlight the extra-skeletal clinical problems in ML II and III.