Jae-Min Kim

Publications (9)27.24 Total impact

• Article: The early molecular processes underlying the neurological manifestations of an animal model of Wilson's disease.

  Beom Hee Lee, Joo Hyun Kim, Jae-Min Kim, Sun Hee Heo, Minji Kang, Gu-Hwan Kim, Jin-Ho Choi, Han-Wook Yoo
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  ABSTRACT: The Long-Evans Cinnamon (LEC) rat shows age-dependent hepatic manifestations that are similar to those of Wilson's disease (WD). The pathogenic process in the brain has, however, not been evaluated in detail due to the rarity of the neurological symptoms. However, copper accumulation is noted in LEC rat brain tissue from 24 weeks of age, which results in oxidative injuries. The current study investigated the gene expression profiles of LEC rat brains at 24 weeks of age in order to identify the important early molecular changes that underlie the development of neurological symptoms in WD. Biological ontology-based analysis revealed diverse altered expressions of the genes related to copper accumulation. Of particular interest, we found altered expression of genes connected to mitochondrial respiration (Sdhaf2 and Ndufb7), calcineurin-mediated cellular processes (Ppp3ca, Ppp3cb, and Camk2a), amyloid precursor protein (Anks1b and A2m) and alpha-synuclein (Snca). In addition to copper-related changes, compensatory upregulations of Cp and Hamp reflect iron-mediated neurotoxicity. Of note, reciprocal expression of Asmt and Bhmt is an important clue that altered S-adenosylhomocysteine metabolism underlies brain injury in WD, which is directly correlated to the decreased expression of S-adenosylhomocysteine hydrolase in hepatic tissue in LEC rats. In conclusion, our study indicates that diverse molecular changes, both variable and complex, underlie the development of neurological manifestations in WD. Copper-related injuries were found to be the principal pathogenic process, but Fe- or adenosylhomocysteine-related injuries were also implicated. Investigations using other animal models or accessible human samples will be required to confirm our observations.
  Metallomics 03/2013; · 3.90 Impact Factor
• Article: Response to growth hormone therapy in children with Noonan syndrome: correlation with or without PTPN11 gene mutation.

  Jin-Ho Choi, Beom Hee Lee, Chang-Woo Jung, Yoo-Mi Kim, Hye Young Jin, Jae-Min Kim, Gu-Hwan Kim, Jin Soon Hwang, Sei Won Yang, Jin Lee, Han-Wook Yoo
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  ABSTRACT: The objective of this study was to evaluate the efficacy of recombinant human growth hormone (rhGH) therapy and the influence of genotype on the response to rhGH therapy in children with Noonan syndrome (NS). 14 male and 4 female subjects with NS with short stature, whose height was < 3rd percentile, were included. The rhGH was subcutaneously administered at a dose of 66 μg/kg/day. Mutations in the PTPN11 gene were identified in 10 subjects (55.6%). Mutations in the SOS1 (2 children, 11.1%), MEK1 (1 child, 5.6%) and KRAS (1 child, 5.6%) genes were also found. Height SDS increased from –2.8 ± 0.9 at the start of rhGH therapy to –2.0 ± 0.9 12 months later (p < 0.001). Height velocity increased from 5.0 ± 0.9 cm/year in the year before treatment to 8.9 ± 1.6 during treatment (p < 0.001). Changes in height SDS, height velocity, and serum IGF-1 level did not differ significantly between those children with or without PTPN11 mutations. The rhGH therapy significantly improved the growth velocity and increased the serum IGF-1 level. Longterm correlation between genotype and rhGH therapy responsiveness needs to be addressed in a large population.
  Hormone Research in Paediatrics 07/2012; 77(6):388-93.
• Article: High allele frequency of the p.Q258X mutation and identification of a novel mis-splicing mutation in the STAR gene in Korean patients with congenital lipoid adrenal hyperplasia.

  Jae-Min Kim, Jin-Ho Choi, Jung Hyun Lee, Gu-Hwan Kim, Beom Hee Lee, Hae Soon Kim, Jeh-Hoon Shin, Choong-Ho Shin, Chan Jong Kim, Jeesuk Yu, Dae-Yeol Lee, Won Kyoung Cho, Byung-Kyu Suh, Ji Eun Lee, Hye Rim Chung, Han-Wook Yoo
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  ABSTRACT: Steroidogenic acute regulatory (STAR) protein plays a crucial role in steroidogenesis, and mutations in the STAR gene cause congenital lipoid adrenal hyperplasia (CLAH). This study investigated the STAR mutation spectrum and functionally analyzed a novel STAR mutation in Korean patients with CLAH. Mutation analysis of STAR was carried out in 25 unrelated Korean CLAH patients. A region of STAR comprising exons 4-7 was cloned from human genomic DNA into an expression vector, followed by site-directed mutagenesis and transient expression in COS7 cells. The splicing pattern was analyzed by in vitro transcription, and each transcript was functionally characterized by measuring pregnenolone production in COS7 cells cotransfected with the cholesterol side chain cleavage system. Mutation p.Q258X was identified in 46 of 50 alleles (92%); mutation c.653C>T was detected in two alleles (4%); and mutations p.R182H and c.745-6_810del were found in one allele (2%). Reverse transcriptase-PCR products amplified from a patient heterozygous for compound c.653C>T and c.745-6_810del mutation revealed multiple alternatively spliced mRNAs. In vitro expression analysis of a minigene consisting of exons 4-7 containing the c.653C>T yielded two transcripts in which exon 6 or exons 5 and 6 were skipped. The encoded proteins exhibited defective pregnenolone-producing ability. The c.745-6_810del mutation led to full and partial intron retention. p.Q258X is the most common STAR mutation in Korea. A previously reported c.653C>T variant was found to cause aberrant splicing at the mRNA level, resulting in perturbation of STAR function. The c.745-6_810del mutation also resulted in aberrant splicing.
  European Journal of Endocrinology 08/2011; 165(5):771-8. · 3.42 Impact Factor
• Article: Spectrum of mutations in Noonan syndrome and their correlation with phenotypes.

  Beom Hee Lee, Jae-Min Kim, Hye Young Jin, Gu-Hwan Kim, Jin-Ho Choi, Han-Wook Yoo
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  ABSTRACT: To investigate mutation spectrums and their correlations to phenotypes in Noonan syndrome (NS) and NS-related disorders that share functional alterations of the Ras-mitogen-activated protein kinase pathway. Clinical characteristics and genotypes of 10 previously known and 2 candidate genes, SPRY1-4 and SPRED1, were investigated in 59 patients with NS, 17 with cardiofaciocutaneous syndrome, 5 with Costello syndrome, and 2 with LEOPARD syndrome. PTPN11 (39.0%), SOS1 (20.3%), RAF1 (6.8%), KRAS (5.1%), and BRAF (1.7%) mutations were identified in NS; BRAF (41.2%), SHOC2 (23.5%), and MEK1 (5.9%) mutations in cardiofaciocutaneous syndrome; and HRAS and PTPN11 mutations in Costello syndrome and LEOPARD syndrome, respectively. No additional mutations were identified in 28.9% of NS and 35.3% of cardiofaciocutaneous syndrome. Functional characterizations of 2 RAF1 novel variants, p.P261T and p.S259T, and one SOS1 variant, p.K170E, showed enhanced activity of Ras-mitogen-activated protein kinase pathway. Normal stature was frequent in SOS1 mutations, hypertrophic cardiomyopathy in RAF1, and developmental delay in RAF1, BRAF, or SHOC2 mutations. By identifying genotype-phenotype correlations, our study highlights the role of molecular genetic testing in the process of differential diagnosis of NS and NS-related disorders. Pathophysiologies that underlie these correlations are needed to be investigated in terms of their effects on Ras-mitogen-activated protein kinase pathway.
  The Journal of pediatrics 07/2011; 159(6):1029-35. · 4.02 Impact Factor
• Article: Proteomic analysis of the hepatic tissue of Long-Evans Cinnamon (LEC) rats according to the natural course of Wilson disease.

  Beom H Lee, Jae-Min Kim, Sun H Heo, Joo H Mun, Jihun Kim, Joo H Kim, Hye Y Jin, Gu-Hwan Kim, Jin-Ho Choi, Han-Wook Yoo
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  ABSTRACT: Copper-induced toxicity is important in the pathogenic process of Wilson's disease (WD). Using Long-Evans Cinnamon (LEC) rats, an animal model of WD, the study was undertaken to identify proteins involved in the process of WD and to investigate their functional roles in copper-induced hepatotoxicity. In early stages, expression levels of mitochondrial matrix proteins including agmatinase, isovaleryl coenzyme A dehydrogenase, and cytochrome b5 were downregulated. As mitochondrial injuries progressed, along with subsequent apoptotic processes, expressions of malate dehydrogenase 1, annexin A5, transferrin, S-adenosylhomocysteine hydrolase, and sulfite oxidase 1 were differentially regulated. Notably, the expression of malate dehydrogenase 1 was downregulated while the annexin A5 was overexpressed in an age-dependent manner, indicating that these proteins may be involved in the WD process. In addition, pronounced under-expression of S-adenosylhomocysteine hydrolase in elderly LEC rats, also involved in monoamine neurotransmitter metabolism, indicates that this protein might be related to the development of neurological manifestations in WD. The results of our study help to understand the pathogenic process of WD in hepatic tissues, identifying the important proteins associated with the disease process of WD, and to investigate the molecular pathogenic process underlying the development of neurological manifestations in WD.
  Proteomics 07/2011; 11(18):3698-705. · 4.43 Impact Factor
• Article: Low prevalence of classical galactosemia in Korean population.

  Beom Hee Lee, Chong Kun Cheon, Jae-Min Kim, Minji Kang, Joo Hyun Kim, Song Hyun Yang, Gu-Hwan Kim, Jin-Ho Choi, Han-Wook Yoo
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  ABSTRACT: This study described the clinical and molecular genetic features of classical galactosemia in Korean population to contribute to the insight in the spectrum of galactosemia in the world, as little is known about the spectrum and incidence of galactosemia in Asia. During the 11-year study period, only three Korean children were identified as having classical galactosemia on the basis of the enzymatic and molecular genetic analysis. Asians have been reported to have mutations distinct from those of Caucasians and African Americans, indicating that galactose-1-phosphate uridyltransferase mutations are ethnically diverse. Our three patients had a total of three mutations (c.252+1G > A, p.Q169H and p.E363K), two of which were novel (p.E363K and c.252+1G > A) mutations. Interestingly, c.252+1G > A, which leads to skipping of exon 2, was observed in all three patients (three of six alleles), indicating that this mutation may be common in Koreans with classical galactosemia. Screening for classical galactosemia in 158,126 Korean newborns identified no patient with classical galactosemia. In conclusion, our findings provide further evidence for the ethnic diversity of classical galactosemia, which may be as rare in Koreans as in other Asian populations.
  Journal of Human Genetics 01/2011; 56(1):94-6. · 2.57 Impact Factor
• Article: Influence of parental origin of the X chromosome on physical phenotypes and GH responsiveness of patients with Turner syndrome.

  Jung Min Ko, Jae-Min Kim, Gu-Hwan Kim, Beom Hee Lee, Han-Wook Yoo
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  ABSTRACT: Previous studies have reported the effects of parental origin of the X chromosome on specific phenotypic and cognitive profiles in Turner syndrome (TS). Here, we investigate the possible parent-of-origin effects on physical phenotypes and responsiveness to GH in Korean patients with TS. Thirty-three patients with TS with nonmosaic karyotype and their parents participated in this study. The parental origin of the normal X chromosome was determined by comparing parental DNA polymorphisms using nine highly polymorphic microsatellite markers on the X chromosome. For the evaluation of parent-of-origin effects, typical phenotypic traits, including congenital malformations, auxological and endocrinological profiles, were compared. The retained X chromosome was of maternal (X(m)) origin in 60.6% patients and paternal (X(p)) origin in 39.4% patients. No significant parent-of-origin effects on stature, body mass index, cardiac, renal, skeletal, lymphatic, hearing or ocular systems were evident. We observed no differences in height gain after GH treatment. In patients with the 45,X karyotype, patient height was positively correlated with maternal height in the X(m) group (r = 0.60, P = 0.04). Moreover, patient height was more significantly correlated with maternal than paternal height, irrespective of the parental origin of the retained X chromosome. While we observed no significant impact of parental origin of the X chromosome on several phenotypic traits in patients with TS, a maternal imprinting effect on stature was suggested at least in patients with 45,X. Further studies on a larger number of patients with TS are essential to define the potential imprinting effects of undetermined genes on the X chromosome.
  Clinical Endocrinology 02/2010; 73(1):66-71. · 3.17 Impact Factor
• Article: The common exon 3 polymorphism of the growth hormone receptor gene and the effect of growth hormone therapy on growth in Korean patients with Turner syndrome.

  Jung Min Ko, Jae-Min Kim, Chong-Kun Cheon, Duk-Hee Kim, Dae-Yeol Lee, Woo Yeong Cheong, Eun Young Kim, Mi Jung Park, Han-Wook Yoo
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  ABSTRACT: Recombinant human growth hormone (GH) can achieve final adult height gain in girls with Turner syndrome (TS), but its efficacy varies widely across individuals. The exon 3-deleted polymorphism of growth hormone receptor (d3-GHR) has been reported to be associated with responsiveness to GH therapy. The short-term growth response of Turner patients to GH therapy was analysed according to their GHR-exon 3 polymorphism genotype. This was a retrospective study of 175 TS patients. Auxological and endocrine parameters were measured, and the GHR-exon 3 genotype was analysed. Allelic frequencies of GHR-exon 3 genotype were compared between patients with TS and control individuals. GH had been administered to 147 patients, 115 of which remained pre-pubertal after the first follow-up year. Changes in height standard deviation score (SDS), height velocity (HV), body mass index (BMI), IGF-1 and IGF binding protein-3 (IGFBP-3) concentrations were compared between these patients, grouped according to genotype, after the first follow-up year. There was no difference in GHR-exon 3 genotype frequency between the TS and control groups of Koreans. According to the GHR-exon 3 genotype (fl/fl group vs. d3/fl and d3/d3 group), HV gain and height SDS gain did not differ significantly at the first year of GH therapy. Moreover, changes in IGF-1, IGFBP-3 concentration and BMI showed no significant difference between the groups with and without d3-GHR after 1 year of GH therapy. The distribution of the GHR-exon 3 genotype was similar in the TS and control groups in a Korean population. The growth promotion efficacy of GH therapy did not differ significantly between TS patients with and without the d3-GHR allele. These findings indicate that the GHR-exon 3 genotype may not be a major factor to affect the GH response in Korean Turner patients.
  Clinical Endocrinology 09/2009; 72(2):196-202. · 3.17 Impact Factor
• Article: PTPN11, SOS1, KRAS, and RAF1 gene analysis, and genotype-phenotype correlation in Korean patients with Noonan syndrome.

  Jung Min Ko, Jae-Min Kim, Gu-Hwan Kim, Han-Wook Yoo
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  ABSTRACT: After 2006, germline mutations in the KRAS, SOS1, and RAF1 genes were reported to cause Noonan syndrome (NS), in addition to the PTPN11 gene, and now we can find the etiology of disease in approximately 60-70% of NS cases. The aim of this study was to assess the correlation between phenotype and genotype by molecular analysis of the PTPN11, SOS1, KRAS, and RAF1 genes in 59 Korean patients with NS. We found disease-causing mutations in 30 (50.8%) patients, which were located in the PTPN11 (27.1%), SOS1 (16.9%), KRAS (1.7%), and RAF1 (5.1%) genes. Three novel mutations (T59A in PTPN11, K170E in SOS1, S259T in RAF1) were identified. The patients with PTPN11 mutations showed higher prevalences of patent ductus arteriosus and thrombocytopenia. The patients with SOS1 mutations had a lower prevalence of delayed psychomotor development. All patients with RAF1 mutations had hypertrophic cardiomyopathy. Typical facial features and auxological parameters were, on statistical analysis, not significantly different between the groups. The molecular defects of NS are genetically heterogeneous and involve several genes other than PTPN11 related to the RAS-MAPK pathway.
  Journal of Human Genetics 12/2008; 53(11-12):999-1006. · 2.57 Impact Factor