- Leptin Concentration in Diabetin and Non-diabetin Subjects in the Community Population.
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Kee Up Lee, Seong Kwan Hong, Sang Wook Kim, Young Il Kim, Yun Ey Chung, Moo Song Lee, Joong Yeoul Park, Jin Yup Kim
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Korean Diabetes J. 1999;23(4):592-600. Published online January 1, 2001
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Abstract
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- BACKGROUND
It has been suggested that adipose tissue releases leptin, a satiety factor, which circulates in blood and acts on the hypothalamus to suppress appetite. However, serum leptin concentration in obese human subjects is higher than that in lean subjects, suggesting leptin resistance. Although there have been several studies investigating serum leptin concentrations in Korean subjects, there has been no population-based study. This study was undertaken to investigate serum leptin concentration and associated factors in diabetic and non-diabetic subjects living in a rural area of Korea. METHOD: Among 898 subjects originally included in the Jung-up epidemiologic study, 119 men and 124 women with varying degrees of glucose tolerance were randomly selected. Serum leptin concentration was measured by radioimmunoassay. RESULTS: In agreement with previous studies, women had significantly higher serum leptin concentration than men. Serum leptin concentration in Korean men and women was apparently lower than in other populations, even after adjustment for BMI. Leptin concentration was not different among the three groups of glucose tolerance (normal glucose tolerance, impaired glucose tolerance and diabetes). Serum leptin concentration was positively correlated with serum true insulin, proinsulin and BMI in non-diabetic subjects. Serum leptin concentration was also significantly related with serum proinsulin/true insulin ratio in non-diabetic women. CONCLUSION: Serum leptin concentration in Korean subjects was lower than that reported in other populations. Serum leptin concentration was associated with BMI, serum true insulin and proinsulin levels in non-diabetic subjects, but not in diabetic ubjects.
- Prevalence of Islet Cell Autoantibodies and Mitochondrial DNA Mutation among Typical and Atypical Type 1 Diabetic Patients in Korea.
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Hong kyu Lee, Kee Up Lee, Sung Kwan Hong, Byuong Doo Rhee, Dong Seop Choi, Hyoung Woo Lee, Sang Wook Kim, Hee Jin Kim, Nan Hee Kim, Kyong Soo Park, Woo Je Lee, Kyung Soo Ko
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Korean Diabetes J. 1999;23(4):541-551. Published online January 1, 2001
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Abstract
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- BACKGROUND
American Diabetes Association (ADA) proposed new criteria for the classification of diabetic patients, which were mainly based on the presence of autoimmune markers. But it is questionable if we can apply the new ADA criteria to Korean type 1 diabetic patients directly. In this study, we measured several autoantibodies to islet cell in Korean subjects with typical and atypical clinical manifestations of type 1 diabetes mellitus. And mutation of mitochondrial DNA was analyzed in the same patients. METHODS: We measured fasting serum C-peptide in 1870 diabetic patients attending the diabetes clinic of Asan Medical Center. Among the 117 patients with fasting serum C-peptide less than 0.6 ng/mL, glucagon-stimulated C-peptide was measured, and 57 Patients showed the level less than 1 ng/mL and they were diagnosed as type 1 diabetic patients. They were subgrouped into typical (n=26, needed insulin injection within 1 year after diagnosis) and atypical (n=30, did not need insulin for more than l year after diagnosis) type 1 diabetic patients. ICA was measured by indirect immunofluorescence method. Anti-GAD antibody was measured by radioimmunoassay. Anti-ICA512 antibody was measured by western blotting. Mitochondrial DNA 3243 mutation was detected using restriction enzyme Apa-I digestion of the amplified genomic DNA from the subjects. RESULTS: 1) Median age of onset was 40 years for atypical type 1 diabetes patients, while it was 27.5 years for typical type 1 diabetes patients. Average duration of insulin requirement was 0.18 years for typical group and 5.73 years for atypical group. In this series, only typical type 1 diabetic patients experienced diabetic ketoacidosis. 2) Only 50 % of typical type 1 diabetic patients and 47 % of atypical type 1 diabetic patients had at least one autoantibody among ICA, anti-GAD antibody and anti-ICA512 antibody. 3) Mitochondrial DNA 3243 point mutation was detected in 3 patients with atypical type 1 diabetes (10 %), but it was not found in patients with typical type 1 diabetes. CONCLUSION: These results suggest that the prevalence of autoantibodies in Korean type 1 diabetic patients was lower than that reported in Caucasians irrespective of clinical features. Therefore, it may not be easy to apply this new diabetes classification of ADA to Korean type 1 diabetic patients. In addition, mitochondrial DNA mutation may be responsible for some of the Korean atypical type 1 diabetic patients.
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