Abstract
To characterize the clinical, autoimmune, and genetic features in Japanese adult-onset diabetic patients with GAD autoantibodies. GAD autoantibodies (GADab) were screened in 4,980 diabetic patients with age of onset >20 years in the hospital-based Ehime Study, and the GADab-positive (GADab(+)) patients were then divided into two groups according to their insulin secretion and compared with nondiabetic subjects. The insulin-deficient state was defined as <0.33 nmol/l serum C-peptide (CPR) at 2 h postprandial or 6 min after a 1-mg glucagon load. GADab was detected in 188 (3.8%) of the 4,980 diabetic patients tested. Of these patients, 72 (38.3%) were classified as insulin deficient, 97 (51.6%) were classified as non-insulin deficient, and 19 (10.1%) were unclassified. The GADab(+) insulin-deficient patients were characterized by young age at onset of diabetes, low BMI, low maximum BMI, and high levels of HbA(1c). The prevalence of IA-2 autoantibodies and thyrogastric autoantibodies in the GADab(+) insulin-deficient patients were significantly higher than those in the GADab(+) non-insulin-deficient patients (P < 0.05). GADab(+) patients with insulin deficiency had increased frequencies of HLA DRB1*0405-DQB1*0401, *0802-*0302, and *0901-*0303 haplotypes, whereas the frequency of only HLA DRB1*0405-DQB1*0401 was increased in the case of GADab(+) non-insulin-deficient patients. Of note is the fact that the GADab(+) non-insulin-deficient group did not differ from healthy control subjects with respect to type 1 diabetes protective haplotype HLA DRB1*1502-DQB1*0601. A total of 13% of the GADab(+) patients with diabetes had genotypes comprising the DRB1*1501-DQB1*0602 or *1502-*0601 and were characterized by old age at onset of diabetes, high BMI, resistance to the insulin-deficient state, low titer of GADab, and low frequency of other organ-specific autoantibodies. We conclude that GADab(+) non-insulin-deficient patients differ from GADab(+) patients with insulin deficiency with respect to clinical characteristics, humoral autoimmunity to other organ-specific autoantibodies, as well as HLA class II genes.
Highlights
HARUYO TAKEDA, MD1 EIJI KAWASAKI, MD2 IKKI SHIMIZU, MD3 ETSUSHI KONOUE, MD4 MASAO FUJIYAMA, MD5 SATOSHI MURAO, MD6 KIYONOBU TANAKA, MD7 KENNICHI MORI, MD8 YOSHINAO TARUMI, MD9 ISAMU SETO, MD10 YASUHISA FUJII, MD3 KENICHI KATO, MD3 SHIORI KONDO, MD4
Clinical characteristics of adultonset diabetic patients with GAD autoantibodies Of the 4,980 patients with adult-onset diabetes that were screened, GADab was detected in 188 (3.8%) patients, whereas only 1 of the 190 (0.6%) control subjects was positive for GADab (P Ͻ 0.005)
The frequency of insulin-deficient patients was significantly higher in patients who were Ͻ30 years old at onset of diabetes than in patients who were Ն30 years old at onset (16/19, 84.2% vs. 49/139, 35.3%, P Ͻ 0.0001)
Summary
Autoimmune, and Genetic Characteristics of Adult-Onset Diabetic Patients With GAD Autoantibodies in Japan (Ehime Study). Some Japanese patients are characterized by persistent islet cell antibody (ICA) positivity and a slowly progressive deterioration of -cell function through the non– insulin-dependent state and to an insulin-dependent state for several years [6] This subset of type 1 diabetes is referred as the slowly progressive form of type 1 diabetes (SPIDDM), latent autoim-. This study was conducted to clarify the clinical, autoimmune, and genetic characteristics of adult GADab-positive (GADabϩ) Japanese diabetic patients in non–insulin-deficient state and to compare these characteristics with those of GADabϩ patients in insulin-deficient stages
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