Yoshihiko Yamaguchi

Glucose tolerance, insulin secretion, and insulin sensitivity in nonobese and obese Japanese subjects.

OBJECTIVE To investigate the relative contributions of insulin secretion and insulin resistance to the development of glucose intolerance in Japanese subjects. RESEARCH DESIGN AND METHODS A cross-sectional study of 756 Japanese subjects (530 nonobese, 226 obese) was performed. A 75-g oral glucose tolerance test (OGTT) was given, and subjects were classified according to the World Health Organization (WHO) criteria (normal glucose tolerance [NGT], impaired glucose tolerance [IGT], and diabetes). Early-phase insulin secretion was assessed by the insulinogenic index (the ratio of the increment of insulin to that of plasma glucose [PG] 30 min after a glucose load [ΔIRI0-30 min/Δ PG0-30 min]). Total insulin secretion was assessed by mean immunoreactive insulin (IRI) during the OGTT, and insulin resistance was assessed by use of the homeostasis model [HOMA(R)]. RESULTS Early-phase insulin secretion was significantly decreased in IGT, compared with patients with NGT, in both the nonobese and obese subjects (0.70 ± 0.05 vs. 0.37 ± 0.03, P < 0.01 and 1.36 ± 0.19 vs. 0.73 ± 0.08, P < 0.01, respectively). However, mean IRI and HOMA(R) in both nonobese and obese subjects with IGT and NGT were not statistically different. Subjects with diabetes showed a significant decline in early-phase and total insulin secretion and a significantly higher level of insulin resistance than did subjects with IGT. When the fasting glucose (FPG) exceeded 100 mg/dl, early-phase insulin decreased progressively. The graphed relationship between FPG and mean IRI did not show an inverted U-shape, and mean IRI decreased progressively when FPG exceeded 100–130 mg/dl. The pattern of changes in insulin secretion and insulin resistance associated with the progression of glucose intolerance was similar in both the nonobese and obese subjects. CONCLUSIONS The worsening from NGT to IGT in Japanese subjects may be associated with a decrease in early-phase insulin secretion in nonobese as well as in obese subjects. Hyperinsulinemia in IGT is not common. We suggest that impaired early-phase insulin secretion may be the initial abnormality in the development of glucose intolerance in Japanese people. Insulin resistance may be a consequence of hyperglycemia and/or obesity.

Autoantibodies to glutamic acid decarboxylase in patients with IDDM and autoimmune thyroid disease

Autoantibodies to glutamic acid decarboxylase (GAD), previously reported to be the 64,000-Mr (64K) islet cell protein, were measured by a radioimmunoassay using purified pig brain GAD in 29 insulin-dependent diabetes mellitus (IDDM) patients with autoimmune thyroid disease (AITD) and in 29 sex- and disease duration-matched IDDM patients without AITD. Islet cell antibodies (ICAs) and 64K antibodies were also determined. In IDDM patients with short-duration diabetes (<1 year), the prevalence and levels of GAD antibodies were 100% (8 of 8) and 609 ± 166 U (means ± SE), respectively, in IDDM patients with AITD and 81.8% (9 of 11) and 90 ± 51 U, respectively, in patients without AITD. In patients with long-standing IDDM (3–22 years), the prevalence and levels of GAD antibodies were 76.2% (16 of 21) and 193 ± 66 U, respectively, in patients with AITD and 50.0% (9 of 18) and 36 ± 14 U, respectively, in patients without AITD. For up to 6 years after the onset of IDDM, the levels of GAD antibodies in IDDM patients with AITD were significantly higher than in IDDM patients without AITD. A close and significant correlation was found between GAD antibodies and ICA or 64K antibodies in IDDM patients with AITD. Our results demonstrate that high levels of GAD antibodies were present in IDDM patients with AITD. The observed differences in GAD immunoreactivity between IDDM patients with and without AITD might help evaluate the role of GAD antibodies in IDDM.

Prevalence of Mutations in the Insulin Receptor Gene in Subjects With Features of the Type A Syndrome of Insulin Resistance

Mutations of the insulin receptor gene are a cause of the type A syndrome of extreme insulin resistance. This study assessed the prevalence of such mutations in women with clinical features of the type A syndrome including ovarian hyperandrogenism, moderate-to-severe degrees of insulin resistance, and acanthosis nigricans. We studied 22 unrelated women with insulin resistance (fasting insulin >300 pM [50 μU/ml] and/or peak during an oral glucose tolerance test (OGTT) > 1,800 pM [300 μU/ml]), acanthosis nigricans, and the polycystic ovary syndrome (hyperandrogenemia, oligoamenorrhea, and hirsutism). Two insulin-resistant probands with congenital generalized lipodystrophy and one male proband with severe insulin resistance also were included in the study. Southern blotting experiments were performed to exclude gross gene deletions, insertions, or rearrangements. Exons 2–22 of the insulin receptor gene were polymerase chain reaction (PCR) amplified from genomic DNA and screened for nucleotide variation using single-strand conformation polymorphism (SSCP). No nucleotide variation between study subjects was detected in exons 4–6, 10–12, 15, 16, 18, 19, or 21. Sequencing of amplified DNA revealed that SSCP variants in exons 2, 3, 8, 9, and 17 corresponded to known silent polymorphisms within the coding region. Variants in exons 2, 9, 13, and 14 were caused by novel silent polymorphisms; variants in exons 7 and 22 were caused by nucleotide substitutions in flanking introns. One proband was found to have a heterozygous point mutation in exon 20 (CGG→CAG, Arg1174→Gln) that involves the intracellular receptor β-subunit. Gin1174 is a novel mutant of the insulin receptor tyrosine kinase domain and is a likely cause of dominantly inherited insulin resistance. The mutation was present in an affected sister but was absent in the unaffected mother and 64 normal alleles. Two paternal aunts also are reportedly affected. The results of this study suggest that mutations at the insulin receptor locus are uncommon in insulin-resistant women with acanthosis nigricans and ovarian hyperandrogenism.

Effects of voglibose on glycemic excursions, insulin secretion, and insulin sensitivity in non-insulin-treated NIDDM patients

OBJECTIVE To investigate the effects of voglibose, an α-glucosidase inhibitor, on daily glycemic excursions, insulin secretion, and insulin sensitivity in non-insulin-treated NIDDM patients. RESEARCH DESIGN AND METHODS An open prospective study was conducted in 27 NIDDM patients receiving diet therapy alone or treatment with a sulfonylurea drug. Of the study subjects, 14 patients were treated with voglibose; the remaining 13 patients served as the control group. The metabolic parameters were evaluated before treatment and at week 4 of treatment as follows: glycemic excursions by M-value and 1,5-anhydro-D-glucitol (1,5-AG), insulin secretion by area under the curve of daily serum insulin (AUCinsulin), and insulin sensitivity by the K index of the insulin tolerance test (KITT). RESULTS After the study treatment, HbA1c and plasma glucose in the patients who had received voglibose were comparable to those of patients in the control group. M-value was lower in the patients treated with voglibose than in the control subjects (5.7 ± 0.9 vs. 9.8 ± 1.2, P < 0.05). 1,5-AG was higher in the patients treated with voglibose than in the control subjects (12.2 ± 1.0 vs. 8.2 ± 0.7 μg/ml, P < 0.01). A statistically significant decrease in AUCinsuiin occurred after treatment with voglibose (2,223.5 ± 390.6 to 1,546.7 ± 303.4 pmol · l−1 · h, P < 0.05), but no change occurred in the control group (2,364.5 ± 315.4 to 2,464.2 ± 269.3 pmol · l−1 · h, P = 0.60). Insulin sensitivity (KITT) was improved to a statistically significant level in both the patients treated with voglibose and the patients in the control group. KITT in the patients after voglibose treatment was comparable to that of the control group (3.18 ± 0.30 vs. 3.21 ± 0.23%/min, P = 0.94). CONCLUSIONS The results suggest that voglibose lowers the daily glycemic excursions and inhibits overwork of the pancreatic β-cells but has little effect on insulin sensitivity in NIDDM patients.

Effects of hyperglycaemia on sorbitol and myo-inositol contents of cultured embryos: treatment with aldose reductase inhibitor and myo-inositol supplementation

SummaryTo demonstrate the myo-inositol depletion hypothesis in hyperglycaemia-induced embryopathy, rat conceptuses of 9.5 days of gestation in the early head-fold stage were grown in vitro during neural tube formation for 48 h with increasing amounts of glucose. The effects of an aldose reductase inhibitor and the myo-inositol supplementation were also investigated. Sorbitol and myo-inositol contents were measured in separated embryos and extra-embryonic membranes including yolk sac and amnion at the end of culture. After addition of 33.3 mmol/l and 66.7 mmol/l glucose to the culture media, the myo-inositol content of the embryos was significantly decreased by 43.1% (p<0.05) and 64.6% (p < 0.01) of the control group, while a marked accumulation of sorbitol was observed (25 and 41 times that of the control). Although the addition of an aldose reductase inhibitor (0.7 mmol/l) to the hyperglycaemic culture media containing an additional 66.7 mmol/l glucose significantly reduced the sorbitol content of embryos to approximately one-eighth, the myo-inositol content of embryos remained decreased and the frequency of neural lesions was unchanged (23.1% vs 23.9%, NS). Supplementation of the myo-inositol (0.28 mmol/l) completely restored the myo-inositol content of the embryos and resulted in a significant decrease in the frequency of neural lesions (7.1% vs 23.9%, p < 0.01) and a significant increase in crown-rump length and somite numbers. Much less significantly, sorbitol accumulation was also observed in the extra-embryonic membrane in response to hyperglycaemia, neither hyperglycaemia nor the myo-inositol supplementation modified the myo-inositol contents of the extra-embryonic membrane. We conclude that the mechanism of hyperglycaemia-induced teratogenicity was mediated by the myo-inositol depletion of the embryo at a critical stage of organogenesis.

Genetic association between interleukin-10 gene promoter region polymorphisms and type 1 diabetes age-at-onset

This study investigated whether interleukin-10 (IL-10) gene promoter region polymorphisms are associated with susceptibility to or clinical presentation of type 1 diabetes. The frequency of -1082G/A, -819C/T, and -592C/A polymorphisms was analyzed in 128 Japanese patients with type 1 diabetes and in 107 healthy control subjects in a case-controlled study. The allelic and haplotypic frequencies of the IL-10 gene promoter region polymorphisms were similar in patients with type 1 diabetes and in control subjects. However, the -819T and -592A allele were associated with adult-onset (>18 years) of the disease (p = 0.037). Furthermore, the frequency of ATA haplotype was increased in adult-onset patients than that in early-onset patients (< or =18 years; p = 0.037). Among the genotypes comprising ATA haplotype, the frequency of ATA/ATA was significantly higher in adult-onset patients than in early-onset patients (p = 0.004). These results suggest that the IL-10 gene promoter polymorphisms are associated with the age-at-onset in Japanese patients with type 1 diabetes.

CTLA4 gene polymorphism correlates with the mode of onset and presence of ICA512 Ab in Japanese Type 1 diabetes

Recently, the association of CTLA4 gene polymorphism with type 1 diabetes and AITD has been reported in several populations. CTLA4 was originally reported to regulate T-cell activity and T-B cognate interaction. To investigate the role of CTLA4 in autoimmune diseases, we examined the correlation between CTLA4 gene polymorphism and the clinical characteristics of Japanese patients with type 1 diabetes, including the mode of onset of diabetes and presence of islet-specific autoantibodies (GAD, ICA 512 Ab) in the serum. We studied 111 patients with type 1 diabetes and 445 normal subjects. CTLA4 exon 1 position 49 (A/G: codon 17: Thr/Ala) polymorphism was defined, employing PCR-RFLP. Sixty-three (57%) patients had AITD. The allele frequencies of G and A in both 111 patients (G: 65%; A: 35%) and 63 patients (G: 62%; A: 38%) were not significantly different from the control subjects (G: 63%; A: 37%). Serum samples of 69 patients were obtained within a year after onset and used for pancreas specific autoantibodies analysis. These samples were also used for further analysis between CTLA4 gene polymorphism and clinical characteristics. The allele frequencies of G and A in patients who presented with diabetic ketoacidosis (DK+) (G: 75%; A: 25%) were significantly different from those in DK- patients (G: 50%, A: 50%, P = 0.003). Allele and genotype analyses showed significant differences between DK+ patients and control subjects (P = 0.014, P = 0.046, respectively). Allele frequencies of G and A were not significant between patients who were positive and negative for GAD Ab, but significant for ICA 512 Ab (G: 83%, A:17% versus G: 59%, A: 41%: positive patients versus negative patients, P = 0.004). Our results showed a significant correlation between CTLA4 gene polymorphism and ICA 512 Ab. Our results also indicated that CTLA4 gene polymorphism is associated with the onset mode of Japanese type 1 diabetes and the presence of ICA512 Ab. Further analysis of this polymorphism is necessary to fully understand the pathogenesis and progression of type 1 diabetes.

Effects of Brief Exposure to Insulin-Induced Hypoglycemic Serum During Organogenesis in Rat Embryo Culture

We have previously shown that long-term exposure to medium containing insulin-induced hypoglycemic serum during the early phase of organogenesis can adversely affect embryonic development in rat embryo culture and that these effects were mediated through the interruption of glycolytic flux that constituted the principal pathway at this embryonic stage. Further experiments were performed to examine whether brief exposure to the hypoglycemic medium during critical developmental periods would have adverse effects on embryogenesis during embryo culture not only in normal but also in high glucose concentrations. Rat embryos in the early head-fold stage (9.5 days gestation) were grown in vitro for 48 h until neural tube closure occurred; dysmorphogenic lesions were not elicited in either the basal culture medium containing 6.6 mM glucose (control medium) or the hyperglycemic medium supplemented with glucose at a concentration of 33.3 mM. Hypoglycemic mediums (2.2−2.5 mM glucose) were prepared from the serum of rats given insulin intraperitoneally. Postimplantation embryos (in early neural tube formation) were briefly exposed (1 h) to hypoglycemic medium on day 10.3 of gestation during the basal culture. After exposure to the hypoglycemic medium for 1 h during culture in the control medium, embryos showed minor growth retardation and dysmorphogenic lesions (7.1% open neural pores). Exposure to the hypoglycemic medium for 1 h during culture in hyperglycemic medium supplemented with a subteratogenic concentration of glucose (33.3 mM) resulted in greater growth retardation and increased occurrence of dysmorphogenic lesions (17.3% open neural pores). These results indicate that even brief exposure to hypoglycemia can adversely affect embryogenesis at the critical developmental period, and these effects are enhanced when embryos are cultured in hyperglycemic medium.

Effects of Cyclosporin A and Low Dosages of Steroid on Posttransplantation Diabetes in Kidney Transplant Recipients

Objective To investigate the adverse effects of cyclosporin A (CsA) on pancreatic beta-cell function in kidney transplant recipients. Research Design and Methods The study consisted of 73 patients without a history of diabetes mellitus who had undergone kidney transplantation in our clinic. Results We experienced a higher incidence of posttransplantation diabetes mellitus (PTDM) in patients receiving CsA and low dosages of methylprednisolone (6/20, 30%, P < 0.05) than in patients receiving conventional therapy of azathioprine methylprednisolone (4/53, 7.5%) since the introduction of CsA. In all 6 patients in the CsA-treated group, PTDM occurred within 3 mo after transplantation. The CsA level during the initial 3 mo posttransplant was significantly higher in diabetic than nondiabetic subjects, and the highest CsA level was observed shortly (1 mo) before the development of PTDM. After an average of 71 days of insulin therapy, there was complete remission of PTDM in 5 of 6 diabetic patients, with a corresponding decrease in CsA level. For the patients who were in remission for > 1 yr, a significant improvement of glucose intolerance was observed in association with a significantly higher insulin response to oral glucose load; however, their glycemic profile still showed a significantly higher plasma glucose concentration and a prolonged continuous elevation without initial peak of the insulin-response curve in contrast to the normal pattern found in nondiabetic subjects in the CsA-treated group. Conclusions This study suggests that CsA in combination with low dosages of steroid may have adverse effects on glucose metabolism, which may lead to effects similar to those in non-insulin-dependent diabetes mellitus.

Effects of hypoglycaemia on early embryogenesis in rat embryo organ culture

SummaryAs congenital malformations may be caused by perturbations of glycolytic flux on early embryogenesis [16], effects of hypoglycaemia were investigated by using rat embryo organ culture. Nine and one-half day old rat embryos were grown in vitro for 48 h (day 9 1/2 to 11 1/2) in the presence of hypoglycaemic serum for different hours during the culture period. Hypoglycaemic serum was obtained from rats given insulin intraperitoneally. On exposure to hypoglycaemic serum during the first 24 h of culture (day 9 1/2 to 10 1/2), embryos showed marked growth retardation and had increased frequencies of neural lesions (42.7% versus 0%, p<0.01), in contrast to hypoglycaemic exposure during the second 24 h of culture (day 10 1/2 to 11 1/2), where only minor growth retardation and low frequencies of neural lesions (2.4% versus 0%, NS) were seen. Even exposure to hypoglycaemic serum for a relatively short period (8 h) during the first 24 h of culture resulted in neural lesions at the frequency of 9.3–13.3%. The embryos exposed to hypoglycaemia demonstrated decreased glucose uptake and lactic acid formation, indicating decreased energy production via glycolysis that constitutes the principal energy pathway at this stage of embryonic development. These results suggest that hypoglycaemia during critical periods of embryogenesis has adverse effects on the development of the embryo and these effects might be mediated through metabolic interruption of embryogenesis.