Tatsuya Nishimiya

Differences in the Contribution of HLA-DR and -DQ Haplotypes to Susceptibility to Adult- and Childhood-Onset Type 1 Diabetes in Japanese Patients

To clarify heterogeneity in Japanese adult-onset type 1 diabetes, we analyzed the HLA-DR and -DQ haplotypes, depending on the clinical phenotype, and compared them with those in childhood-onset type 1 diabetes (CO). The patients in a previously reported Ehime Study were divided into subgroups by the mode of onset of diabetes: 68 acute-onset type 1 diabetic patients (AO) and 28 slowly progressive type 1 diabetic patients (SO). HLA haplotypes were compared with those of 80 CO patients and 190 control subjects. Two major susceptible HLA haplotypes in the Japanese, DRB1*0405-DQB1*0401 (DR4) and DRB1*0901-DQB1*0303 (DR9), were significantly increased in the AO and CO groups, but only DR9 was increased in the SO group. AO subjects had a higher frequency of DR9 than CO subjects. Accordingly, the DR9:DR4 frequency increased with increasing age of onset. Another susceptible haplotype, DRB1*0802-DQB1*0302 (DR8), was involved only in the CO group. Analysis of haplotype combinations revealed that DR4 and DR9 had significant dosage effects on the AO and CO groups (P < 0.0001), but only DR9 had such an effect in the SO group (P < 0.03). These results suggest differences in the contribution of HLA class II haplotypes to susceptibility of type 1 diabetes depending on the clinical phenotype and also indicate that HLA class II haplotypes may be associated with the onset age of type 1 diabetes.

Estimation of the Initial Dose Setting of Vancomycin Therapy With Use of Cystatin C as a New Marker of Renal Function

In recent years, it has been suggested that the glomerular filtration rate (GFR) can be predicted on the basis of serum cystatin C concentrations and that this measurement is more sensitive than serum creatinine concentration as a marker of renal function. In this study, to investigate the clinical utility of the initial dose setting of vancomycin by the population mean method with use of serum cystatin C as a marker of renal function, we compared the correlations between measured vancomycin concentrations and predicted vancomycin concentrations based on serum cystatin C or serum creatinine concentrations in elderly (≥65 years old) and nonelderly (<65 years old) patients. An analysis of prediction accuracy (bias) and precision was evaluated by calculating the mean prediction error (ME), the mean absolute error (MAE), and the root mean squared prediction error (RMSE). For nonelderly patients (n = 50), there was no significant difference in the MAE based on the use of serum creatinine or serum cystatin C concentration. However, for elderly patients (n = 105), the MAE based on serum cystatin C concentration was significantly better than that based on serum creatinine level. These results suggest that serum cystatin C is a good marker of renal function in comparison with serum creatinine for dose setting of vancomycin, especially in an elderly population.

Population Pharmacokinetic Analysis of Vancomycin Using Serum Cystatin C as a Marker of Renal Function

ABSTRACT We determined the population pharmacokinetics of vancomycin (VAN) using the glomerular filtration rate (GFR) estimated from the serum cystatin C concentration. We examined the predictive performance of the trough serum VAN concentration for determination of the initial dose by using a new model for the analysis of the population pharmacokinetic parameters. Data for 86 patients were used to estimate the values of the population pharmacokinetic parameters. Analysis with a nonlinear mixed-effects modeling program was done by using a one-compartment model. Data for 78 patients were used to evaluate the predictive performance of the new model for the analysis of population pharmacokinetic parameters. The estimated GFR values determined by using Hoeks formula correlated linearly with VAN clearance (VAN clearance [ml/min] = 0.825 × GFR). The mean volume of distribution was 0.864 (liters/kg). The interindividual variability of VAN clearance was 19.8%. The accuracy of the prediction determined by use of the new model was statistically better than that determined by use of the Japanese nomogram-based model because the 95% confidence interval (−3.45 to −1.38) of the difference in each value of the mean absolute error (−2.41) did not include 0. Use of the serum cystatin C concentration as a marker of renal function for prediction of serum VAN concentrations may be useful.

The absence of evidence for major effects of the frequent SNP +299G>A in the resistin gene on susceptibility to insulin resistance syndrome associated with Japanese type 2 diabetes

Resistin, specifically secreted from adipocytes, antagonizes insulin and represents a promising candidate gene for type 2 diabetes. We reported that a frequent single nucleotide polymorphism (SNP) +299G>A in this gene is not associated with type 2 diabetes. To determine whether this SNP affects insulin resistance syndrome associated with type 2 diabetes, we examined its effects on susceptibility to obesity, hyperlipidemia and hypertension in type 2 diabetic subjects and on susceptibility to type 2 diabetes by interaction with other frequent genes involved in lipid metabolism, namely, beta3-adrenergic receptor (b3AR) Trp64Arg, phosphodiesterase 3B (PDE3B) c.1389G>A or lysosomal acid lipase (LAL) Thr-6Pro. The 99 type 2 diabetic and 99 control subjects were typed by PCR direct sequencing or PCR-RFLP. No differences in frequencies of obesity, hyperlipidemia and hypertension were found between the type 2 diabetic subjects with G/G and those with G/A or A/A genotypes of the resistin SNP. When the combination of the resistin SNP with each of b3AR, PDE3B and LAL SNPs was assessed, no association with type 2 diabetes was evident. Therefore, the frequent SNP +299G>A in the resistin gene is unlikely to have major effects on susceptibility to insulin resistance syndrome associated with type 2 diabetes in Japanese subjects.

Phosphodiesterase 3B gene expression is enhanced in the liver but reduced in the adipose tissue of obese insulin-resistant db/db mouse

Phosphodiesterase (PDE) 3B, when activated by insulin, causes a decrease in intracellular cAMP concentration. The activation of this enzyme results in the reduced output of free fatty acids (FFA) from adipocytes, and an increased lipogenesis in liver. We have recently shown that PDE3B gene expression is reduced in adipose tissues of KKAy mice. We intend to further elucidate the regulation of PDE3B in liver as well as adipose tissues in relation to the insulin resistant state. We examined PDE3B gene expression in liver and adipose tissues of obese, insulin-resistant diabetic db/db mice and also checked the effect of an insulin-sensitizing drug, troglitazone, on this gene expression. In the liver of db/db mice, PDE3B mRNA, its corresponding protein, and the associated catalytic activity were all increased by 2.1, 1.9 and 1.6-fold, respectively, over those in db/+ control mice. Histological examination revealed substantial triglyceride storage in the liver of db/db mice. Conversely, in the adipose tissue of db/db mice, PDE3B mRNA, protein, and its associated activity were all decreased by 0.38, 0.33 and 0.36-fold, respectively. Troglitazone, which has no effect on PDE3B in liver, increased the expression of this gene in adipocytes. This increase is associated with a reduction in the elevated levels of serum insulin, glucose, FFA and triglycerides. The reduced PDE3B gene expression in adipose tissues, which results in the elevation of serum FFA, could be the primary event in the development of insulin resistance in db/db mice. The enhanced PDE3B gene expression may correlate with changes in triglyceride storage in the liver of these mice.

Plasma Resistin Is Associated With Single Nucleotide Polymorphisms of a Possible Resistin Receptor, the Decorin Gene, in the General Japanese Population

Resistin is an adipokine secreted from adipocytes in mice. We previously reported that a single nucleotide polymorphism (SNP) –420 (rs1862513) in the human resistin gene (RETN), is correlated with plasma resistin. Decorin is a multifunctional proteoglycan, and its isoform, lacking 14 amino acids from the N terminal region of mature core decorin, recently was identified as a resistin receptor in mice. To examine whether SNPs in the vicinity of the human decorin gene (DCN) are associated with plasma resistin, we cross-sectionally analyzed six tag SNPs selected around DCN in the same linkage disequilibrium block in 2,078 community-dwelling Japanese subjects. Plasma resistin was associated with the rs7139228, rs7956537, rs516115, and rs3138167 genotypes in DCN. A multiple regression analysis revealed that the genotype of rs7308752 (G/G) or rs516115 (C/C) was associated with decreased plasma resistin after adjusted for age, sex, BMI, and the RETN SNP rs1862513. The effect of rs7139228 and rs1862513 seemed to be additive without synergistic interaction. Therefore, plasma resistin was associated with some tag SNPs around DCN in the general Japanese population. The possibility that human decorin is a human resistin receptor should be pursued.

Differential regulation of gene expression and insulin-induced activation of phosphodiesterase 3B in adipocytes of lean insulin-resistant IRS-1 (−/−) mice

Phosphodiesterase (PDE) 3B, a major isoform of PDE in adipocytes, mediates the antilipolytic action of insulin. PDE3B gene expression is generally reduced in adipocytes of either monogenic or polygenic rodent models of obese, insulin-resistance. An increased fat cell size, a common feature of obesity, could account for this reduction. Insulin receptor substrate-1 (IRS-1) (-/-) mice are lean with a reduced fat cell size and have insulin resistance due to a primary defect of insulin signaling. To determine whether the regulation of PDE3B gene expression is correlated with fat cell size, we examined this gene expression in adipose tissues of IRS-1 (-/-) mice. In IRS-1 (-/-) mice, PDE3B mRNA and protein levels were increased 1.24- and 1.35-fold those in C57BL/6J control mice, respectively. Independently, the fold induction of PDE activity by insulin (insulin-induced/basal) was 1.7-fold in control mice, but was reduced to 1.35-fold in IRS-1 (-/-) mice. Thus, PDE3B gene expression may be inversely correlated with a fat cell size, whereas insulin-induced PDE3B activation is mediated through IRS-1.

Impact of heart rate variability on C-reactive protein concentrations in Japanese adult nonsmokers: The Toon Health Study

OBJECTIVE Lower heart rate variability (HRV) is associated with the inflammation that is linked with the progression of atherosclerosis. We examined this association, taking insulin sensitivity into consideration, as it is related to both HRV and inflammation. METHODS Subjects were 1728 individuals ages 30-79 years who did not smoke between 2009 and 2012. C-reactive protein (CRP) concentrations and white blood cell (WBC) counts were assessed as markers of inflammation. The homeostasis model assessment index for insulin resistance (HOMA-IR) and Gutts insulin sensitivity index (ISI) were calculated based on fasting and 2h-post-load glucose and insulin concentrations in a 75-g oral glucose tolerance test. Pulse was recorded for 5 min, and time-domain HRV indices of standard deviation of NN intervals (SDNN) and root mean square of successive differences (RMSSD) were calculated. Power spectral analysis provided frequency domain measures of HRV: high frequency (HF) power, low frequency (LF) power and LF/HF. RESULTS Sex and age-adjusted logistic models presented quartiles of SDNN, RMSSD, LF, and HF significantly associated with the highest quartile of CRP or WBC. After adjustment for body mass index and ISI, the associations were attenuated for WBC; however, even after further adjustment for several variables, SDNN, RMSSD, LF, and HF remained significantly associated with elevated CRP concentrations. When results were stratified by weight, the associations appeared more evident among non-overweight individuals. CONCLUSION Lowered HRV, primarily due to parasympathetic dysfunction, was associated with elevated inflammation, independent of weight, insulin sensitivity, and other related factors.

Identification of novel C253Y missense and Y864X nonsense mutations in the insulin receptor gene in type A insulin‐resistant patients

Mutations in the insulin receptor gene have been reported in cases of type A insulin resistance. We report herein two cases of type A insulin resistance, which involve some novel mutations. Case 1 is a heterozygote of the C253Y missense mutation and case 2 is a heterozygote of the Y864X nonsense mutation. In the C253Y missense mutation in exon 3, a cysteine residue is replaced with tyrosine in the cysteine‐rich domain of the α subunit. The Y864X in exon 13 results in a truncated receptor, which is devoid of most of the β subunit. This mutant receptor could not be expressed on a cell membrane since the transmembrane domain is missing. Other significant mutations were not found for the entire coding regions and splice/donor sites.

Evaluation of the clinical application of cystatin C, a new marker of the glomerular filtration rate, for the initial dose-setting of arbekacin

Objective: Recent studies have shown that serum cystatin C is a better marker for measuring the glomerular filtration rate (GFR) than the conventional method, using serum creatinine concentration. The purpose of this study is to evaluate the clinical application of serum cystatin C as a marker of GFR to determine the initial dosage of arbekacin, an antibiotic primarily excreted via the kidneys. In this study, the predictability of serum arbekacin peak and trough concentrations were assessed using estimated population mean GFR values calculated from either serum creatinine (Cockcroft–Gault equation) or cystatin C (Sjöström equation) concentrations.