Synthesis of Two Well-Defined Quadruple-Stranded Copolymers having Two Kinds of Backbones by Postpolymerization of a Helical Template Polymer.

A brand new, soluble quadruple-stranded copolymer is synthesized by using a self-template polymer from a new monomer. In addition, another very unique quadruple-stranded copolymer having a π-π stacking supramolecular polymer main chain is synthesized by selective photocyclic aromatization of the quadruple-stranded copolymer. The two quadruple-stranded copolymers gave self-standing membranes.

Predictors of glycemic control in Japanese subjects with type 2 diabetes mellitus.

The purpose of this study was to investigate which pathophysiological and demographic characteristics of Japanese subjects with type 2 diabetes mellitus were associated with poor glycemic control and to propose a statistical model for predicting their glycemic control. A total of 220 subjects with type 2 diabetes mellitus were enrolled in this study. Frequently sampled intravenous glucose tolerance test was performed to determine the first-phase C-peptide secretion rate (CS1) and insulin sensitivity index. Multiple regression analysis in a stepwise manner was carried out to identify independent regulators of glycemic control. Upon stepwise linear regression analysis with hemoglobin A1c as a dependent parameter, fasting plasma glucose concentration (FPG), CS1, and onset age remained as predictors, explaining 41.0% of glycemic control. The young-onset group (onset age < or =48 years) had significantly higher hemoglobin A1c than the old-onset group (onset age >48 years) (P = .0148), although the present age was significantly older in the old-onset group; and there were no significant differences in duration of diabetes, treatment, body mass index, FPG, fasting insulin level, homeostasis model assessment of insulin resistance, CS1, and log(insulin sensitivity index) between them. Worsening factors of glycemic control in Japanese subjects with type 2 diabetes mellitus were elevated FPG, impaired first-phase insulin secretion, and young age of onset of the disease. Because glycemic control in the subjects with young-onset diabetes tends to be worse, early and aggressive intervention should be required for those with young-onset diabetes to prevent long-term complications.

Development of a novel nano-Invader DNA chip system.

By taking advantage of a homogeneous Invader assay, a miniaturized genotyping chip system termed nano-Invader was developed. The system is sensitive to 0.1 zeptomole of genomic DNA per well without prior PCR amplification. Its accuracy was determined by comparing both the genomic DNA chip and probe chip formats to PCR-RFLP. To determine the assay's capabilities in large-scale analysis, DNA samples from the Coriell Cell Repository and an additional 62-probe sets were tested with the genomic DNA and probe chip nano-Invader formats, respectively. Several hundred samples were genotyped in less than an hour, from purified genomic DNA to data analysis. With its ease of handling, speed, accuracy, sensitivity and cost-effectiveness, this chip system, especially its probe chip format, will meet a demand for high-throughput multiple genotyping in the coming era of personalized medicine.

Serum resistin level is associated with insulin sensitivity in Japanese patients with type 2 diabetes mellitus.

Impaired insulin secretion and decreased insulin sensitivity are the main pathophysiologic features responsible for development of hyperglycemia in type 2 diabetes mellitus. Insulin resistance is often associated with increased adipose tissue mass. To examine which variables influence insulin sensitivity, we compared metabolic parameters, serum resistin, leptin, and adiponectin concentrations to the insulin sensitivity, obtained by frequently sampled intravenous glucose tolerance test using the minimal model analysis, in 113 Japanese patients with type 2 diabetes mellitus. Duration of diabetes, fasting plasma glucose, fasting insulin, homeostasis model assessment of insulin resistance index, and serum resistin concentration were significantly higher in the insulin-resistant subgroup compared with the insulin-sensitive subgroup and correlated with insulin sensitivity. Stepwise regression analysis also identified these parameters as independent regulators of insulin sensitivity. The present study reconfirmed that fasting insulin level or homeostasis model assessment of insulin resistance would be a surrogate measure of insulin resistance and demonstrated that insulin resistance increases progressively after the onset of overt diabetes and that the serum resistin level is associated with insulin sensitivity, suggesting that resistin plays an important role in the development of insulin resistance in Japanese patients with type 2 diabetes mellitus.

The Arg121Trp variant in PAX4 gene is associated with beta-cell dysfunction in Japanese subjects with type 2 diabetes mellitus.

Mutations in PAX4, a transcription factor involved in the beta-cell differentiation, could predispose to the development of type 2 diabetes mellitus. To clarify the role of PAX4 Arg121Trp mutation on the development of type 2 diabetes mellitus, we try to determine the clinical phenotype in diabetic subjects with this mutation. Study subjects consisted of 793 type 2 diabetic patients and 318 control subjects. Genotyping for Arg121Trp polymorphism was performed by Invader assay. Clinical phenotype was determined in diabetic subjects including 20 Trp121 carriers and 142 wild-type subjects using a combination of 2-compartment model of C-peptide kinetics and minimal model analysis during intravenous glucose tolerance test. We detected 3 Trp/Trp, 51 Arg/Trp, and 739 Arg/Arg in diabetic subjects, and 16 Arg/Trp and 302 Arg/Arg in control subjects. The frequency of Trp121 allele was 3.59% and 2.51% in diabetic and control groups, respectively (P = .19). Rate of insulin users was higher in Trp121 carriers compared with the wild-type group (42.5% vs 25.0%, P = .0046). First-phase C-peptide secretion was significantly decreased in the diabetic subjects with Trp121 allele compared with the patients with wild type (P = .0048), whereas there were no significant differences in insulin sensitivity and glucose effectiveness between the groups. Arg121Trp mutation in PAX4 gene could be associated with beta-cell dysfunction in Japanese subjects with type 2 diabetes mellitus.

Five missense mutations in glucagon-like peptide 1 receptor gene in Japanese population.

To address the possibility that the partial disruption of Glucagon-like peptide-1 (GLP-1) signaling could cause diabetes, we tried to detect the mutation in GLP-1 receptor (GLP-1R) gene in the population with type 2 diabetes. Genomic DNA was extracted from 36 unrelated Japanese type 2 diabetic subjects and directly sequenced for the GLP-1R gene. For the detected polymorphisms, 791 patients with type 2 diabetes and 318 controls were screened by polymerase chain reaction-restricted fragment length polymorphism and association study was carried out. Five missense and four silent variants were detected in the GLP-1R gene. There were no significant differences in the frequencies of Pro7Leu, Arg44His and Leu260Pro polymorphism between the diabetic and control groups. And also there were no significant differences in body mass index (BMI), onset age and fasting IRI among the wild type, heterozygote and homozygote of these variants in diabetic patients. Thr149Met mutation was detected in one case among 791 type 2 diabetes patients, but not in control subjects. The patient with this mutation exhibited impairment of both insulin secretion, insulin sensitivity and glucose effectiveness, which may be partially explained by Thr149Met mutation in GLP-1R, though family linkage analysis and function analysis remain to be examined.

Beta-cell dysfunction in late-onset diabetic subjects carrying homozygous mutation in transcription factors NeuroD1 and Pax4.

Polymorphisms in beta-cell transcription factor genes, Ala45Thr in the NeuroD1 gene and Arg121Trp in the Pax4 gene, have been reported. To clarify the role of these mutations in the pathogenesis of late-onset diabetes, we examined the insulin secretion and sensitivity in diabetic patients carrying the homozygous mutation in the NeuroD1 gene or Pax4 gene. We screened for the polymorphisms in NeuroD1 and Pax4 genes in 296 late-onset diabetic patients and 177 unrelated control subjects over 60 years of age. Genotyping was performed by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) followed by direct sequencing. Acute insulin secretion was evaluated using a 2-compartment model analysis of C-peptide kinetics after intravenous glucose load (CS1). Insulin sensitivity was estimated by the insulin-modified minimal model analysis (Si). Four diabetic patients carried the homozygous mutation (Thr/Thr) in the NeuroD1 gene and 3 patients carried the homozygous mutation (Trp/Trp) in the Pax4 gene, while both homozygous mutations were not detected in the control subjects. In patients A, B, C, and D with homozygous mutations in NeuroD1, CS1 (normal range, 6.8 to 18.5 ng/mL/min) was 0.508, 1.481, 1.223, and 1.584 ng/mL/min, respectively, and Si (normal range, 2.6 to 7.6 x 10(-4)/min/[microU/mL]) was 0.727, 3.31, 3.79, and 0.00 x 10(-4)/min/(microU/mL), respectively. In patients X, Y, and Z with homozygous mutation in Pax4, CS was 0.418, 0.208, and 1.279 ng/mL/min, respectively, and Si was 1.11, 2.88, and 0.00 x 10(-4)/min/(microU/mL), respectively. Since acute insulin secretion in response to glucose was markedly impaired and insulin resistance was varied in the patients carrying the homozygous mutations in the NeuroD1 and Pax4 genes, the mutations are ones of the factors involved in the beta-cell dysfunction and do not relate to the insulin resistance. These homozygous mutations appear to play a part in the pathogenesis of beta-cell defect in about 2.5% of Japanese patients with late-onset diabetes.