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A missense mutation of the muscle glycogen synthase gene (M416V) is associated with insulin resistance in the Japanese population (1997)

Shimomura, H. ; Sanke, T. ; Ueda, K. ; [et al.]

Springer

Diabetologia 40 (1997), S. 947-952

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ISSN: 1432-0428

Keywords: Keywords Muscle glycogen synthase ; insulin resistance ; NIDDM ; genetics.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Muscle glycogen synthase (GYS1) is a key enzyme of non-oxidative pathway of glucose metabolism that has been reported to be related to insulin resistance in non-insulin-dependent diabetic (NIDDM) patients. We scanned the GYS1 gene for mutation by single strand conformational polymorphism in 244 non-obese Japanese NIDDM patients and 181 non-diabetic control subjects, and found two missense mutations; Met to Val at position 416 in the exon 10 (M416V) and Pro to Ala at position 442 in the exon 11 (P442A). The P442A mutation was found in only one NIDDM patient treated with sulfonylureas. On the other hand, the M416V mutation was widely found in the Japanese population. The mutant allele frequency in the NIDDM patients (13.7 %) was slightly higher but not statistically significant compared with that in non-diabetic subjects (9.7 %). However, the insulin sensitivity index [SI: × 10− 4× min− 1× (μU/ml)− 1] estimated by Minimal Model analysis in the NIDDM patients carrying the M416V mutation was significantly lower than that in those without the mutation (1.18 ± 0.27, n = 21 vs 2.20 ± 0.20, n = 60, mean ± SEM, p 〈 0.01). Glucose effectiveness, age, body mass index, and levels of glycated haemoglobin and serum lipids were not significantly different between the two groups. The same trend could be seen in non-diabetic subjects (SI: 3.70 ± 0.46, 9 subjects with the mutation vs 5.94 ± 0.66, 19 subjects without the mutation, p 〈 0.05). These findings indicate that the M416V mutation of the GYS1 gene is one of the factors contributing to the insulin resistance in the Japanese population and may play some role in the pathogenesis of NIDDM. [Diabetologia (1997) 40: 947–952]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250050772

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Organization of the human carboxypeptidase E gene and molecular scanning for mutations in Japanese subjects with NIDDM or obesity (1998)

Utsunomiya, N. ; Ohagi, S. ; Sanke, T. ; [et al.]

Springer

Diabetologia 41 (1998), S. 701-705

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ISSN: 1432-0428

Keywords: Keywords Carboxypeptidase E ; processing ; NIDDM ; obesity ; genetics.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Insulin is synthesized in the pancreatic beta cell as a larger precursor molecule proinsulin which is converted to insulin and C-peptide by the concerted action of prohormone convertase 2 (PC2), prohormone convertase 3 (PC3) and carboxypeptidase E (CPE). One of the features of non-insulin-dependent diabetes mellitus (NIDDM) is an elevation in the proinsulin level and/or proinsulin/insulin molar ratio suggesting that mutations in these three proinsulin processing enzymes might contribute to the development of NIDDM. The identification of a mutation in the CPE gene of the fat/fat mouse which leads to marked hyperproinsulinaemia and late-onset obesity and diabetes is consistent with a possible role for mutations in CPE in the development of diabetes and obesity in humans. In order to test this hypothesis, we have isolated and characterized the human CPE gene and screened it for mutations in a group of Japanese subjects with NIDDM and obesity. The human CPE gene consists of 9 exons spanning more than 60 kb. Primer extension analysis identified the transcriptional start site at –141 bp from the translational start site. Single strand conformational polymorphism analysis and nucleotide sequencing of the promoter and entire coding region of the CPE gene in 269 Japanese subjects with NIDDM, 28 nondiabetic obese subjects and 104 nonobese and nondiabetic controls revealed three nucleotide changes, a G-to-T substitution at nucleotide –53, a G-to-A substitution at nucleotide –144 (relative to start of transcription) in the promoter region and a silent G-to-A substitution in codon 219. None of the nucleotide substitutions were associated with NIDDM or obesity. Thus, genetic variation in the CPE gene does not appear to play a major role in the pathogenesis of NIDDM or obesity in Japanese subjects. [Diabetologia (1998) 41: 701–705]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250050971

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Islet amyloid polypeptide amide causes peripheral insulin resistance in vivo in dogs (1990)

Sowa, R. ; Sanke, T. ; Hirayama, J. ; [et al.]

Springer

Diabetologia 33 (1990), S. 118-120

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ISSN: 1432-0428

Keywords: Islet amyloid polypeptide ; amylin ; amidation ; invivo effect ; insulin resistance ; diabetes mellitus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Islet amyloid polypeptide is a 37 amino acid hormone-like peptide which is the major protein component of islet amyloid deposits commonly found in patients with Type 2 (non-insulin-dependent) diabetes mellitus. Recent studies indicate that a physiologically active form of this peptide appears to be carboxyamidated and secreted from the insulin-producing beta cell. In order to clarify the possible in vivo actions of islet amyloid polypeptide, we have studied the effects of synthesized islet amyloid polypeptide-amide on peripheral glucose utilization by performing hyperinsulinaemic euglycaemic glucose clamp studies on dogs. Exogenously administered islet amyloid polypeptide-amide (an infusion from 1.0 to 100 μg·kg−1·h−1, over 2 h) inhibited the insulin-stimulated glucose disposal rate in a dose dependent manner. Twenty-five μg·kg−1·h−1 of islet amyloid polypeptide-amide infused via a peripheral vein significantly lowered the glucose disposal rate by 20% (from 17.4±1.7 to 14.4±1.7 mg·kg−1·min−1, n = 5, p〈0.01). These findings suggest that islet amyloid polypeptide-amide causes peripheral insulin resistance in vivo.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00401051

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