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- Carlsson, S, et al.
(författare)
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Low birth weight, family history of diabetes, and glucose intolerance in Swedish middle-aged men
- 1999
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Ingår i: Diabetes care. - : American Diabetes Association. - 0149-5992 .- 1935-5548. ; 22:7, s. 1043-1047
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Tidskriftsartikel (refereegranskat)abstract
- OBJECTIVE: To investigate the association between low birth weight and glucose intolerance in relation to family history of diabetes. RESEARCH DESIGN AND METHODS: We conducted a population-based cross-sectional study of 2,237 men born in 1938-1957 in four municipalities in the outskirts of Stockholm, 50% of whom had a family history of diabetes (at least one first-degree or two second-degree relatives with diabetes). Oral glucose tolerance testing detected 35 cases of type 2 diabetes, 102 cases of impaired glucose tolerance, and 57 cases of impaired fasting glucose. RESULTS: In subjects without a family history of diabetes, low (< or = 3,000 g) birth weight was associated with an odds ratio of 2.3 (95% confidence intervals = 0.4-14.4) for diabetes, 1.8 (0.7-4.3) for impaired glucose tolerance, and 3.3 (1.0-10.4) for impaired fasting glucose. In subjects with a family history of diabetes, the corresponding figures were approximately similar, except for diabetes, for which the odds ratio was 5.4 (2.0-14.9). For men with low birth weight in combination with a family history of diabetes, the odds ratio was 10.9 (2.9-41.2) for diabetes, 2.4 (1.1-5.6) for impaired glucose tolerance, and 5.9 (2.1-16.3) for impaired fasting glucose. CONCLUSIONS: This study indicated that low birth weight is associated with type 2 diabetes, impaired glucose tolerance, and impaired fasting glucose in men. This finding was most pronounced in subjects with diabetes in the family, but it was also indicated in those without a family history of diabetes. Men with the combination of low birth weight and family history of diabetes seem to be at particularly high risk of developing type 2 diabetes.
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- Ostenson, CG, et al.
(författare)
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Galparan: a powerful insulin-releasing chimeric peptide acting at a novel site
- 1997
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Ingår i: Endocrinology. - : The Endocrine Society. - 0013-7227 .- 1945-7170. ; 138:8, s. 3308-3313
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Tidskriftsartikel (refereegranskat)abstract
- Galparan is a 27-amino acid long chimeric peptide, GWTLNSAGYLLGP-INLKALAALAKKIL amide, consisting of galanin-(1–13) linked to mastoparan amide via a peptide bond to provide the mastoparan and galanin effector parts of the molecules. Galparan (10μ m) powerfully stimulates insulin secretion from isolated rat pancreatic islets in a reversible and dose-dependent manner; the stimulation is 26-fold at 3.3 mm glucose and 6-fold at 16.7 mm glucose. Galparan also enhances insulin secretion to a similar extent from islets of diabetic GK rats. The stimulatory effect of galparan on insulin release is not directly dependent on extracellular Ca2+, nor can it be explained only by changes in free cytosolic Ca2+ concentrations. Furthermore, galparan is effective in evoking insulin release in B cells depolarized by 25 mm KCl when ATP-sensitive K+ channels are kept open by diazoxide. Thus, galparan, like mastoparan, stimulates exocytosis of insulin at a distal site in the stimulus-secretion coupling of the B cell. This distal site is not identical to that used by mastoparan, as pertussis toxin pretreatment does not influence the insulinogenic effect of galparan. In conclusion, galparan evokes a large and reversible insulin secretion, acting at a yet unknown distal site and also promoting exocytosis in depolarized B cells from normal rats as well as diabetic GK rats.
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- Abdel-Halim, SM, et al.
(författare)
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Mutations in the promoter of adenylyl cyclase (AC)-III gene, overexpression of AC-III mRNA, and enhanced cAMP generation in islets from the spontaneously diabetic GK rat model of type 2 diabetes
- 1998
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Ingår i: Diabetes. - : American Diabetes Association. - 0012-1797 .- 1939-327X. ; 47:3, s. 498-504
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Tidskriftsartikel (refereegranskat)abstract
- Glucose-induced insulin release is decreased in the spontaneously diabetic GK rat, a nonobese rodent model of type 2 diabetes. Forskolin restores the impaired insulin release in both the isolated perfused pancreas and isolated islets from these rats (Abdel-Halim et al., Diabetes 45:934-940, 1996). We demonstrate here that the insulinotropic effect of forskolin in the GK rat is due to increased generation of cAMP and that it is associated with overexpression of adenylyl cyclase (AC)-III mRNA and gene mutations. The AC-III mRNA overexpression was demonstrated by in situ hybridization using oligonucleotide probes binding to different regions of the rat AC-III mRNA. It was associated with the presence of two point mutations identified at positions -28 bp (A --> G) and -358 bp (A --> C) of the promoter region of the AC-III gene and was demonstrable in both GK rat islets and peripheral blood cells. Transfection of COS cells with a luciferase reporter gene system revealed up to 25-fold increased promoter activity of GK AC-III promoter when compared with normal rat promoter (P < 0.0001). In conclusion, forskolin restores the impaired insulin release in islets of the GK rat through enhanced cAMP generation. This is linked to overexpression of AC-III mRNA in GK islets due to two functional point mutations in the promoter region of the AC-III gene.
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- Efanova, IB, et al.
(författare)
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RX871024 induces Ca2+ mobilization from thapsigargin-sensitive stores in mouse pancreatic beta-cells
- 1998
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Ingår i: Diabetes. - : American Diabetes Association. - 0012-1797 .- 1939-327X. ; 47:2, s. 211-218
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Tidskriftsartikel (refereegranskat)abstract
- The effects of RX871024, a compound with an imidazoline structure, on cytoplasmic-free Ca2+ concentration ([Ca2+]i) in mouse pancreatic β-cells were studied. RX871024 modulates [Ca2+]i; by at least two mechanisms. One mechanism involves closure ofATPregulated K+ channels, resulting in membrane depolarization, opening of voltage-gated L-type Ca2+ channels, and a subsequent increase in [Ca2+]i. Another mechanism, reported here for the first time, deals with RX871024-induced mobilization of Ca2+ from nonmitochondrial thapsigargin-sensitive intracellular stores. Reduced glutathione, inhibitors of cytochrome P-450, and monoaminooxidases A and B blocked this Ca2+ mobilization. It is concluded that the mechanism of RX871024-induced Ca2+ mobilization from intracellular stores involves changes in the oxidation/reduction state of the pancreatic β-cell and may be controlled by cytochrome P-450.
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- Ekberg, K, et al.
(författare)
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Contributions by kidney and liver to glucose production in the postabsorptive state and after 60 h of fasting
- 1999
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Ingår i: Diabetes. - : American Diabetes Association. - 0012-1797 .- 1939-327X. ; 48:2, s. 292-298
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Tidskriftsartikel (refereegranskat)abstract
- Contributions of renal glucose production to whole-body glucose turnover were determined in healthy individuals by using the arteriovenous balance technique across the kidneys and the splanchnic area combined with intravenous infusion of [U-13C6]glucose, [3-(3)H]glucose, or [6-(3)H]glucose. In the postabsorptive state, the rate of glucose appearance was 11.5 +/- 0.6 micromol x kg(-1) x min(-1). Hepatic glucose production, calculated as the sum of net glucose output (9.8 +/- 0.8 micromol x kg(-1) x min(-1)) and splanchnic glucose uptake (2.2 +/- 0.3 micromol x kg(-1) x min(-1)) accounted for the entire rate of glucose appearance. There was no net exchange of glucose across the kidney and no significant renal extraction of labeled glucose. The renal contribution to total glucose production calculated from the arterial, hepatic, and renal venous 13C-enrichments (glucose M+6) was 5 +/- 2%. In the 60-h fasted state, the rate of glucose appearance was 8.2 +/- 0.3 micromol x kg(-1) x min(-1). Hepatic glucose production, estimated as net splanchnic output (5.8 +/- 0.7 micromol x kg(-1) x min(-1)) plus splanchnic uptake (0.6 +/- 0.3 micromol x kg(-1) x min(-1)) accounted for 79% of the rate of glucose appearance. There was a significant net renal output of glucose (0.9 +/- 0.3 micromol x kg(-1) x min(-1)), but no significant extraction of labeled glucose across the kidney. The renal contribution to whole-body glucose turnover calculated from the 13C-enrichments was 24 +/- 3%. We concluded that 1) glucose production by the human kidney in the postabsorptive state, in contrast to recent reports, makes at most only a minor contribution (approximately 5%) to blood glucose homeostasis, but that 2) after 60-h of fasting, renal glucose production may account for 20-25% of whole-body glucose turnover.
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