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20 results on '"Kjems, Lise L."'

1. Postprandial suppression of glucagon secretion depends on intact pulsatile insulin secretion - Further evidence for the intraislet insulin hypothesis

Author

Meier, Juris J, Kjems, Lise L, Veldhuis, Johannes D, Lefèbvre, Pierre, and Butler, Peter C

Abstract

Type 2 diabetes is characterized by an similar to 60% loss of beta-cell mass, a marked defect in postprandial insulin secretion, and a failure to suppress postprandial glucagon concentrations. It is possible that postprandial. hyperglucagonemia in type 2 diabetes is due to impaired postprandial insulin secretion. To address this, we studied eight adult Goettingen minipigs before and after an -60% reduction in beta-cell mass induced by illoxan. Pigs were studied fasting and after ingestion of a mixed meal. Insulin and glucagon secretion were determined by deconvolution of blood hormone concentrations measured at 1-min intervals. The relationship between insulin and glucagon release was analyzed using cross-correlation and forward versus reverse cross-approximate entropy. We report that glucagon and insulin were secreted in similar to 4-min pulses. Prealloxan, postprandial insulin secretion drove an similar to 20% suppression of glucagon concentrations (P < 0.01), through inhibition of glucagon pulse mass. The alloxan-induced similar to 60% deficit in beta-cell mass lead to an similar to 70% deficit in postprandia insulin secretion and loss of the postprandial insulin-driven suppression of glucagon secretion. We conclude that postprandial hyperglucagonemia in type 2 diabetes is likely due to loss of intraislet postprandial suppression of glucagon secretion by insulin.

Published
2006

2. Insulin secretion rates estimated by two mathematical methods in pancreas-kidney transplant recipients

Author

Christiansen, Erik, Kjems, Lise L., Volund, Aage, Tibell, Annika, Binder, Christian, and Madsbad, Sten

Subjects
C-peptide -- Measurement, Insulin -- Physiological aspects, Secretion -- Measurement, Biological sciences
Abstract

The deconvolution method and the combined model were used to estimate the kinetic parameters of the C-peptide and the insulin secretion rate in pancreas-kidney transplant patients during periods of slow and fast changes in insulin secretion. The estimation of individual kinetic parameters is a useful method of evaluating the insulin secretion in transplant patients. Further, insulin secretion in the test subjects were still defective even after transplantation.

Published
1998

8. Monokine antagonism is reduced in patients with IDDM

Author

Mandrup-Poulsen, Thomas, Pociot, Flemming, Molvig, Jens, Shapiro, Leland, Nilsson, Povl, Emdal, Torkil, Roder, Michael, Kjems, Lise L., Dinarello, Charles A., and Nerup, Jorn

Subjects
Type 1 diabetes -- Physiological aspects, Tumor necrosis factor -- Physiological aspects, Interleukin-1 -- Physiological aspects, Health, Physiological aspects
Abstract

Interleukin-1 (IL-1) and tumor necrosis factor α (TNF-α) have been implicated as immune effector molecules in the pathogenesis of insulin-dependent diabetes mellitus (IDDM). Recently, an increased frequency of the A1/A1 [...]

Published
1994

11. Evidence That the Raised Proinsulin to Insulin Ratio in Patients with Type 2 Diabetes Is Secondary to Chronic [Beta]-Cell Stimulation Rather Than a Primary Defect in Proinsulin Processing

Author

BUTLER, PETER C., KJEMS, LISE L., KAO, PAI C., LAEDTKE, THOMAS, and VELDHUIS, JOHANNES D.

Subjects
Type 2 diabetes -- Development and progression, Insulin -- Physiological aspects, Insulin resistance -- Physiological aspects, Health
Abstract

The molar ratio of circulating proinsulin to insulin concentration (PI/I) is raised in patients with Type 2 Diabetes. Two alternative mechanisms have been hypothesised to account for this observation. (1) [...]

Published
2000

12. A Low Dose Bolus of Alloxan to Cause Partial [Beta] Cell Loss Results in a Pattern of Insulin Secretion Comparable to That Present in Type 2 Diabetes

Author

KJEMS, LISE L, KIRBY, BARBARA, WELSH, ELIZABETH, MCINTYRE, SUSAN S, VELDLHUIS, JOHANNES D, and BUTLER, PETER C

Subjects
Diabetes -- Research, Health
Abstract

Type 2 diabetes is characterised by both a relative loss of [Beta] cell mass as well as abnormal [Beta] cell function. Specific abnormalities of insulin secretion in patients with Type [...]

Published
1999

13. The Effect of Exogenous GLUCAGON-LIKE PEPTIDE-1 (GLP-1)-(7-36) AMIDE on the Glucose mediated Insulin Secretion: a Dose-response Study in Patients with Type 2 diabetes mellitus and Control Subjects

Author

KJEMS, LISE L and MADSBAD, STEN

Subjects
Diabetes -- Research, Health
Abstract

GLP-1(7-36)amide (GLP-1)is an intestinally derived hormone that stimulates Insulin secretion both in vivo and in vitro in experimental Animal models, in healthy human subjects and in patients with Type 1 [...]

Published
1999

14. First Phase Insulin Secretion and Insulin Pulse Mass, but not Orderliness of Insulin Secretion, are Related in a Novel Porcine Model of Type 2 Diabetes

Author

BUTLER, PETER C, KIRBY, BARBARA, WELSH, ELIZABETH, MCINTYRE, SUSAN S, and KJEMS, LISE L

Subjects
Diabetes -- Research, Health
Abstract

Measured defects of insulin secretion in Type 2 diabetes include (1) loss of first phase insulin secretion, (2)decreased insulin secretion during a hyperglycemic clamp, (3)decreased insulin pulse mass and (4) [...]

Published
1999

15. The influence of GLP-1 on glucose-stimulated insulin secretion: effects on beta-cell sensitivity in type 2 and nondiabetic subjects.

Author

Kjems, Lise L, Holst, Jens J, Vølund, Aage, Madsbad, Sten, Kjems, Lise L, Holst, Jens J, Vølund, Aage, and Madsbad, Sten

Abstract

The intestinally derived hormone glucagon-like peptide 1 (GLP-1) (7-36 amide) has potent effects on glucose-mediated insulin secretion, insulin gene expression, and beta-cell growth and differentiation. It is, therefore, considered a potential therapeutic agent for the treatment of type 2 diabetes. However, the dose-response relationship between GLP-1 and basal and glucose-stimulated prehepatic insulin secretion rate (ISR) is currently not known. Seven patients with type 2 diabetes and seven matched nondiabetic control subjects were studied. ISR was determined during a graded glucose infusion of 2, 4, 6, 8, and 12 mg x kg(-1) x min(-1) over 150 min on four occasions with infusion of saline or GLP-1 at 0.5, 1.0, and 2.0 pmol x kg(-1) x min(-1). GLP-1 enhanced ISR in a dose-dependent manner during the graded glucose infusion from 332 +/- 51 to 975 +/- 198 pmol/kg in the patients with type 2 diabetes and from 711 +/- 123 to 2,415 +/- 243 pmol/kg in the control subjects. The beta-cell responsiveness to glucose, expressed as the slope of the linear relation between ISR and the glucose concentration, increased in proportion to the GLP-1 dose to 6 times relative to saline at the highest GLP-1 dose in the patients and 11 times in the control subjects, but it was 3 to 5 times lower in the patients with type 2 diabetes compared with healthy subjects at the same GLP-1 dose. During infusion of GLP-1 at 0.5 pmol x kg(-1) x min(-1) in the patients, the slope of ISR versus glucose became indistinguishable from that of the control subjects without GLP-1. Our results show that GLP-1 increases insulin secretion in patients with type 2 diabetes and control subjects in a dose-dependent manner and that the beta-cell responsiveness to glucose may be increased to normal levels with a low dose of GLP-1 infusion. Nevertheless, the results also indicate that the dose-response relation between beta-cell responsiveness to glucose and GLP-1 is severely impaired in patients with type 2 diabetes.

Published
2003

16. The influence of GLP-1 on glucose-stimulated insulin secretion:effects on beta-cell sensitivity in type 2 and nondiabetic subjects

Author

Kjems, Lise L, Holst, Jens Juul, Vølund, Aage, Madsbad, Sten, Kjems, Lise L, Holst, Jens Juul, Vølund, Aage, and Madsbad, Sten

Abstract

The intestinally derived hormone glucagon-like peptide 1 (GLP-1) (7-36 amide) has potent effects on glucose-mediated insulin secretion, insulin gene expression, and beta-cell growth and differentiation. It is, therefore, considered a potential therapeutic agent for the treatment of type 2 diabetes. However, the dose-response relationship between GLP-1 and basal and glucose-stimulated prehepatic insulin secretion rate (ISR) is currently not known. Seven patients with type 2 diabetes and seven matched nondiabetic control subjects were studied. ISR was determined during a graded glucose infusion of 2, 4, 6, 8, and 12 mg x kg(-1) x min(-1) over 150 min on four occasions with infusion of saline or GLP-1 at 0.5, 1.0, and 2.0 pmol x kg(-1) x min(-1). GLP-1 enhanced ISR in a dose-dependent manner during the graded glucose infusion from 332 +/- 51 to 975 +/- 198 pmol/kg in the patients with type 2 diabetes and from 711 +/- 123 to 2,415 +/- 243 pmol/kg in the control subjects. The beta-cell responsiveness to glucose, expressed as the slope of the linear relation between ISR and the glucose concentration, increased in proportion to the GLP-1 dose to 6 times relative to saline at the highest GLP-1 dose in the patients and 11 times in the control subjects, but it was 3 to 5 times lower in the patients with type 2 diabetes compared with healthy subjects at the same GLP-1 dose. During infusion of GLP-1 at 0.5 pmol x kg(-1) x min(-1) in the patients, the slope of ISR versus glucose became indistinguishable from that of the control subjects without GLP-1. Our results show that GLP-1 increases insulin secretion in patients with type 2 diabetes and control subjects in a dose-dependent manner and that the beta-cell responsiveness to glucose may be increased to normal levels with a low dose of GLP-1 infusion. Nevertheless, the results also indicate that the dose-response relation between beta-cell responsiveness to glucose and GLP-1 is severely impaired in patients with type 2 diabet

Published
2003

19. The influence of GLP-1 on glucose-stimulated insulin secretion: effects on beta-cell sensitivity in type 2 and nondiabetic subjects.

Author

Kjems, Lise L., Holst, Jens J., Vølund, Aage, Madsbad, Sten, and Vølund, Aage

Subjects
*GLUCAGON-like peptide 1, *INSULIN
Abstract

The intestinally derived hormone glucagon-like peptide 1 (GLP-1) (7-36 amide) has potent effects on glucose-mediated insulin secretion, insulin gene expression, and beta-cell growth and differentiation. It is, therefore, considered a potential therapeutic agent for the treatment of type 2 diabetes. However, the dose-response relationship between GLP-1 and basal and glucose-stimulated prehepatic insulin secretion rate (ISR) is currently not known. Seven patients with type 2 diabetes and seven matched nondiabetic control subjects were studied. ISR was determined during a graded glucose infusion of 2, 4, 6, 8, and 12 mg x kg(-1) x min(-1) over 150 min on four occasions with infusion of saline or GLP-1 at 0.5, 1.0, and 2.0 pmol x kg(-1) x min(-1). GLP-1 enhanced ISR in a dose-dependent manner during the graded glucose infusion from 332 +/- 51 to 975 +/- 198 pmol/kg in the patients with type 2 diabetes and from 711 +/- 123 to 2,415 +/- 243 pmol/kg in the control subjects. The beta-cell responsiveness to glucose, expressed as the slope of the linear relation between ISR and the glucose concentration, increased in proportion to the GLP-1 dose to 6 times relative to saline at the highest GLP-1 dose in the patients and 11 times in the control subjects, but it was 3 to 5 times lower in the patients with type 2 diabetes compared with healthy subjects at the same GLP-1 dose. During infusion of GLP-1 at 0.5 pmol x kg(-1) x min(-1) in the patients, the slope of ISR versus glucose became indistinguishable from that of the control subjects without GLP-1. Our results show that GLP-1 increases insulin secretion in patients with type 2 diabetes and control subjects in a dose-dependent manner and that the beta-cell responsiveness to glucose may be increased to normal levels with a low dose of GLP-1 infusion. Nevertheless, the results also indicate that the dose-response relation between beta-cell responsiveness to glucose and GLP-1 is severely impaired in patients with type 2 diabetes. [ABSTRACT FROM AUTHOR]

Published
2003
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20. Do oscillations of insulin secretion occur in the absence of cytoplasmic Ca2+ oscillations in beta-cells?

Author

Kjems, Lise L., Ravier, Magalie A., Jonas, Jean-Christophe, and Henquin, Jean-Claude

Subjects
*GLUCOSE, *PANCREATIC beta cells, *INSULIN
Abstract

That oscillations of the cytoplasmic free Ca(2+) concentration ([Ca(2+)](i)) in beta-cells induce oscillations of insulin secretion is not disputed, but whether metabolism-driven oscillations of secretion can occur in the absence of [Ca(2+)](i) oscillations is still debated. Because this possibility is based partly on the results of experiments using islets from aged, hyperglycemic, hyperinsulinemic ob/ob mice, we compared [Ca(2+)](i) and insulin secretion patterns of single islets from 4- and 10-month-old, normal NMRI mice to those of islets from 7- and 10-month-old ob/ob mice (Swedish colony) and their lean littermates. The responses were subjected to cluster analysis to identify significant peaks. Control experiments without islets and with a constant insulin concentration were run to detect false peaks. Both ob/ob and NMRI islets displayed large synchronous oscillations of [Ca(2+)](i) and insulin secretion in response to repetitive depolarizations with 30 mmol/l K(+) in the presence of 0.1 mmol/l diazoxide and 12 mmol/l glucose. Continuous depolarization with high K(+) steadily elevated [Ca(2+)](i) in all types of islets, with no significant oscillation, and caused a biphasic insulin response. In islets from young (4-month-old) NMRI mice and 7-month-old lean mice, the insulin profile did not show significant peaks when [Ca(2+)](i) was stable. In contrast, two or more peaks were detected over 20 min in the response of most ob/ob islets. Similar insulin peaks appeared in the insulin response of 10-month-old lean and NMRI mice. However, the size of the insulin peaks detected in the presence of stable [Ca(2+)](i) was small, so that no more than 10-13% of total insulin secretion occurred in a pulsatile manner. In conclusion, insulin secretion does not oscillate when [Ca(2+)](i) is stably elevated in beta-cells from young normal mice. Some oscillations are observed in aged mice and are seen more often in ob/ob islets. These fluctuations of the insulin secretion rate at stably elevated [Ca(2+)](i), however, are small compared with the large oscillations induced by [Ca(2+)](i) oscillations in beta-cells. [ABSTRACT FROM AUTHOR]

Published
2002
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