Stimulation of insulin release by vasopressin in the clonal β-cell line, HIT-T15: the role of protein kinase C

Hughes, Stephen J.; Carpinelli, Ângelo Rafael; Niki, Ichiro; Nicks, J L; Ashcroft, S. J. H.

doi:10.1677/jme.0.0080145

Cited by 31 publications

(9 citation statements)

References 23 publications

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“…Free islets were collected under a dissecting microscope with a 20-l pipette into HEPES-buffered Hanks' balanced salt solution containing 5% BSA. Insulin release from freshly isolated islets was measured in a perifusion system as described by Hughes et al (16). In this system, 50 islets were housed in small chambers on Millicell culture inserts.…”

Section: Methodsmentioning

confidence: 99%

Acute ω-3 Fatty Acid Enrichment Selectively Reverses High-Saturated Fat Feeding-Induced Insulin Hypersecretion But Does Not Improve Peripheral Insulin Resistance

Holness

Smith²,

Greenwood³

et al. 2004

Diabetes

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In rats fed a high-saturated fat diet, replacement of a small percentage of total fatty acids with long-chain -3 fatty acids from fish oil for the duration of high-fat feeding prevents the development of insulin resistance. We investigated the effect of acute (24-h) modulation of dietary fat composition on glucose-stimulated insulin secretion (GSIS) in rats made insulin resistant by highsaturated fat feeding for 4 weeks. Insulin secretion after an intravenous glucose challenge was greatly increased by high-saturated fat feeding. Glucose tolerance was minimally perturbed, demonstrating insulin hypersecretion compensated for insulin resistance. The effect of high-saturated fat feeding to enhance GSIS was retained in perifused islets, such that glucose stimulus-secretion coupling was potentiated. Acute replacement of 7% of dietary fatty acids with long-chain -3 fatty acids reversed insulin hypersecretion in vivo, and the effect of long-term high-saturated fat feeding to enhance insulin secretion by perifused islets was also completely reversed. Although a hyperbolic relationship existed between insulin secretion and action in the high-saturated fat and control groups, lowered insulin secretion in the acute fish oil-supplemented group was not accompanied by improved insulin action, and glucose tolerance was adversely affected. Our studies are important because they demonstrate that hyperinsulinemia can be rapidly reversed via the dietary provision of small amounts of long-chain -3 fatty acids. However, this "insulin sparing" action of acute dietary long-chain -3 fatty acids occurs in the absence of an acute improvement in insulin sensitivity and therefore at the expense of maintenance of glucose tolerance. Diabetes 53 (Suppl. 1)

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Section: Methodsmentioning

confidence: 99%

Acute ω-3 Fatty Acid Enrichment Selectively Reverses High-Saturated Fat Feeding-Induced Insulin Hypersecretion But Does Not Improve Peripheral Insulin Resistance

Holness

Smith²,

Greenwood³

et al. 2004

Diabetes

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show abstract

“…Insulin release from freshly isolated islets was measured in a perifusion system as described elsewhere [13], Islets (50) were housed in small chambers on Millicell culture inserts and perifused in basal medium (Krebs Ringer containing 20 mmol/1 Hepes, pH 7.4, 5 mg/ml BSA and 2 retool/1 glucose) for 60 min at a flow rate of i ml/min at 37 ~ prior to collection of fractions. Test agents were added as indicated.…”

Section: Methodsmentioning

confidence: 99%

The role of islet secretory function in the development of diabetes in the GK Wistar rat

Hughes

Suzuki²,

Goto³

1994

Diabetologia

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“…Isolated islets were collected into HEPESbuffered Hanks' balanced salts solution containing 5% BSA. Insulin release was measured in a perifusion system, as described previously [5,33]. In this system, 50 islets were housed in small chambers on Millicell culture plate inserts (Sigma, Poole, Dorset, UK).…”

Section: Methodsmentioning

confidence: 99%

Hyperthyroidism impairs pancreatic beta cell adaptations to late pregnancy and maternal liporegulation in the rat

et al. 2005

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Aims/hypothesis: Hyperthyroidism modifies lipid dynamics (increased oxidation), impairs insulin action and can suppress insulin secretion. We therefore examined the impact of hyperthyroidism on the relationship between glucose-stimulated insulin secretion (GSIS) and insulin action, using late pregnancy as a model of physiological insulin resistance that is associated with compensatory insulin hypersecretion to maintain glucose tolerance. Our aim was to examine whether hyperthyroidism compromises the regulation of insulin secretion and the ability of insulin to modulate circulating lipid concentrations in late pregnancy. Materials and methods: Hyperthyroidism was induced by tri-iodothyronine (T 3 ) administration from day 17 to 19 of pregnancy. GSIS was assessed during an IVGTT and during hyperglycaemic clamps in vivo and in vitro, using step-up and -down islet perifusions. Results: Hyperthyroidism in pregnancy elevated the glucose threshold for GSIS and impaired GSIS at low and high glucose concentrations in islet perifusions. In the intact animal, insulin secretion (after bolus glucose) was more rapidly curtailed following removal of the glucose stimulus to secretion. In contrast, GSIS was maintained during protracted hyperglycaemia (hyperglycaemic clamps) in the hyperthyroid pregnant state in vivo. Conclusions/interpretation: Hyperthyroidism in vivo during late pregnancy blunts GSIS in subsequently isolated and perifused islets at low and high glucose concentrations. It also adversely affects GSIS under conditions of an acute glucose challenge in vivo. In contrast, GSIS is maintained during sustained hyperglycaemia in vivo, suggesting that in vivo factors can rescue GSIS. The ability of insulin to suppress systemic lipid levels during hyperglycaemic clamps was impaired. We therefore suggest that higher circulating lipids may preserve GSIS under conditions of sustained hyperglycaemia in the hyperthyroid pregnancy.

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Stimulation of insulin release by vasopressin in the clonal β-cell line, HIT-T15: the role of protein kinase C

Cited by 31 publications

References 23 publications

Acute ω-3 Fatty Acid Enrichment Selectively Reverses High-Saturated Fat Feeding-Induced Insulin Hypersecretion But Does Not Improve Peripheral Insulin Resistance

Acute ω-3 Fatty Acid Enrichment Selectively Reverses High-Saturated Fat Feeding-Induced Insulin Hypersecretion But Does Not Improve Peripheral Insulin Resistance

The role of islet secretory function in the development of diabetes in the GK Wistar rat

Hyperthyroidism impairs pancreatic beta cell adaptations to late pregnancy and maternal liporegulation in the rat

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