Liver‐Expressed Antimicrobial Peptide 2 antagonizes the insulinostatic effect of ghrelin in rat isolated pancreatic islets

We recently showed that phanoside, a gypenoside isolated from the plant Gynostemma pentaphyllum, stimulates insulin secretion from rat pancreatic islets. To study the mechanisms by which phanoside stimulates insulin secretion. Isolated pancreatic islets of normal Wistar (W) rats and spontaneously diabetic Goto-Kakizaki (GK) rats were batch incubated or perifused. At both 3.3 and 16.7 mM glucose, phanoside stimulated insulin secretion several fold in both W and diabetic GK rat islets. In perifusion of W islets, phanoside (75 and 150 μM) dose dependently increased insulin secretion that returned to basal levels when phanoside was omitted. When W rat islets were incubated at 3.3 mM glucose with 150 μM phanoside and 0.25 mM diazoxide to keep K-ATP channels open, insulin secretion was similar to that in islets incubated in 150 μM phanoside alone. At 16.7 mM glucose, phanoside-stimulated insulin secretion was reduced in the presence of 0.25 mM diazoxide (P<0.01). In W islets depolarized by 50 mM KCl and with diazoxide, phanoside stimulated insulin release twofold at 3.3 mM glucose but did not further increase the release at 16.7 mM glucose. When using nimodipine to block L-type Ca2+ channels in B-cells, phanoside-induced insulin secretion was unaffected at 3.3 mM glucose but decreased at 16.7 mM glucose (P<0.01). Pretreatment of islets with pertussis toxin to inhibit exocytotic Ge-protein did not affect insulin response to 150 μM phanoside. Phanoside stimulated insulin secretion from Wand GK rat islets. This effect seems to be exerted distal to K-ATP channels and L-type Ca2+ channels, which is on the exocytotic machinery of the B-cells.

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Insulinotropic effects of exogenous phospholipase A2 and C in isolated pancreatic islets

European Journal of Pharmacology ◽

10.1016/0014-2999(82)90409-5 ◽

1982 ◽

Vol 86 (1) ◽

pp. 121-124 ◽

Cited By ~ 22

Author(s):

Satoshi Yamamoto ◽

Toshio Nakaki ◽

Teruo Nakadate ◽

Ryuichi Kato

Keyword(s):

Phospholipase A2 ◽

Pancreatic Islets ◽

Isolated Pancreatic Islets

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Effect of ethanol and n-butanol on alloxan inhibition of glucose-induced insulin release in isolated pancreatic islets

Biochemical Pharmacology ◽

10.1016/0006-2952(78)90551-8 ◽

1978 ◽

Vol 27 (13) ◽

pp. 1749-1751 ◽

Cited By ~ 5

Author(s):

Michael L. McDaniel ◽

Cathy E. Roth ◽

Cheryl A. Bry ◽

C. Joan Fink ◽

Jean A. Swanson ◽

...

Keyword(s):

Pancreatic Islets ◽

Insulin Release ◽

Isolated Pancreatic Islets

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Functional and metabolic perturbations in isolated pancreatic islets from the GK rat, a genetic model of noninsulin-dependent diabetes.

Endocrinology ◽

10.1210/endo.132.2.8425496 ◽

1993 ◽

Vol 132 (2) ◽

pp. 815-822 ◽

Cited By ~ 32

Author(s):

M H Giroix ◽

L Vesco ◽

B Portha

Keyword(s):

Pancreatic Islets ◽

Genetic Model ◽

Gk Rat ◽

Isolated Pancreatic Islets

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Insulin Production and Glucose Metabolism in Isolated Pancreatic Islets of Rats With NIDDM

Diabetes ◽

10.2337/diab.37.9.1226 ◽

1988 ◽

Vol 37 (9) ◽

pp. 1226-1233 ◽

Cited By ~ 20

Author(s):

B. Portha ◽

M.-H. Giroix ◽

P. Serradas ◽

N. Welsh ◽

C. Hellerstrom ◽

...

Keyword(s):

Glucose Metabolism ◽

Pancreatic Islets ◽

Insulin Production ◽

Isolated Pancreatic Islets

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Abstract 63: ACE2 Deficiency Reduces Insulin Content of Isolated Pancreatic Islets and Plasma Insulin Concentrations Post-Glucose Challenge in Obese C57BL/6 Mice

Hypertension ◽

10.1161/hyp.62.suppl_1.a63 ◽

2013 ◽

Vol 62 (suppl_1) ◽

Author(s):

Robin C Shoemaker ◽

Lisa A Cassis

Keyword(s):

Gene Expression ◽

Insulin Secretion ◽

Pancreatic Islets ◽

Plasma Insulin ◽

Insulin Content ◽

Isolated Pancreatic Islets ◽

Diet Induced Obesity ◽

Glucose Challenge ◽

Ace2 Gene ◽

Deficient Mice

Objective: Diet-induced obesity promotes type 2 diabetes (T2D). Drugs that inhibit the renin-angiotensin system (RAS) have been demonstrated in clinical trials to decrease the onset of T2D. Angiotensin converting enzyme 2 (ACE2) negatively regulates the RAS by catabolizing angiotensin II (AngII). Preliminary data indicate that ACE2 deficient mice display impairments in glucose homeostasis at 8 weeks of age. We tested the hypothesis that ACE2 deficiency promotes the development of glucose intolerance and β-cell dysfunction in mice with diet-induced obesity. Methods and Results: Male Ace2 +/y or -/y mice were fed a low fat (LF, 10% kcal as fat) or high fat (HF, 60% kcal as fat) diet for 5 or 17 weeks. After 5 weeks, plasma insulin concentrations (0, 30 min) following a glucose challenge were significantly greater in HF versus ( vs) LF-fed mice. However, glucose-stimulated increases in plasma insulin concentrations were decreased in HF-fed ACE2 deficient mice compared to controls (2.96 ± 0.18 vs 4.44 ± 0.40 ng/ul, respectively; P<0.01). Surprisingly, isolated pancreatic islets from HF-fed mice of either genotype released similar concentrations of insulin in response to glucose. However, mRNA abundance of insulin was significantly reduced in islets from HF-fed Ace2 -/y compared to +/y mice (1.76 ± 0.17 vs 2.54 ± 0.18 insulin/18S ratio; P<0.05). After 17 weeks, the plasma insulin response to glucose was further reduced in the HF-fed ACE2 deficient mice compared to controls (8.07 ± 0.98 vs 13.90 ± 1.10 ng/ul; P<0.01). Further, LF-fed ACE2 deficient mice also displayed reductions in plasma glucose-stimulated insulin concentrations (1.92 ± 0.98 vs 3.09 ± 0.98 ng/ul; P<0.01). Islets from HF-fed wild type mice displayed reduced ACE2 gene expression compared to LF (0.069 ± 0.009 vs 0.169 ± 0.01, ACE2/18S ratio; P<0.001) and AngII totally suppressed islet glucose-stimulated insulin secretion compared to vehicle (-0.16 ± 0.18 vs 0.9 ± 0.26, fold change over basal; P<0.05). Conclusions: These results demonstrate that ACE2 deficiency promotes the development of T2D by regulating islet insulin content. Moreover, diet-induced obesity reduces islet ACE2 gene expression with augmented AngII-induced impairment of insulin secretion.

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