Cacao extract enriched in polyphenols prevents endocrine-metabolic disturbances in a rat model of prediabetes triggered by a sucrose rich diet.

Ethnopharmacological Relevance: Cocoa extracts rich in polyphenols are used as potential agent for treating diabetes. Cocoa polyphenols have been proved to ameliorate important hallmarks of type-2 diabetes (T2D). They can regulate glucose levels by increasing insulin secretion, promoting β-cell proliferation and a reduction of insulin resistance.

INGAP-PP effects on β-cell mass and function are related to its positive effect on islet angiogenesis and VEGFA production.

Our aim was to determine whether islet angiogenesis and VEGFA production/release participate in the mechanism by which INGAP-PP enhances β-cell function and mass. We used two models: a) in vivo (normal rats injected with INGAP-PP for 10 days) and b) in vitro (normal islets cultured for 4 days with INGAP-PP, VEGFA, Rapamycin, and the specific VEGF-Receptor inhibitor, SU5416). INGAP-PP administration enhanced insulin secretion, β-cell mass, islet vascularization, and angiogenesis without affecting glucose homeostasis.

VMP1-related autophagy induced by a fructose-rich diet in β-cells: its prevention by incretins.

The aim of the present study was to demonstrate the role of autophagy and incretins in the fructose-induced alteration of β-cell mass and function. Normal Wistar rats were fed (3 weeks) with a commercial diet without (C) or with 10% fructose in drinking water (F) alone or plus sitagliptin (CS and FS) or exendin-4 (CE and FE). Serum levels of metabolic/endocrine parameters, β-cell mass, morphology/ultrastructure and apoptosis, vacuole membrane protein 1 (VMP1) expression and glucose-stimulated insulin secretion (GSIS) were studied.

Islet NADPH oxidase activity modulates β-cell mass and endocrine function in rats with fructose-induced oxidative stress.

Background: Islet NADPH oxidase activity is modulated by glucose and other insulin secretagogues and it might be part of the regulatory mechanism of insulin secretion. We studied its modulatory role of islet NADPH oxidase upon β-cell function in rats with fructose-induced oxidative stress.

Methods: Normal rats were fed for 3weeks with a standard diet, a fructose-rich diet or both diets plus apocynin.

Islet neogenesis-associated protein (INGAP): the role of its endogenous production as a positive modulator of insulin secretion.

Islet neogenesis-associated protein (INGAP) is a peptide found in pancreatic exocrine-, duct- and islet- non-β-cells from normal hamsters. Its increase induced by either its exogenous administration or by the overexpression of its gene enhances β-cell secretory function and increases β-cell mass by a combination of stimulation of cell replication and islet neogenesis and reduction of β-cell apoptosis. We studied the potential modulatory role of endogenous INGAP in insulin secretion using two different experimental approaches.

Islet cannabinoid receptors: cellular distribution and biological function.

Objectives: This study aimed to determine the cellular distribution of islet cannabinoid receptors (CBs) and their involvement in the development of metabolic and hormonal changes in rats fed a fructose-rich diet (F).

Methods: In normal rat islets, we determined CBs (immunofluorescence and retrotranscription-polymerase chain reaction) and glucose-stimulated insulin secretion (GSIS) of isolated islets incubated with the CB1 antagonist rimonabant (R) and/or different CBs agonists. In 3-week F-fed rats, we determined the in vivo effect of R on serum glucose, triglyceride, and insulin levels; homeostasis model assessment for insulin resistance, GSIS, and CBs and insulin receptor substrate gene expression levels (real-time polymerase chain reaction).

Islet neogenesis-associated protein (INGAP)-positive cell mass, β-cell mass, and insulin secretion: their relationship during the fetal and neonatal periods.

Objectives: To study the chronological appearance of pancreatic islet neogenesis-associated protein (INGAP)-positive cells and its correlation with the increase in β-cell mass and function in fetal and neonatal rats.

Methods: Normal Wistar rat embryos (E) at gestational days 15, 17, and 19 (E15, E17, E19) and 7-day-old postnatal rats (P7) were humanely killed to determine body and pancreas weight; blood glucose; glucose and arginine-induced insulin secretion; real-time polymerase chain reaction of Pdx1 and Ngn3; quantitative immunomorphometric analysis of β-cell replication and apoptosis rate, cytokeratin and INGAP cell mass, and Pdx-1- and Ngn3-positive cells.

Results: Body and pancreas weight increased with age (P7 > E19 > E17 > E15; P < 0.

Oral metformin treatment prevents enhanced insulin demand and placental dysfunction in the pregnant rat fed a fructose-rich diet.

The intake of a fructose-rich diet (FRD) in the normal female rat induces features similar to those observed in the human metabolic syndrome phenotype. We studied the impact of FRD administration to mothers on pregnancy outcome. On gestational day (Gd) zero rats were assigned to either group: ad libitum drinking tap water alone (normal diet, ND) or containing fructose (10% w/vol; FRD) through pregnancy; all rats were fed a Purina chow diet ad libitum ND and FRD rats were daily cotreated or not with metformin (60 mg/Kg/day oral; ND + MF and FRD + MF) and submitted to a high glucose load test on Gd 14.

Rat liver uncoupling protein 2: changes induced by a fructose-rich diet.

Aim: To evaluate the role of uncoupling protein 2 (UCP2) and peroxisome proliferator-activated receptors (PPARs) in the response of liver to glycoxidative stress triggered by administration of a fructose-rich diet (FRD).

Main Methods: We assessed blood glucose in the fasting state and after a glucose load (glucose-oxidase method), serum triglyceride (enzymatic measurement), insulin (radioimmunoassay), alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels (colorimetric kits) in control and FRD animals. In liver, we measured UCP2, PPARα, PPARδ and PPARγ gene (real-time PCR) and protein (Western blot) expression, fatty acid synthase (FAS) and glycerol-3-phosphate acyltransferase (GPAT) gene expression, as well as triglyceride content.

Sitagliptin prevents the development of metabolic and hormonal disturbances, increased β-cell apoptosis and liver steatosis induced by a fructose-rich diet in normal rats.

The aim of the present study was to test the effect of sitagliptin and exendin-4 upon metabolic alterations, β-cell mass decrease and hepatic steatosis induced by F (fructose) in rats. Normal adult male Wistar rats received a standard commercial diet without (C) or with 10% (w/v) F in the drinking water (F) for 3 weeks; animals from each group were randomly divided into three subgroups: untreated (C and F) and simultaneously receiving either sitagliptin (CS and FS; 115.2 mg/day per rat) or exendin-4 (CE and FE; 0.

Molecular mechanisms of tungstate-induced pancreatic plasticity: a transcriptomics approach.

Background: Sodium tungstate is known to be an effective anti-diabetic agent, able to increase beta cell mass in animal models of diabetes, although the molecular mechanisms of this treatment and the genes that control pancreas plasticity are yet to be identified. Using a transcriptomics approach, the aim of the study is to unravel the molecular mechanisms which participate in the recovery of exocrine and endocrine function of streptozotocin (STZ) diabetic rats treated with tungstate, determining the hyperglycemia contribution and the direct effect of tungstate.

Results: Streptozotocin (STZ)-diabetic rats were treated orally with tungstate for five weeks.

Changes in islet plasma membrane calcium-ATPase activity and isoform expression induced by insulin resistance.

We studied the effect of insulin resistance (IR) induced by administration of a fructose-rich diet (FRD) to normal Wistar rats for 21days, upon islet plasma membrane calcium ATPases (PMCAs) and insulin secretion. FRD rats showed significantly higher triglyceride and insulin levels, insulin:glucose ratio and HOMA-IR index than controls. FRD islets released significantly more insulin in response to glucose and showed (a) marked changes in PMCA isoform protein content (decreased PMCA 2 and increased PMCA 3), (b) a decrease in total PMCAs activity, and (c) higher levels of cytosolic calcium [Ca(2+)](i).

Islet neogenesis-associated protein pentadecapeptide (INGAP-PP): mechanisms involved in its effect upon beta-cell mass and function.

The effect of islet neogenesis-associated protein pentadecapeptide (INGAP-PP) administration to normal male hamsters upon serum glucose and triglyceride levels, beta-cell mass and function was studied. INGAP-PP (500 mug) or saline was injected twice daily during 10 days. Both groups showed comparable body weight, serum glucose and triglyceride levels.

Selective effect of INGAP-PP upon mouse embryonic stem cell differentiation toward islet cells.

We evaluated the effect of islet neogenesis-associated protein pentadecapeptide (INGAP-PP) upon islet beta- and non-beta cell differentiation from mouse embryonic stem (mES) cells. ES-D3 cell lines were cultured following Lumelsky's protocol with or without INGAP-PP (5 microg/ml) at different stages. Gene expression was quantified using qPCR.

Islet neogenesis associated protein (ingap): structural and dynamical properties of its active pentadecapeptide.

We have studied the structural and dynamical properties of the biologically active pentadecapeptide of the islet neogenesis associated protein (INGAP-PP) and of two other pentadecapeptides with the same amino acid composition but randomly scrambled primary sequences, using molecular dynamic simulations. Our data demonstrates that whilst the peptides with scrambled sequences show no definite prevalent structure in solution, INGAP-PP maintains a notably stable tertiary fold, namely, a conformer with a central beta-sheet and closed C-terminal. Such structure resembles the one corresponding to the amino acid sequence of human pancreatitis associated protein-1 (PAP-1), which presents 85% sequence homology with INGAP.

INGAP-PP up-regulates the expression of genes and proteins related to K+ ATP channels and ameliorates Ca2+ handling in cultured adult rat islets.

Islet Neogenesis Associated Protein (INGAP) increases pancreatic beta-cell mass and potentiates glucose-induced insulin secretion. Here, we investigated the effects of the pentadecapeptide INGAP-PP in adult cultured rat islets upon the expression of proteins constitutive of the K(+)(ATP) channel, Ca(2+) handling, and insulin secretion. The islets were cultured in RPMI medium with or without INGAP-PP for four days.

Transcription, expression and tissue binding in vivo of INGAP and INGAP-related peptide in normal hamsters.

We studied islet neogenesis-associated protein (INGAP) transcription and its immunocytochemical presence in and binding in vivo of (125)I-tyrosylated INGAP pentadecapeptide ((125)I-T-INGAP-PP) to different normal male hamster tissues. (125)I-T-INGAP-PP was injected intraperitoneally with or without unlabeled T-INGAP-PP (0-1 mg/100 g bw), drawing blood samples at different times after injection; radioactivity was measured in serum, brain, skeletal muscle, dorsal root ganglia, liver, kidney, small intestine and pancreas samples, expressing results as organ:serum ratio. INGAP transcription (RT-PCR) and immunopositive cells were investigated in liver, kidney, brain, small intestine and pancreas.

Islet Neogenesis Associated Protein (INGAP) modulates gene expression in cultured neonatal rat islets.

The Islet Neogenesis Associated Protein (INGAP) increases pancreatic beta-cell mass and potentiates glucose-induced insulin secretion. We currently studied the effects of a pentadecapeptide having the 104-118 amino acid sequence of INGAP (INGAP-PP) on insulin secretion and on transcript profile expression in 4-day-cultured normal pancreatic neonatal rat islets. Islets cultured with INGAP-PP released significantly more insulin in response to 2.

INGAP-related pentadecapeptide: its modulatory effect upon insulin secretion.

We examined the effects of a pentadecapeptide having the 104-118 aminoacid sequence of islet neogenesis-associated protein (INGAP-PP) on insulin secretion, and the morphological characteristics of adult and neonatal pancreatic rat islets cultured in RPMI and 10 mM glucose for 4 days, with or without different INGAP-PP concentrations (0.1-100 mug/ml). A scrambled 15 aminoacid peptide was used as control for the specificity of INGAP-PP effect.

Quinolizidine alkaloids isolated from Lupinus species enhance insulin secretion.

We have analyzed the effect of quinolizidine alkaloids from Lupinus species upon insulin secretion. Isolated normal rat islets were incubated with 3.3, 8.