C. F. H. Van Schravendijk scite author profile

The role of nutrients and hormones in the regulation of glucagon release is investigated in pancreatic A cells purified by autofluorescence-activated cell sorting. Purified A cells lack secretory activity in 1-h incubation at 1.4 mM glucose. Their release mechanism can be activated by arginine, alanine, and glutamine, alone or in combination. Glucose inhibits amino acid-induced glucagon release through a direct insulin-independent action upon pancreatic A cells. Nutrient-induced glucagon release is suppressed by somatostatin and amplified by (Bu)2cAMP or epinephrine. The epinephrine stimulus is inhibited by 10(-11) M somatostatin and abolished by 10(-10) M of this peptide. The effects of somatostatin and epinephrine are associated with parallel changes in cellular cAMP levels, which is not the case for the variations induced by amino acids or glucose. It is confirmed that calcium is an essential requirement for glucagon release. In contrast to its exquisite sensitivity for somatostatin, the glucagon release process is relatively insensitive to insulin during a 1-h exposure. The hormone affects solely epinephrine-induced glucagon release and its inhibitory action is partial and only observed at 10(-7) M. This suppressive effect of insulin is not attributable to variations in glucose handling but appears associated with the stimulatory effect of epinephrine. It is concluded that a nutrient-induced signal interacts with a hormone-inducible cAMP signal to activate the secretory process in pancreatic A cells.

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Insulinlike growth factor—ii/mannose 6-phosphate receptor is expressed on ccl4-exposed rat fat-storing cells and facilitates activation of latent transforming growth factor-β in cocultures with sinusoidal endothelial cells

Bleserc¹,

Jannes²,

Buul-Offers³

et al. 1995

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Transforming growth factor beta (TGF-beta), a potent fibrogenic cytokine, is secreted in latent form. We examined which cell type in both normal and carbon tetrachloride (CCl4)-induced fibrotic rat liver bears surface type II IGF/mannose 6-phosphate (IGF-II/M6P) receptor, known to facilitate activation of TGF-beta. In addition, the role of the IGF-II/M6P receptor in activation of latent TGF-beta was investigated in a coculture system with sinusoidal endothelial cells. Northern hybridization analysis for IGF-II/M6P receptor messenger RNA (mRNA) was performed on total RNA of different isolated and purified liver cell types. In normal liver, cells expressed little IGF-II/M6P receptor mRNA. In fibrotic liver, we found significant expression only in fat-storing cells. The presence of IGF-II/M6P receptors was established by [125I]IGF-II binding assays on freshly isolated fat-storing cells from normal and CCl4-exposed rat livers. We found specific binding of [125I]IGF-II only on CCl4 exposed fat-storing cells. As determined by polyacrylamide gel electrophoresis after affinity labeling, the specific binding involved 220 kD type II IGF receptors. Scatchard analysis revealed the presence of 3,043 +/- 1,378 IGF-II/M6P high-affinity receptors/fat-storing cell, with a Kd of 387 = 165 pmol/L. With a mink lung epithelial cell (Mv1Lu) proliferation inhibition assay, inhibition of proliferation (a measure of active TGF-beta function) was determined using conditioned media of activated fat-storing cells, cocultures of fat-storing cells, and endothelial cells and pure endothelial cell cultures.(ABSTRACT TRUNCATED AT 250 WORDS)

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Evidence for the Presence of Type I Insulin-Like Growth Factor Receptors on Rat Pancreatic A and B Cells*

et al. 1987

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Purified rat pancreatic islet cells express somatomedin receptors which are identified by their affinity for insulin-like growth factor (IGF)-I, IGF-II, and insulin. Binding of [125I]IGF-I to islet A cells was half-maximally inhibited by 7.10(-10) M IGF-I, while IGF-II, insulin, and proinsulin were respectively 10-, 500-, and 10,000-fold less potent displacers of IGF-I binding. Unrelated hormones such as glucagon or GH did not compete with [125I]IGF-I binding to A cells. The concentration of IGF-I receptors on A cells was estimated at 5000 IGF-I binding sites per cell with affinity constant (Ka) of 2 X 10(9) M-1. Islet B cells were found to exhibit a reversible time- and temperature-dependent binding with [125I]IGF-I. Specificity and affinity of IGF-I binding sites were identical for islet A and B cells. Linear Scatchard plots of competitive binding data on B cells suggest 1 single class of IGF-I receptors in a concentration of 12,000 sites per cell. The presence of high affinity receptors for IGF-I on adult islet A and B cells provides a molecular basis for this growth factor to influence growth, survival, and/or function of these endocrine cell types. Their low affinity for insulin should be considered as a potential mechanism for this hormone to influence, at high concentration, the function of islet A and B cells.

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Direct effect of insulin and insulin-like growth factor-I on the secretory activity of rat pancreatic beta cells

et al. 1990

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Purified pancreatic Beta cells were labelled with 3H-tyrosine before studying their secretory activity in perifusion. At 1.4 mmol/l glucose, the cells released similar fractions (0.01% per min) of their contents in preformed and in newly formed insulin. At 20 mmol/l glucose plus 10(-8) mol/l glucagon, these fractional release rates increased by 16 and 40-fold respectively. The preferential release of newly synthesized as compared to stored insulin is attributable to a heterogeneity in individual cell responses. The secretory responsiveness to glucose plus glucagon was completely suppressed by 10(-7) mol/l clonidine. Insulin induced a 20% reduction at 10(-6) mol/l, but remained without effect at 10(-7) mol/l. Insulin-like growth factor-I provoked a 30% decrease at 5.10(-9) mol/l. It is concluded that the type-I insulin-like growth factor receptors on pancreatic Beta cells mediate a suppressive action on the insulin release process. Their high affinity for insulin-like growth factor-I allows physiologic levels of this peptide to participate in the regulation of insulin release. Their low affinity for insulin provides the basis for a minor feedback action by this hormone at concentrations exceeding the normal circulating levels.

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