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High affinity binding sites for proinsulin in human IM-9 lymphoblasts (1996)

Jehle, P. M. ; Lutz, M. P. ; Fussgaenger, R. D.

Springer

Diabetologia 39 (1996), S. 421-432

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ISSN: 1432-0428

Keywords: Keywords Insulin receptor heterogeneity ; proinsulin binding ; C-peptide binding ; signal transduction.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Proinsulin and insulin binding in IM-9 lymphoblasts show curvilinear Scatchard plots, which may be explained by two binding sites, negative co-operativity of receptors, or both. Using flow-cytometric analysis of insulin binding, we were able to distinguish and separate two different IM-9 cell fractions. In both fractions, Scatchard plots for specific binding of insulin and proinsulin were linear, suggesting the presence of two distinct populations of receptors. Type 1 cells showed low capacity but high affinity of insulin binding (16,300 ± 3,000 sites/cell; Kd 0.4 ± 0.1 nmol/l). Proinsulin and insulin-like growth factor 1 (IGF-1) were significantly less potent in competition. MA-20, a specific antibody against human insulin receptors, inhibited insulin binding by 80 %, while the specific antibody against human IGF-1 receptors, αIR-3, had no effect. Pretreatment with insulin decreased insulin binding by 90 %. 125I-insulin displayed stepwise dissociation with the rate markedly enhanced by cold insulin. Type 2 cells exhibited significantly different binding characteristics with higher capacity but lower affinity of 125I-insulin binding (430,000 ± 25,000 sites/cell, p 〈 0.001 vs type 1; Kd 2 ± 0.4 nmol/l, p 〈 0.02 vs type 1). Proinsulin competed with similar potency for insulin binding, while IGF-1 was still less potent. 125I-proinsulin showed a significantly higher binding affinity than 125I-insulin (Kd 0.5 ± 0.3 nmol/l, p 〈 0.05) with 50,000 ± 10,000 binding sites/cell. C-peptide was able to compete for 125I-proinsulin, but not for 125I-insulin binding. MA-20 did not influence 125I-proinsulin binding, but inhibited 125I-insulin binding by 50 %, whereas αIR-3 increased proinsulin binding 1.5-fold with no effect on insulin binding. Preincubation with insulin decreased insulin binding by 50 % and proinsulin binding by 10 %. The dissociation of 125I-proinsulin showed linear first-order kinetics and was not significantly accelerated by cold proinsulin. Furthermore, the tyrosine phosphorylation of a 65 kDa protein was stimulated to a significantly greater extent by proinsulin than by insulin, indicating activation of different signalling cascades. DNA analysis revealed that type 1 cells were predominantly in the G1 phase, whereas type 2 cells were in the S and G2 + M phases of the cell cycle. We conclude, that IM-9 lymphoblasts were separated by flow-cytometry into one fraction with typical insulin receptors and a second fraction with high affinity binding sites for proinsulin. High affinity proinsulin binding sites were distinguished from typical insulin receptors by: 1) higher affinity for proinsulin than insulin, 2) inhibition of proinsulin binding by C-peptide but not by the insulin receptor antibody MA-20, 3) non-co-operative first order dissociation kinetics of proinsulin binding, 4) resistance to down-regulation by insulin, and 5) differences in signal transduction. [Diabetologia (1996) 39: 421–432]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400673

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The role of the exocrine pancreas in the stimulation of insulin secretion by intestinal hormones (1971)

Goberna, R. ; Fussgänger, R. D. ; Raptis, S. ; [et al.]

Springer

Diabetologia 7 (1971), S. 68-72

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ISSN: 1432-0428

Keywords: Glucose ; duct ligation ; IMI ; secretin ; pancreozymin ; K-value

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Résumé L'influence de la sécrétine et de la pancréozymine intravenieuses sur la sécrétion d'insuline a été étudiée chez des rats ayant une insuffisance pancréatique exocrine. La sécrétine et la pancréozymine ont causé une sécrétion d'insuline significative chez des rats normaux. L'effet de ces hormones a été différent chez les animaux ayant une insuffisance pancréatique exocrine; alors que la pancréozymine causait une sécrétion d'insuline chez ces animaux, la sécrétine n'en causait aucune. Le glucose intravenieux, quant à lui, produisait une augmentation d'insuline du sang même chez les rats ayant une insuffisance pancréatique exocrine. Il semble que seule l'action de la sécrétine sur la sécrétion d'insuline soit liée au pancréas exocrine intact. Par contre la pancréozymine stimule la sécrétion d'insuline même dans le cas d'une insuffisance pancréatique exocrine. Ces résultats in vivo sont indentiques à ceux obtenus avec les ilôts isolés du pancréas des rats.

Abstract: Zusammenfassung Bei Ratten mit exokriner Pankreasinsuffizienz, erzeugt durch vollständige Ligatur sämtlicher Pankreasausführungsgänge mit anschließender fettiger Degeneration, wurde der Einfluß von Sekretin und Pankreozymin i.v. auf das immunologisch meßbare Insulin geprüft. Bei normalen Ratten führten Sekretin und Pankreozymin zu einer signifikanten Insulinausschüttung. Bei Tieren mit Pankreasinsuffizienz war ein unterschiedlicher Effekt beider Hormone nachzuweisen. Während Pankreozymin auch bei pancreasinsuffizierten Tieren einen deutlichen Anstieg der Insulinsekretion bewirkt, fehlt nach Sekretin die reaktive Insulinsecretion. I.v. Glucose bewirkte hingegen auch bei den pankreasinsuffizienten Ratten einen Insulinanstieg in Plasma. Offensichtlich ist lediglich die insulinstimulierende Wirkung von Sekretin an ein intaktes exokrines Pankreas gebunden, während Pankreozymin auch bei Pankreasinsuffizienz das Inselsystem zur Insulinabgabe veranlaßt. Diese Befunde in vivo sind übereinstimmend mit den Versuchen an isolierten Inseln der Ratten.

Notes: Summary A comparison was made of the effects of the intestinal hormones secretin and pancreozymin on insulin secretion in non-diabetic rats with experimentically induced exocrine pancreatic insufficiency and in control animals. The rats with exocrine pancreatic insufficiency exhibited normal disappearence of glucose and secretion of insulin. In rats with exocrine pancreatic insufficiency secretin did not lead to any increase in insulin secretion in contrast to its effect in the controls. In rats with exocrine pancreatic insufficiency pancreozymin evoked secretion of insulin to the same extent as in the normal animals. — From these results it is inferred that the effect of secretion upon the β-cells of the rat is dependent upon the presence of intact exocrine pancreatic tissue. However, pancreozymin and glucose exert their effects upon the β-cells directly without the involvement of the exocrine portion of the pancreas. All of these findings made under conditions in vivo are in perfect accord with studies made on isolated islets of rats subjected to the same stimuli in the preparation in vitro.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00443883

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Hyperglucagonemia of the isolated perfused pancreas of diabetic mice (db/db) (1973)

Laube, H. ; Fussgänger, R. D. ; Maier, V. ; [et al.]

Springer

Diabetologia 9 (1973), S. 400-402

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ISSN: 1432-0428

Keywords: Diabetic mice ; isolated perfused pancreas ; high insulin levels ; hyperglucagonemia

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Diabetes mellitus is held to be accompanied by inappropriately high levels of plasma glucagon relative to blood glucose concentrations. This has been interpreted as indicating lack of insulin. To establish glucagon release in presence of high levels of endogenous insulin, the effects of both glucose and arginine were studied in the isolated perfused pancreas of genetically diabetic mice (db/db). Stimulation with glucose 2.75 mM or glucose plus arginine 8.25 mM exhibited a pronounced hyperglucagonemia. Following glucose 8.25 mM, however, there was no depression of glucagon secretion. Despite excessive high levels of endogenous insulin, there was a pattern of rather non-suppressible glucagon release. Lack of insulin per se, therefore, is unlikely to be the sole cause of hyperglucagonemia in this type of genetic animal diabetes mellitus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01239436

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Zur Bedeutung einer isocalorischen stärke- oder rohrzuckerreichen Nahrung auf die Insulinsekretion und Glucoseassimilation (1972)

Laube, H. ; Fussgänger, R. D. ; Goberna, R. ; [et al.]

Springer

Journal of molecular medicine 50 (1972), S. 239-242

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ISSN: 1432-1440

Keywords: Sucrose ; hyperinsulinemia ; glucose tolerance ; gastrointestinal factor ; Rohrzucker ; Hyperinsulinismus ; Glucoseassimilation ; gastrointestinale Faktoren

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Widersprüchliche Befunde in der Literatur ließen bisher keine Klarheit zu, inwieweit verschiedene Kohlenhydratformen einen unterschiedlichen Einfluß auf die Glucoseassimilation und Insulinsekretion haben. Bei Anwendung einer standardisierten isocalorischen Rohrzucker- bzw. Reisstärkediät wurden deshalb bei Ratten Glucosebelastungen durchgeführt und Blutzucker sowie Seruminsulin gemessen. Nach Rohrzuckerfütterung entsteht ein Hyperinsulinismus, der postprandial, besonders aber bei i.v. und peroraler Glucosegabe deutlich wird. Die Glucoseassimilation ist jedoch nur nach i.v. Belastung beschleunigt. Nach peroraler Glucosegabe besteht trotz Hyperinsulinismus ein verzögerter Schwund der Blutglucose. Dies tritt besonders deutlich bei einer Glucosebelastung des abgebundenen Duodenums hervor. Aus den vorliegenden Befunden muß eine gesteigerte insulinotrope Wirkung, eine beschleunigte Resorption aus dem Duodenum sowie ein durch Rohrzucker induzierbarer Duodenalfaktor als Ursache de gesteigerten Insulinsekretion nach Rohrzucker angenommen werden. Die verminderte Glucoseassimilation nach peroraler Belastung ist wahrscheinlich durch eine gesteigerte Glucagonsekretion bedingt.

Notes: Summary Increase of diabetes mellitus and obesity following high caloric intake has shown to be an alarming symptom of our affluent society. Similar effects, however, can be mimicked by a dietary change from starch to sucrose-rich food without increasing caloric intake. Yet studies regarding this phenomenon have resulted in conflicting conclusions. The present experiments were therefore designed to gather more data on this subject, by applying an isocaloric starch or sucrose-rich diet in rats. Their effects on blood sugar and serum insulin should be examined in fasting and postprandial state and following I.V.G.T.T. In addition, separate parts of the upper gastro-intestinal tract were loaded with glucose. After sucrose feeding there is marked hyperinsulinemia following oral or intravenous tolerance tests. The glucose disappearance rate is only increased following I.V.G.T.T. Peroral and duodenal glucose load, however, decrease the disappearance rate. There seems to be good evidence that prolonged sucrose feeding in rats has a direct insulinotropic effect. In addition, some as yet unknown factor in the duodenal mucosa might be activated, contributing efficiently to hyperinsulinemia and possibly hyperglucagonemia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01486528

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Different binding and degradation of proinsulin, insulin and insulin-like growth factor-1 (IGF-1) in cultured renal proximal tubular cells (1996)

Jehle, P. M. ; Fußgänger, R. D. ; Stracke, S. ; [et al.]

Springer

Acta diabetologica 33 (1996), S. 159-165

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ISSN: 1432-5233

Keywords: Key words Proinsulin ; Insulin-like growth factor-1 ; Receptor binding ; Renal proximal tubular cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Recent studies have reported that elevated proinsulin levels are indicative of an increased cardiovascular risk. Renal proximal tubular cells represent a major site for the metabolism of insulin-like hormones after glomerular filtration into the tubular lumen. To determine the binding and degradation of proinsulin in comparison with insulin and insulin-like growth factor-1 (IGF-1), we have used a rabbit proximal tubular cell line (PT-1). As confirmed by electron microscopy, PT-1 cells exhibit bipolar differentiation, demonstrating apical microvilli and invaginations of the basolateral membrane. To allow selective incubation of both compartments, cells were grown on filter membranes. Performing equilibrium binding assays with 125I-labelled hormones, severalfold higher binding was found at the apical than at the basolateral cell membrane, with the capacity range IGF-1〉insulin〉proinsulin. Half-maximal displacement of 125I-labelled insulin and IGF-1 was observed at 0.6 and 2 nM, respectively, while crossover binding to the alternate receptor occurred with a 10- to 100-fold lower affinity. Half-maximal displacement of 125I-proinsulin binding was obtained at approx. 8 nM proinsulin and insulin, whereas IGF-1 was 10-fold less potent. The relative degradation of specifically bound tracer was lowest for proinsulin (apical: 10%, basolateral: 13%). IGF-1 was degraded by 20% at the apical cell membrane, and up to 78% at the basolateral membrane. In contrast, almost the total amount of insulin bound was degraded at both membrane sites (apical: 99%, basolateral: 83%). These results suggest separate insulin and IGF-1 receptors, while proinsulin binds with high affinity to a third insulin-like receptor on the apical membrane of PT-1 cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00569428

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Different binding and degradation of proinsulin, insulin and insulin-like growth factor-1 (IGF-1) in cultured renal proximal tubular cells (1996)

Jehle, P. M. ; Fußgänger, R. D. ; Stracke, S. ; [et al.]

Springer

Acta diabetologica 33 (1996), S. 159-165

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ISSN: 1432-5233

Keywords: Proinsulin ; Insulin-like growth factor-1 ; Receptor binding ; Renal proximal tubular cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Recent studies have reported that elevated proinsulin levels are indicative of an increased cardiovascular risk. Renal proximal tubular cells represent a major site for the metabolism of insulin-like hormones after glomerular filtration into the tubular lumen. To determine the binding and degradation of proinsulin in comparison with insulin and insulin-like growth factor-1 (IGF-1), we have used a rabbit proximal tubular cell line (PT-1). As confirmed by electron microscopy, PT-1 cells exhibit bipolar differentiation, demonstrating apical microvilli and invaginations of the basolateral membrane. To allow selective incubation of both compartments, cells were grown on filter membranes. Performing equilibrium binding assays with125I-labelled hormones, severalfold higher binding was found at the apical than at the basolateral cell membrane, with the capacity range IGF-1〉insulin〉proinsulin. Half-maximal displacement of125I-labelled insulin and IGF-1 was observed at 0.6 and 2 nM, respectively, while crossover binding to the alternate receptor occurred with a 10- to 100-fold lower affinity. Half-maximal displacement of125I-proinsulin binding was obtained at approx. 8 nM proinsulin and insulin, whereas IGF-1 was 10-fold less potent. The relative degradation of specifically bound tracer was lowest for proinsulin (apical: 10%, basolateral: 13%). IGF-1 was degraded by 20% at the apical cell membrane, and up to 78% at the basolateral membrane. In contrast, almost the total amount of insulin bound was degraded at both membrane sites (apical: 99%, basolateral: 83%). These results suggest separate insulin and IGF-1 receptors, while proinsulin binds with high affinity to a third insulin-like receptor on the apical membrane of PT-1 cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00569428

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