Pancreatic fate of 14C-labelled hexoses

In order to assess the respective contribution of the exocrine and endocrine moieties of the pancreas to the overall net uptake of selected monosaccharides by the pancreatic gland, the apparent distribution space of L‐[1‐14C]glucose, 3‐O‐[14C‐methyl]‐D‐glucose, D‐[U‐14C]glucose, D‐[U‐14C]mannose and...

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Published inCell biochemistry and function Vol. 18; no. 4; pp. 281 - 291
Main Authors Malaisse, Willy J, Ladriere, Laurence, Kadiata, Marcel M, Malaisse-Lagae, Francine
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 01.12.2000
Subjects
3-O-methyl-D-glucose
3-O-Methylglucose - metabolism
Animals
Carbon Radioisotopes
D-fructose
D-glucose
D-mannoheptulose
D-mannose
Female
Fructose - metabolism
Glucose - metabolism
Hexoses - metabolism
Islets of Langerhans - metabolism
Mannoheptulose - metabolism
Mannose - metabolism
pancreas
Pancreas - metabolism
Rats
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Summary:In order to assess the respective contribution of the exocrine and endocrine moieties of the pancreas to the overall net uptake of selected monosaccharides by the pancreatic gland, the apparent distribution space of L‐[1‐14C]glucose, 3‐O‐[14C‐methyl]‐D‐glucose, D‐[U‐14C]glucose, D‐[U‐14C]mannose and D‐[U‐14C]fructose was measured in pieces of pancreas obtained from either control rats or animals injected with streptozotocin. Although the time course for the uptake of 3‐O‐[14C‐methyl]‐D‐glucose, D‐[U‐14C]glucose, D‐[U‐14C]mannose and D‐[U‐14C]fructose was much slower in the pieces of pancreas than that previously documented in isolated pancreatic islets, no significant difference could, as a rule, be detected between the results obtained in pancreatic pieces of control and streptozotocin rats. A comparable situation prevailed in the pancreas of animals examined 3 min after the intravenous injection of 3‐O‐[14C‐methyl]‐D‐glucose. D‐Glucose inhibited the uptake of 3‐O‐[14C‐methyl]‐D‐glucose and that of D‐[U‐14C]fructose. Likewise, 3‐O‐methyl‐D‐glucose inhibited the uptake of D‐[U‐14C]glucose. Cytochalasin B (20 μm) also inhibited the uptake of 3‐O‐[14C‐methyl]‐D‐glucose and D‐[U‐14C]glucose, but not that of D‐[U‐14C]fructose. D‐Mannoheptulose hexaacetate, but not the unesterified heptose, inhibited the metabolism of tritiated and 14C‐labelled D‐glucose, as well as the net uptake of D‐[U‐14C]glucose and D‐[U‐14C]mannose and, to a lesser extent, that of D‐[U‐14C]fructose. These findings indicate that despite marked differences between endocrine and exocrine pancreatic cells in terms of both the time course for the uptake of several hexoses and the inhibition of their phosphorylation by D‐mannoheptulose, little or no preferential labelling of the endocrine moiety of the pancreas by the 14C‐labelled hexoses is observed, at least when judged from their distribution space in pancreatic pieces or the whole pancreatic gland. Nevertheless, the findings made with D‐mannoheptulose and its hexaacetate ester raise the view that this heptose could conceivably be used to achieve a sizeable preferential labelling of the endocrine pancreas under the present experimental conditions. Copyright © 2000 John Wiley & Sons, Ltd.
Bibliography:Belgian Foundation for Scientific Medical Research - No. 3.4513.94
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ArticleID:CBF884
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ISSN:0263-6484
1099-0844
DOI:10.1002/1099-0844(200012)18:4<281::AID-CBF884>3.0.CO;2-#