Use of bismannose photolabel to elucidate insulin-regulated GLUT4 subcellular trafficking kinetics in rat adipose cells. Evidence that exocytosis is a critical site of hormone action

The subcellular trafficking of tracer-tagged GLUT4 between the plasma membranes and low-density microsomes of rat adipose cells has been studied. Cell-surface GLUT4 have been initially tracer-tagged in the insulin-stimulated state with the [3H]bismanose photolabel 2-N-4-(1-azi-2,2,2-trifluoroethyl)b...

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Bibliographic Details
Published in:The Journal of biological chemistry 1993-08, Vol.268 (24), p.17820-17829
Main Authors: Satoh, S., Nishimura, H., Clark, A.E., Kozka, I.J., Vannucci, S.J., Simpson, I.A., Quon, M.J., Cushman, S.W., Holman, G.D.
Format: Article
Language:English
Subjects:
3-O-Methylglucose
Adipose Tissue - drug effects
Adipose Tissue - metabolism
Affinity Labels - metabolism
Animals
Azides - metabolism
BIOCHIMIE
Biological and medical sciences
BIOQUIMICA
Cell Membrane - metabolism
Cell physiology
Disaccharides - metabolism
Electrophoresis, Polyacrylamide Gel
Endocytosis
ESTRUCTURA CELULAR
Exocytosis - drug effects
Fundamental and applied biological sciences. Psychology
GLUCOSA
GLUCOSE
Glycosides
Hormonal regulation
Insulin - pharmacology
INSULINA
INSULINE
Intracellular Membranes - metabolism
Kinetics
Male
MANNOSE
MANOSA
Mathematics
MEMBRANAS CELULARES
MEMBRANE CELLULAIRE
Methylglucosides - metabolism
Microsomes - metabolism
Models, Biological
Molecular and cellular biology
Monosaccharide Transport Proteins - isolation & purification
Monosaccharide Transport Proteins - metabolism
ORGANITE CELLULAIRE
ORGANULOS CITOPLASMICOS
Propylamines
PROTEINAS
PROTEINE
RAT
RATA
Rats
STRUCTURE CELLULAIRE
TEJIDO ADIPOSO
Time Factors
TISSU ADIPEUX
Tritium
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Summary:The subcellular trafficking of tracer-tagged GLUT4 between the plasma membranes and low-density microsomes of rat adipose cells has been studied. Cell-surface GLUT4 have been initially tracer-tagged in the insulin-stimulated state with the [3H]bismanose photolabel 2-N-4-(1-azi-2,2,2-trifluoroethyl)benzoyl-1,3-bis-(D-mannos- 4-yloxy)-2- propylamine. The half-time for internalization of tracer-tagged GLUT4 when insulin is removed by collagenase treatment is similar to that observed for the decrease in immunodetectable GLUT4 in the plasma membranes and the decrease in glucose transport activity in the intact cells. In contrast, internalization of tracer-tagged GLUT4 also occurs when cells are maintained in the continuous presence of insulin even though the plasma membrane level of immunodetectable GLUT4 and glucose transport activity in the intact cells are unaltered. These data show, for the first time, that insulin has little, if any, effect on the rate constant for GLUT4 endocytosis, but instead, primarily increases the rate constant for exocytosis. Tracer-tagged GLUT4 that is returned to the low-density microsomes can be restimulated with fresh insulin to recycle to the plasma membranes and to a steady-state distribution level that is the same as that observed in cells that are maintained in the continuous presence of insulin. These data suggest that the cells' entire complement of GLUT4 is involved in the recycling process. Following insulin stimulation of adipose cells initially in the basal state, the increase in immunodetectable GLUT4 in the plasma membranes precedes the increase in accessibility of GLUT4 to exofacial 2-N-4-(1-azi-2,2,2-trifluoroethyl)benzoyl-1,3-bis(D-mannos-4 -yloxy)-2- propylamine photolabeling, and this in turn precedes the increase in cellular glucose transport activity. Such time course data suggest that there may be plasma membrane intermediate states in the GLUT4 trafficking pathway. The kinetic properties of GLUT4 translocation and its recycling have been interpreted in terms of a subcellular trafficking model that identifies exocytosis, possibly involving-hypothetical “docking” and “fusion” steps, as the critical site of hormone action.
ISSN:0021-9258
1083-351X
DOI:10.1016/S0021-9258(17)46778-0