Scott A. Harrison scite author profile

Previous studies indicated that the erythroidtype (GLUT1) glucose transporter isoform contributes to basal but not insulin-stimulated hexose transport in mouse 3T3-L1 adipocytes. In the present studies it was found that basal hexose uptake in 3T3-L1 adipocytes was about 50% lower than that in 3T3-L1 or CHO-K1 fibroblasts. Intrinsic catalytic activities of GLUT1 transporters in CHO-K1 and 3T3-L1 cells were compared by normalizing these hexose transport rates to GLUT1 content on the cell surface, as measured by two independent methods. Cell surface GLUT1 levels in 3T3-L1 fibroblasts and adipocytes were about 10-and 25-fold higher, respectively, than in CHO-K1 fibroblasts, as assessed with an anti-GLUT1 exofacial domain antiserum, delta. The large excess of cell surface GLUT1 transporters in 3T3-L1 adipocytes relative to CHO-K1 fibroblasts was confirmed by GLUT1 protein immunoblot analysis and by photoaffinity labeling (with 3-[125UIiodo-4-azidophenethylamido-7-0-succinyldeacetylforskolln) of glucose transporters in isolated plasma membranes. Thus, GLUT1 intrinsic activity is markedly reduced in 3T3-L1 fibroblasts compared with the CHO-K1 fibroblasts, and further reduction occurs upon differentiation to adipocytes. Intrinsic catalytic activities specifically associated with heterologously expressed human GLUT1 protein in transfected CHO-K1 versus 3T3-L1 cells were determined by subtracting appropriate control cell values for hexose transport and delta-antibody binding from those determined in the transfected cells expressing high levels of human GLUT1. The results confirmed a >90% inhibition of the intrinsic catalytic activity of human GLUT1 transporters on the surface of mouse 3T3-L1 adipocytes relative to CHO-K1 fibroblasts. We conclude that a mechanism that markedly suppresses basal hexose transport catalyzed by GLUT1 is a major contributor to the dramatic insulin sensitivity of glucose uptake in 3T3-L1 adipocytes.Stimulation of cellular glucose transport rates by insulin is critically important to the regulation of mammalian glucose metabolism. Hormonally responsive adipocytes are excellent cells in which to study this effect, due to the 15-to 30-fold stimulations of glucose transport rates elicited by insulin in those cells (for review, see ref. 1). Two such well-studied model systems, isolated rat adipocytes and cultured mouse 3T3-L1 adipocytes, express a skeletal muscle/adipocytetype (GLUT4) glucose transporter isoform that appears to play a major role in the responses of those cells to insulin (2-10). However, recent reports indicate that 3T3-L1 adipocytes also express relatively high levels of the erythroid-type (GLUT1) glucose transporter and that a significant proportion of that protein resides at the cell surface under normal cell culture conditions (7,8,(10)(11)(12). In spite of the apparent abundance of these cell surface transporters, 3T3-L1 adipocytes exhibit relatively low basal sugar-transport rates compared with human erythrocytes (1) or Chinese hamster ovary (CHO) fibroblasts (13,14). Th...

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Immunological identification of the major platelet low-Km cAMP phosphodiesterase: probable target for anti-thrombotic agents.

Macphee¹,

Harrison²,

Beavo³

1986

Proc. Natl. Acad. Sci. U.S.A.

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Immunoblot and enzyme-activity analyses, using specific immunological probes, indicated that more than 80% of the total low-Km cAMP phosphodiesterase activity present in bovine and human platelets resided in a single phosphodiesterase isozyme. In the presence of protease inhibitors, the platelet enzyme has an apparent subunit size of 110 kDa and appears immunologically and structurally indistinguishable from a recently purified bovine heart isozyme. When protease inhibitors were absent during homogenization and centrifugation, this platelet phosphodiesterase was susceptible to sequential proteolysis forming 80-kDa and 60-kDa peptides. As a previous report on the purification of the platelet low-Km cAMP phosphodiesterase described a 61-kDa protein, our data would suggest that this was a proteolytic fragment. Moreover, in our study a 40-70% increase in catalytic activity was associated with proteolysis. Further similarities between the platelet and heart phosphodiesterases were demonstrated by pharmacological studies that showed identical inhibitor profiles for both enzymes. Several known phosphodiesterase inhibitor compounds that have been found useful in inhibiting platelet aggregation also inhibited the platelet low-Km cAMP phosphodiesterase with potencies very similar to their antithrombotic effects. Cilostamide, Ro 15-2041, milrinone, papaverine, isobutylmethylxanthine, and theophylline inhibited the 110-kDa platelet enzyme with IC50 values of 0.04, 0.13, 0.46, 1.4, 2.6, and 110 ,uM, respectively.

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Evidence that functional erythrocyte-type glucose transporters are oligomers.

Pessino

Hebert

Woon

et al. 1991

Journal of Biological Chemistry

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Scott A. Harrison

Identification and properties of cyclic nucleotide phosphodiesterases

Complex regulation of simple sugar transport in insulin-responsive cells

Suppressed intrinsic catalytic activity of GLUT1 glucose transporters in insulin-sensitive 3T3-L1 adipocytes.

Immunological identification of the major platelet low-Km cAMP phosphodiesterase: probable target for anti-thrombotic agents.

Evidence that functional erythrocyte-type glucose transporters are oligomers.

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