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7 results on '"Le Breton G"'

3. Identification of Galpha13 as one of the G-proteins that couple to human platelet thromboxane A2 receptors.

Author

Djellas, Y, Manganello, J M, Antonakis, K, and Le Breton, G C

Abstract

Previous studies have shown that ligand or immunoaffinity chromatography can be used to purify the human platelet thromboxane A2 (TXA2) receptor-Galphaq complex. The same principle of co-elution was used to identify another G-protein associated with platelet TXA2 receptors. It was found that in addition to Galphaq, purification of TXA2 receptors by ligand (SQ31,491)-affinity chromatography resulted in the co-purification of a member of the G12 family. Using an antipeptide antibody specific for the human G13 alpha-subunit, this G-protein was identified as Galpha13. In separate experiments, it was found that the TXA2 receptor agonist U46619 stimulated [35S]guanosine 5'-O-(3-thiotriphosphate) incorporation into G13 alpha-subunit. Further evidence for functional coupling of G13 to TXA2 receptors was provided in studies where solubilized platelet membranes were subjected to immunoaffinity chromatography using an antibody raised against native TXA2 receptor protein. It was found that U46619 induced a significant decrease in Galphaq and Galpha13 association with the receptor protein. These results indicate that both Galphaq and Galpha13 are functionally coupled to TXA2 receptors and dissociate upon agonist activation. Furthermore, this agonist effect was specifically blocked by pretreatment with the TXA2 receptor antagonist, BM13.505. Taken collectively, these data provide direct evidence that endogenous Galpha13 is a TXA2 receptor-coupled G-protein, as: 1) its alpha-subunit can be co-purified with the receptor protein using both ligand and immunoaffinity chromatography, 2) TXA2 receptor activation stimulates GTPgammaS binding to Galpha13, and 3) Galpha13 affinity for the TXA2 receptor can be modulated by agonist-receptor activation.

Published
1999

4. Cyclic AMP-dependent phosphorylation of thromboxane A(2) receptor-associated Galpha(13).

Author

Manganello, J M, Djellas, Y, Borg, C, Antonakis, K, and Le Breton, G C

Abstract

Although it is well established that cAMP inhibits platelet activation induced by all agonists, the thromboxane A(2) signal transduction pathway was found to be particularly sensitive to such inhibition. Therefore, we examined whether cAMP-dependent kinase mediates phosphorylation of the thromboxane A(2) receptor-G-protein complex. It was found that cAMP induces protein kinase A-dependent [gamma-(32)P]ATP labeling of solubilized membrane proteins in the region of Galpha subunits, i.e. 38-45 kDa. Moreover, ligand affinity chromatography purification of thromboxane A(2) receptor-G-protein complexes from these membranes revealed that 38-45-kDa phosphoproteins co-purify with thromboxane A(2) receptors. Immunoprecipitation of the affinity column eluate with a Galpha(13) antibody demonstrated that 8-Br-cAMP increased phosphorylation of thromboxane A(2) receptor-associated Galpha(13) by 87 +/- 27%. In separate experiments, immunopurification of Galpha(13) on microtiter wells coated with a different Galpha(13) antibody revealed that 8-Br-cAMP increased Galpha(13) phosphorylation by 53 +/- 19%. Finally, treatment of (32)P-labeled whole platelets with prostacyclin resulted in a 90 +/- 14% increase in phosphorylated Galpha(13) that was abolished by pretreatment with the adenylate cyclase inhibitor MDL-12. These results provide the first evidence that protein kinase A mediates phosphorylation of Galpha(13) both in vitro and in vivo and provides a basis for the preferential inhibition of thromboxane A(2)-mediated signaling in platelets by cAMP.

Published
1999

5. The identification and characterization of oligodendrocyte thromboxane A2 receptors.

Author

Blackman, S C, Dawson, G, Antonakis, K, and Le Breton, G C

Abstract

The presence of functional thromboxane A2 receptors in neonatal rat oligodendrocytes and human oligodendroglioma cells was investigated using immunocytochemistry, ligand affinity chromatography, radioligand binding analysis, immunoblot analysis, and calcium mobilization studies. Immunocytochemical studies revealed the presence of receptor protein on both oligodendrocytes and human oligodendroglioma cells. Ligand affinity chromatography allowed for the purification of a protein with an electrophoretic mobility (55 kDa) indistinguishable from human platelet thromboxane A2 receptors. This affinity purified protein was immunoreactive against a polyclonal anti-thromboxane A2 receptor antibody. Intact human oligodendroglioma cells specifically bound [3H]SQ29,548 with a KD of 4 nM and were found to have approximately 3500 binding sites per cell. Human oligodendroglioma cells also demonstrated calcium mobilization in response to receptor activation with U46619. These results demonstrate the presence of a functional thromboxane A2 receptor in oligodendrocytes and are consistent with previous observations indicating a high density of thromboxane A2 receptors in myelinated brain and spinal cord fiber tracts.

Published
1998

6. Purification of rat brain, rabbit aorta, and human platelet thromboxane A2/prostaglandin H2 receptors by immunoaffinity chromatography employing anti-peptide and anti-receptor antibodies.

Author

Borg C, Lim CT, Yeomans DC, Dieter JP, Komiotis D, Anderson EG, and Le Breton GC

Subjects
Animals, Antibodies immunology, Antibody Specificity, Blotting, Western, Electrophoresis, Polyacrylamide Gel, Humans, Prostaglandins H metabolism, Rabbits, Rats, Rats, Sprague-Dawley, Receptors, Prostaglandin immunology, Receptors, Thromboxane immunology, Receptors, Thromboxane A2, Prostaglandin H2, Aorta metabolism, Blood Platelets metabolism, Brain metabolism, Chromatography, Affinity methods, Receptors, Prostaglandin isolation & purification, Receptors, Thromboxane isolation & purification
Abstract

In the present study, a new polyclonal antibody (TxAb) was raised against native thromboxane A2 (TXA2)/prostaglandin H2 (PGH2) receptor protein. Previously developed anti-peptide antibodies (P1Ab, P2Ab) and TxAb were then used to prepare immunoaffinity columns to purify TXA2/PGH2 receptors from platelets, brain, and aorta. In platelets, SDS-polyacrylamide gel electrophoresis revealed the purification of a 55-kDa protein by each affinity column. Identification of this protein as the TXA2/PGH2 receptor was based on: 1) an identical electrophoretic mobility to authentic receptor; 2) immunoblotting of TxAb against P1Ab and P2Ab-purified protein; 3) immunoblotting of P1Ab/P2Ab against TxAb-purified protein; and 4) specific [3H]SQ29,548 binding to TxAb-purified protein. P1Ab/TxAb purification of receptors from brain revealed a major protein band at 55 kDa. Furthermore, the eluates from ligand affinity chromatography confirmed the presence of this 55-kDa protein in brain (which was immunoblotted with TxAb), and contained specific [3H]SQ29,548 binding. In addition to the 55-kDa protein, P1Ab/TxAb also purified a minor protein in brain at 52 kDa, which when concentrated, cross-blotted with TxAb and P1Ab. This finding indicates sequence homology between the 55- and 52-kDa proteins. Independent identification of brain TXA2/PGH2 receptors was provided by P2Ab/TxAb immunohistochemistry, which demonstrated specific labeling of discrete myelin-containing fiber tracts. P2Ab/TxAb purification of TXA2/PGH2 receptors from aorta also revealed a major protein band at 55 kDa and a minor band at 52 kDa. These results represent the first purification of TXA2/PGH2 receptors from either brain or aorta.

Published
1994

7. Selective modulation of the human platelet thromboxane A2/prostaglandin H2 receptor by eicosapentaenoic and docosahexaenoic acids in intact platelets and solubilized platelet membranes.

Author

Parent CA, Lagarde M, Venton DL, and Le Breton GC

Subjects
Blood Platelets drug effects, Bridged Bicyclo Compounds, Heterocyclic, Cell Membrane drug effects, Cell Membrane metabolism, Cholic Acids, Detergents, Digitonin pharmacology, Fatty Acids, Unsaturated, Humans, Hydrazines metabolism, Hydrazines pharmacology, Platelet Aggregation drug effects, Platelet Aggregation Inhibitors pharmacology, Prostaglandin Endoperoxides, Synthetic pharmacology, Prostaglandins H metabolism, Receptors, Prostaglandin metabolism, Receptors, Thromboxane, Receptors, Thromboxane A2, Prostaglandin H2, Thromboxane A2 antagonists & inhibitors, Thromboxane A2 metabolism, Blood Platelets metabolism, Docosahexaenoic Acids pharmacology, Eicosapentaenoic Acid pharmacology, Receptors, Prostaglandin drug effects
Abstract

We previously demonstrated that nonesterified as well as esterified eicosapentaenoic acid (20:5n-3) and docosahexaenoic acid (22:6n-3) inhibit U46619-induced platelet aggregation and [3H]U46619 specific binding to washed human platelets. It was also demonstrated that esterification of these fatty acids resulted in a decrease in the affinity of [3H]U46619 for the thromboxane A2/prostaglandin H2 (TXA2/PGH2) receptor. In order to investigate the specificity of this inhibition, the effects of 20:5n-3 and 22:6n-3 on the function and binding of the platelet alpha 2-adrenergic receptor were studied. It was found that neither 20:5n-3 nor 22:6n-3 (nonesterified or esterified) altered epinephrine-induced aggregation or [3H]yohimbine specific binding. Moreover, Scatchard analysis revealed that esterification with either 20:5n-3 or 22:6n-3 did not alter the dissociation constant for [3H]yohimbine binding. Modulation of the TXA2/PGH2 receptor by 20:5n-3 and 22:6n-3 was next evaluated using CHAPS- and digitonin-solubilized platelet membranes. [3H]SQ29,548 dissociation constants of 26.5 nM and 20.8 nM were measured for CHAPS and digitonin-solubilized membranes, respectively. Competitive binding experiments in these solubilized preparations revealed that 20:5n-3 or 22:6n-3 blocked [3H] SQ29,548 binding with IC50 values in the range of 6-15 microM, while concentrations of these fatty acids of up to 100 microM showed no effect on [3H]yohimbine binding. On the other hand, the IC50 values for inhibition of [3H] SQ29,548 binding by linoleic acid (18:2n-6) and gamma-linolenic acid (18:3n-6) were in the range of 150 microM. Furthermore, 18:2n-6 and 18:3n-6 showed similar inhibitory effects on [3H]yohimbine binding. Finally, competition binding studies performed in a partially purified TXA2/PGH2 receptor preparation also demonstrated inhibition of [3H]SQ29,548 binding by 20:5n-3 and 22:6n-3. Collectively, these findings support the notion that 20:5n-3 and 22:6n-3 can selectively and directly modulate TXA2/PGH2 receptor function, and that this mechanism of action may contribute to the antiplatelet activity associated with diets rich in these fatty acids.

Published
1992

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