![Figure 4. Exogenous TxA2 restores aggregation, PKC activation, and dense granule secretion in Cvx-stimulated CalDAG-GEFI−/− platelets. (A) Left: Aggregation of WT platelets stimulated with low dose Cvx (100 ng/mL). Right: Aggregation traces for CalDAG-GEFI−/− platelets activated with 100 ng/mL Cvx, 500 nM U46619, or the combination of both agonists. Platelet aggregation was studied in the presence of 75 μM 2-MesAMP or 5 μg/mL Ro31-8220 to block signaling by P2Y12 and PKC, respectively. Results are representative of 5 individual experiments. (B) CalDAG-GEFI–deficient platelets were stimulated with low dose (LD) Cvx (100 ng/mL) and/or U46619 (3 μM) in the presence or absence of 2-MesAMP. Binding of JON/A-PE was measured to determine the level of αIIbβ3 activation by flow cytometry. n = 6. **P < .001, *P < .05. (C) Detection of phosphorylated PKC substrates in platelet lysates (Western blotting). WT (left lanes) and CalDAG-GEFI−/− (knockout [KO], central lanes) platelets were stimulated for 10 minutes with 100 ng/mL Cvx, 500 nM U46619, or the combination of both agonists. Phosphorylation of PKC substrates, including PLEK (←), in WT platelets pretreated with Ro31-8220 (10 μg/mL) or activated with phorbol myristate acetate (100 nM) were determined as controls (right panel). Results are representative of 3 independent experiments. (D) 3H-serotonin release in WT (black line, ●) or CalDAG-GEFI−/− (gray line, gray triangle) platelets activated with 100 ng/mL Cvx. After 3 minutes, 500 nM U46619 was added to CalDAG-GEFI−/− platelets. Experiments were performed in the presence (open symbols) or absence (filled symbols) of the PKC inhibitor Ro31-8220 (n = 3).](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/114/12/10.1182_blood-2009-04-218768/4/zh89990941970004.jpeg?Expires=1724940618&Signature=ywd9r3KnOI~BewEiNsvXrJn3BGDLIzwTyCoKcMePyJWMZmhX2prl3CkAFd9kW7LKX~BKL9S19SEsy81I6LBj6xSwgpAqH05ou6SmvZCcJJ9lKL7wgwaE0IxANzrs-Lu3FX-iDTSwXVU2-lA9Rl5s3QEPTJWqem14sxhMGXqfcaceka3fMCgmwrYo2ndChHyxmVXNNb46Q~9d7VApeQJ-swmkjxH~5KBXIkIAw64IHE7Df~dbK~U9j6tqrlfKtIRCqrjIOdz0K-XfnOa~HzPujOsBaWNRmQx1BKRbtXJ6J3XtKOFgapL0CgNJTAyif~9N08w7TJy01pnfujZ8AChjBQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
Exogenous TxA2 restores aggregation, PKC activation, and dense granule secretion in Cvx-stimulated CalDAG-GEFI−/− platelets. (A) Left: Aggregation of WT platelets stimulated with low dose Cvx (100 ng/mL). Right: Aggregation traces for CalDAG-GEFI−/− platelets activated with 100 ng/mL Cvx, 500 nM U46619, or the combination of both agonists. Platelet aggregation was studied in the presence of 75 μM 2-MesAMP or 5 μg/mL Ro31-8220 to block signaling by P2Y12 and PKC, respectively. Results are representative of 5 individual experiments. (B) CalDAG-GEFI–deficient platelets were stimulated with low dose (LD) Cvx (100 ng/mL) and/or U46619 (3 μM) in the presence or absence of 2-MesAMP. Binding of JON/A-PE was measured to determine the level of αIIbβ3 activation by flow cytometry. n = 6. **P < .001, *P < .05. (C) Detection of phosphorylated PKC substrates in platelet lysates (Western blotting). WT (left lanes) and CalDAG-GEFI−/− (knockout [KO], central lanes) platelets were stimulated for 10 minutes with 100 ng/mL Cvx, 500 nM U46619, or the combination of both agonists. Phosphorylation of PKC substrates, including PLEK (←), in WT platelets pretreated with Ro31-8220 (10 μg/mL) or activated with phorbol myristate acetate (100 nM) were determined as controls (right panel). Results are representative of 3 independent experiments. (D) 3H-serotonin release in WT (black line, ●) or CalDAG-GEFI−/− (gray line, gray triangle) platelets activated with 100 ng/mL Cvx. After 3 minutes, 500 nM U46619 was added to CalDAG-GEFI−/− platelets. Experiments were performed in the presence (open symbols) or absence (filled symbols) of the PKC inhibitor Ro31-8220 (n = 3).
