Margaret McDonough scite author profile

Platelets from two patients with essential thrombocythemia failed to aggregate or release serotonin in response to concentrations of epinephrine that aggregated platelets from normal controls. Therefore, we studied their alpha-adrenergic receptors, using 3H-dihydroergocryptine (3H-DHE), an alpha-adrenergic antagonist. These platelets contained an average (mean +/- S.E.) of 210 +/- 18 and 227 +/- 27 3H-DHE binding sites per platelet--less than half that found on control platelets, 464 +/- 37 (P less than 0.01). In contrast, platelets from two other patients with essential thrombocythemia responded to epinephrine and contained a normal number of 3H-DHE sites. Platelets in essential thrombocythemia demonstrated normal kinetics of 3H-DHE binding and normal affinities for 3H-DHE and for epinephrine. When control platelets were preincubated with a half-saturating concentration of 3H-DHE, there was a diminution of epinephrine-induced platelet function comparable to that seen in essential thrombocythemia. Thus, a deficiency of alpha-adrenergic receptors may account for diminished functional responsiveness of platelets to epinephrine in some patients with essential thrombocythemia.

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Inhibition of platelet phospholipid methylation during platelet secretion

Shattil

McDonough

Burch

1981

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A pathway for the synthesis of membrane phosphatidylcholine involving the N-methylation of phosphatidylethanolamine has been detected in several types of mammalian cells. Furthermore, it has been implicated in the coupling of agonist binding to cell response. We examined whether human platelets exhibit this synthetic pathway and whether platelet agonists influence its activity. When washed platelets were incubated with 0.15 microM L-[methyl-3H]methionine at 37 degrees C, they incorporated methyl-3H into their phospholipids linearly at the rate of 1 pmole/10(9) platelets/hr. When incubated with 20 microM radiolabeled methionine, they incorporated about 15 pmole/10(9) platelets/hr. The radioactivity was found predominantly in phosphatidyl- N-monomethylethanolamine, phosphatidyl-N,N-dimethylethanolamine, and phosphatidylcholine. Thrombin caused an immediate (within 15 sec) and sustained (up to 30 min) decrease in the rate and extent of N- methylation of platelet phospholipids. This was accounted for by a decrease in synthesis of methylated phospholipids rather than an increase in their degradation. This thrombin effect correlated with serotonin release and could be dissociated from platelet aggregation and prostaglandin synthesis. Thrombin also decreased the synthesis of phosphatidylcholine when choline was used as the radiolabeled substrate. Other agonists such as epinephrine, adenosine diphosphate (ADP), or A23187 also decreased phospholipid methylation under conditions in which they stimulated serotonin release. These data demonstrate that platelets are capable of synthesizing phosphatidylcholine from phosphatidylethanolamine by N-methylation and that agonists perturb this pathway as they induce platelet secretion. The precise role of phospholipid methylation in either resting or stimulated platelets remains to be established.

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The in vitro synthesis of polypeptides for the platelet membrane glycoproteins IIb and IIIa

Silver

McDonough

Vilaire

et al. 1987

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The platelet membrane glycoproteins IIb (GpIIb) and GpIIIa form calcium- dependent heterodimers containing binding sites for fibrinogen, von Willebrand factor, and fibronectin. Although GpIIb and GpIIIa are distinct proteins, both GpIIb and GpIIIa are deficient in platelets from individuals with the recessive disorder Glanzmann's thrombasthenia. To gain a better understanding of the genetic basis for GpIIb and GpIIIa synthesis, we studied their synthesis by two human leukemia cell lines, HEL and K562. HEL cells contained complexes of GpIIb and GpIIIa, and K562 cells expressed GpIIIa, but not GpIIb, when stimulated with phorbol-12-myristate-13-acetate (PMA). RNA from HEL cells directed the in vitro synthesis of a 110,000-Mr precursor for GpIIb and a 92,000-Mr precursor for GpIIIa, which indicates that the synthesis of GpIIb and GpIIIa by HEL cells is directed by separate mRNAs. In contrast, RNA from PMA-stimulated K562 cells only directed the synthesis of a 92,000-Mr precursor for GpIIIa. The dissociation of GpIIb and GpIIIa synthesis in K562 cells suggests that GpIIb and GpIIIa may be the products of separate genes.

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