We have purified from human placenta an anticoagulatory protein (VAC, Mr= 32,000),
which inhibits phospholipid dependent procoagulant reactions through a calcium dependent
high affinity binding to procoagulant phospholipids..When tested in citrated platelet
rich plasma (cPRP), VAC does not affect platelet aggregation and secretion in reponse to ADP, collagen
and thrombin. Purified VAC (0.05 μM, final concentration; f.c.) was used as an anticoagulant
to prepare PRP (VAC-PRP). Platelet aggregation (optical density method) and release
of newly absorbed 14C-sero-tonin (5HT) in response to adenosine diphospate (ADP) were measured and compared
with platelet responses incPRP obtained simultaneously fromthe same donor.
The response of ADP stimulated platelets in VAC-PRP differs strikingly from that in
cPRP. In the latter, platelets react with a dose-dependent primary aggregation, followed
by a thrombin (Ila)-independent second wave of aggregation associated with 5HT-secre-tion.Platelets
in VAC-PRP, however, demonstratean increased primary aggregation in responseto ADP,
which is followed by a IIa-mediated second wave of aggregation and 5HT-secretion.Increasing
the VAC concentration does not affect the primary aggregation response, but delayed
the IIa-dependent secondary events in a dose-dependent way. At 0.5 μ M VAC, platelets
react to ADP (10 μM f.c.) with reversible aggregation only. No matter this high ADP-dose,
secretion reaction does not occur. At this VAC concentration, epinephrine (5 μM f.c.)
does not cause aggregation and 5HT-release at all, whereas incPRP both reactions occur quite readily. Although in VAC-PRP, epinephrine retains its
synergistic effect on ADP to aggregate platelets, no 5HT release was ever observed
and the resulting aggregation was alwaysreversible It is concluded that VAC is a suitable
anticoagulant to investigate platelet function in the presence of physiological calcium
concentration. Since platelet aggregation and release appear very different from results
obtained in the usual way (cPRP, low calcium concentration) the physiological meaning
of this latter method needs re-evaluation. Finally, our results cast severe doubt
on epinephrine as an important platelet stimulant under physiological conditions.
