Abstract
BackgroundThe leaves of Annona purpurea have yielded several alkaloids with anti-aggregation activities against rabbit platelets. This is promising in the search for agents that might act against platelets and reduce the incidence of cardiovascular diseases. Since significant differences in platelet function have been reported between human and animal platelets, a study focusing on the effect of A. purpurea extracts against human platelet activation is necessary.MethodsThe compounds in an A. purpurea ethanolic extract underwent bio-guided fractionation and were used for in vitro human platelet aggregation assays to isolate the compounds with anti-platelet activity. The bioactive compounds were identified by spectroscopic analysis. Additional platelet studies were performed to characterize their action as inhibitors of human platelet activation.ResultsThe benzylisoquinoline alkaloid norpurpureine was identified as the major anti-platelet compound. The IC50 for norpurpureine was 80 μM against platelets when stimulated with adenosine 5′-diphosphate (ADP), collagen and thrombin. It was pharmacologically effective from 20 to 220 μM. Norpurpureine (220 μM) exhibited its in vitro effectiveness in samples from 30 healthy human donors who did not take any drugs during the 2 weeks prior to the collection. Norpurpureine also gradually inhibited granule secretion and adhesion of activated platelets to immobilized fibrinogen. At the intra-platelet level, norpurpureine prevented agonist-stimulated calcium mobilization and cAMP reduction. Structure–activity relationship analysis indicates that the lack of a methyl group at the nitrogen seems to be key in the ability of the compound to interact with its molecular target.ConclusionNorpurpureine displays a promising in vitro pharmacological profile as an inhibitor of human platelet activation. Its molecular target could be a common effector between Ca2+ and cAMP signaling, such as the PLC-PKC-Ca2+ pathway and PDEs. This needs further evaluation at the protein isoform level.
Highlights
The leaves of Annona purpurea have yielded several alkaloids with anti-aggregation activities against rabbit platelets
Norpurpureine, the major anti-platelet compound isolated from A. purpurea leaves We found that A. purpurea ethanolic extract (EE) at 250 μg/ml exhibited modest anti-platelet aggregation effects against adenosine 5′-diphosphate (ADP), collagen and thrombin
We found that the phorbol ester Phorbol 12-myristate 13-acetate (PMA), a non-selective Protein kinase C (PKC) activator, totally reversed the inhibition of norpurpureine on platelet aggregations stimulated by ADP and collagen but only partially reversed that inhibitory response on platelets stimulated by thrombin
Summary
The leaves of Annona purpurea have yielded several alkaloids with anti-aggregation activities against rabbit platelets. This is promising in the search for agents that might act against platelets and reduce the incidence of cardiovascular diseases. Despite the efficacy of dual anti-aggregation therapy, growing evidence of drug resistance for aspirin and clopidogrel [2] highlight the need to search for novel anti-platelet agents to reduce the incidence of cardiovascular diseases; which are the globally leading causes of death and disability [3]. Several anti-platelet compounds have been identified from different species of the Annona genus (Annonaceae) using rabbit platelets: acid amines from A. montana [5], aporphine alkaloids from A. purpurea [6, 7] and ent-kaurane diterpenoids from A. squamosa [8]. A. purpurea is widely distributed throughout the tropical and subtropical regions of Central America [9], making it an attractive source for pharmacologically active substances
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