Journal of Experimental Pharmacology (Jun 2022)
Meriandra dianthera Aqueous Extract and Its Fraction Prevents Blood Coagulation by Specifically Inhibiting the Intrinsic Coagulation Pathway: An in vitro Study
Abstract
Filmon Kiflezghi Kiflemariam,1 Abiel Ghebrehiwet Tewelde,1 Ali Mahmud Hamid,1 Bilal Mussa Beshir,1 Samrawit Negasi Solomon,1 Tesfu Gonets Eman,1 Daniel Mebrahtu Abraha,1,2 Russom Kahsu,1 John Issac,1 Jeevan Jyoti Kaushik1 1Department of Clinical Laboratory Sciences, Asmara College of Health Sciences, Asmara, Eritrea; 2Department of Hematology, National Health Laboratory, Asmara, EritreaCorrespondence: Filmon Kiflezghi Kiflemariam, Department of Clinical Laboratory Sciences, Asmara College of Health Sciences, Asmara, Eritrea, Email [email protected]: Currently, cardiovascular disorders are the primary cause of mortality in the world and constitute a serious medical problem. Blood coagulation is an essential process to prevent excessive blood loss through injured blood vessels; however, abnormal blood clotting in the blood vessels can result in fatal cardiovascular disorders. This study investigated the in vitro anticoagulant activity of Meriandra dianthera crude extract and its fractions and their erythrocyte membrane stabilizing activity.Methods: The plant leaves were extracted by a decoction method and were further fractionated by a liquid–liquid partition with a solvent of crescent polarity. The in vitro anticoagulant activity of the plant extract and its fractions was assessed by PT and APTT assays, while the membrane stabilizing activity was determined through hypotonic induced hemolysis.Results: The crude aqueous leaf extract of Meriandra dianthera significantly (P < 0.001) prolonged the intrinsic clotting pathway measured by APTT by specifically acting on the intrinsic coagulation pathway. By using liquid–liquid fractionation, the residual aqueous fraction was identified as the fraction responsible for the anticoagulant activity of the crude extract as it significantly (P< 0.001) prolonged APTT while the other fractions failed. Both the crude extract and its aqueous residue fraction did not affect the extrinsic coagulation pathway measured by PT. In the membrane stabilizing assay, crude extract and aqueous residue fraction showed the highest membrane stabilizing activity.Conclusion: The crude extract and its aqueous residue fraction showed a potent in vitro anticoagulant and membrane stabilizing activity, which shows the potential of the plant’s leaves as a new source of bioactive molecules for coagulation-related disorders.Keywords: blood coagulation, in vitro, anticoagulant, fractionation, medicinal plant, prothrombin time, APTT, Meriandra dianthera
