OBJECTIVES: The aim of this study was to resolve the putative pathway responsible for death induced by peganine hydrochloride dihydrate isolated from Peganum harmala seeds at cellular, structural and molecular level in Leishmania donovani, a causative agent of fatal visceral leishmaniasis. METHODS: The mode of action was assessed using various biochemical approaches including phosphatidylserine exposure, estimation of mitochondrial transmembrane potential and in situ dUTP nick end labelling staining of nicked DNA in the parasite. Molecular modelling and molecular dynamics studies were conducted with DNA topoisomerase I to identify the target of peganine hydrochloride dihydrate mediating apoptosis. Further, DNA topoisomerase I inhibition by peganine hydrochloride dihydrate was also assessed using an L. donovani topoisomerase I relaxation assay. RESULTS: Peganine hydrochloride dihydrate, besides being safe, was found to induce apoptosis in both the stages of L. donovani via loss of mitochondrial transmembrane potential. Molecular docking studies suggest that a binding interaction with DNA topoisomerase I of L. donovani (binding energy of -79 kcal/mol) forms a stable complex, indicating a possible role in apoptosis. The compound also inhibits L. donovani topoisomerase I. CONCLUSIONS: The compound induces apoptosis in L. donovani and inhibits DNA topoisomerase I.
OBJECTIVES: The aim of this study was to resolve the putative pathway responsible for death induced by peganine hydrochloride dihydrate isolated from Peganum harmala seeds at cellular, structural and molecular level in Leishmania donovani, a causative agent of fatal visceral leishmaniasis. METHODS: The mode of action was assessed using various biochemical approaches including phosphatidylserine exposure, estimation of mitochondrial transmembrane potential and in situ dUTP nick end labelling staining of nicked DNA in the parasite. Molecular modelling and molecular dynamics studies were conducted with DNA topoisomerase I to identify the target of peganine hydrochloride dihydrate mediating apoptosis. Further, DNA topoisomerase I inhibition by peganine hydrochloride dihydrate was also assessed using an L. donovani topoisomerase I relaxation assay. RESULTS:Peganine hydrochloride dihydrate, besides being safe, was found to induce apoptosis in both the stages of L. donovani via loss of mitochondrial transmembrane potential. Molecular docking studies suggest that a binding interaction with DNA topoisomerase I of L. donovani (binding energy of -79 kcal/mol) forms a stable complex, indicating a possible role in apoptosis. The compound also inhibits L. donovani topoisomerase I. CONCLUSIONS: The compound induces apoptosis in L. donovani and inhibits DNA topoisomerase I.
Authors: Juliana da Câmara Rocha; Klinger Antonio da Franca Rodrigues; Patrícia Lima do Nascimento Néris; Larisse Virgolino da Silva; Fernanda Silva Almeida; Viviane Silva Lima; Rephany Fonseca Peixoto; Juliene da Câmara Rocha; Fátima de Lourdes Assunção Araújo de Azevedo; Robson Cavalcanti Veras; Isac Almeida de Medeiros; Wagner André Vieira da Silva; Claudio G Lima-Junior; Mário Luiz Araújo de Almeida Vasconcellos; Ian Porto Gurgel do Amaral; Márcia Rosa de Oliveira; Tatjana de Souza Lima Keesen Journal: Parasitol Res Date: 2019-08-07 Impact factor: 2.289
Authors: Jason Davenport; Maurie Balch; Lakshmi Galam; Antwan Girgis; Jessica Hall; Brian S J Blagg; Robert L Matts Journal: Biology (Basel) Date: 2014-02-10