Van Ree T.Tsekoa TsepoMancama DaluMakungo, Thomas2016-02-122016-02-122016-02-12Makungo, T. 2016. The search for novel compunds targeting PfCDPK4 for therapeutic treatment of Malaria. . . http://hdl.handle.net/11602/400http://hdl.handle.net/11602/400Department of ChemistryMSc (Chemistry)Due to the increasing incidence of Plasmodium strains that are resistant to current frontline antimalarial drugs, malaria remains a global public health challenge. In recent years, the emergence of resistance to frontline antimalarial drugs including the more recently discovered artemisinin class drugs has become one of the greatest challenges of controlling malaria incidence and mortality. There is, therefore, an urgent need to develop novel targets and antimalarial drugs that are effective against drug-resistant malarial parasites. Recent studies have demonstrated that calcium dependent protein kinases (CDPKs) regulate a variety of biological processes in the malaria parasite Plasmodium falciparum and that CDPK4 is important for parasite development. The gene disruption of CDPK4 in Plasmodium berghei, which results in major defects in sexual differentiation of the parasite has highlighted the importance of CDPK4 in Plasmodium biology and suggests that it may be used as a target for therapeutic drugs. PfCDPK4 is expressed in the gamete/gametocyte stage, and this could make PfCDPK4 an essential target for malaria drug discovery. The structure of PfCDPK4 was used as a template in the discovery of malaria drug leads and in designing chemical compounds or inhibitors that will show anti-parasitic activity against the target molecule. The model structure of PfCDPK4 was generated through homology modelling, and model structure validation confirmed that the model structure of PfCDPK4 is of stereochemical quality. The molecular modelling approach of in silico screening was utilized in this research, wherein a large library of chemical compounds, some natural chemical compounds, and clinically approved kinase inhibitors were screened against the target molecule PfCDPK4. In silico screening of the Bio-Focus library against PfCDPK4 resulted in twenty-six compounds being identified; in vitro single screening at a concentration of 5 μM confirmed that three compounds exhibit moderate antimalarial activity against the NF54 strain of Plasmodium falciparum, with the percentage inhibition ranging between 42% and 47%.enUniversity of VendaMalariaUCTDAntimalarialMolecular modellingDockingProtein kinasePlasmodium616.9362Malaria -- South AfricaMalaria -- PreventionMalaria vaccineMalariotherapyThe search for novel compunds targeting PfCDPK4 for therapeutic treatment of MalariaDissertationMakungo T. The search for novel compunds targeting PfCDPK4 for therapeutic treatment of Malaria. []. , 2016 [cited yyyy month dd]. Available from: http://hdl.handle.net/11602/400Makungo, T. (2016). <i>The search for novel compunds targeting PfCDPK4 for therapeutic treatment of Malaria</i>. (). . Retrieved from http://hdl.handle.net/11602/400Makungo, Thomas. <i>"The search for novel compunds targeting PfCDPK4 for therapeutic treatment of Malaria."</i> ., , 2016. http://hdl.handle.net/11602/400TY - Dissertation AU - Makungo, Thomas AB - Due to the increasing incidence of Plasmodium strains that are resistant to current frontline antimalarial drugs, malaria remains a global public health challenge. In recent years, the emergence of resistance to frontline antimalarial drugs including the more recently discovered artemisinin class drugs has become one of the greatest challenges of controlling malaria incidence and mortality. There is, therefore, an urgent need to develop novel targets and antimalarial drugs that are effective against drug-resistant malarial parasites. Recent studies have demonstrated that calcium dependent protein kinases (CDPKs) regulate a variety of biological processes in the malaria parasite Plasmodium falciparum and that CDPK4 is important for parasite development. The gene disruption of CDPK4 in Plasmodium berghei, which results in major defects in sexual differentiation of the parasite has highlighted the importance of CDPK4 in Plasmodium biology and suggests that it may be used as a target for therapeutic drugs. PfCDPK4 is expressed in the gamete/gametocyte stage, and this could make PfCDPK4 an essential target for malaria drug discovery. The structure of PfCDPK4 was used as a template in the discovery of malaria drug leads and in designing chemical compounds or inhibitors that will show anti-parasitic activity against the target molecule. The model structure of PfCDPK4 was generated through homology modelling, and model structure validation confirmed that the model structure of PfCDPK4 is of stereochemical quality. The molecular modelling approach of in silico screening was utilized in this research, wherein a large library of chemical compounds, some natural chemical compounds, and clinically approved kinase inhibitors were screened against the target molecule PfCDPK4. In silico screening of the Bio-Focus library against PfCDPK4 resulted in twenty-six compounds being identified; in vitro single screening at a concentration of 5 μM confirmed that three compounds exhibit moderate antimalarial activity against the NF54 strain of Plasmodium falciparum, with the percentage inhibition ranging between 42% and 47%. DA - 2016-02-12 DB - ResearchSpace DP - Univen KW - Malaria KW - Antimalarial KW - Molecular modelling KW - Docking KW - Protein kinase KW - Plasmodium LK - https://univendspace.univen.ac.za PY - 2016 T1 - The search for novel compunds targeting PfCDPK4 for therapeutic treatment of Malaria TI - The search for novel compunds targeting PfCDPK4 for therapeutic treatment of Malaria UR - http://hdl.handle.net/11602/400 ER -