BACKGROUND: Leishmaniasis,a broad spectrum of diseases caused by several sister species of protozoa belonging to family trypanosomatidae and genus leishmania , generally affects poorer sections of the populace in third world countries. With the emergence of strains resistant to traditional therapies and the high cost of second line drugs which generally have severe side effects, it becomes imperative to continue the search for alternative drugs to combat the disease. In this work, the leishmanial genomes and the human genome have been compared to identify proteins unique to the parasite and whose structures (or those of close homologues) are available in the Protein Data Bank. Subsequent to the prioritization of these proteins (based on their essentiality, virulence factor etc.), inhibitors have been identified for a subset of these prospective drug targets by means of an exhaustive literature survey. A set of three dimensional protein-ligand complexes have been assembled from the list of leishmanial drug targets by culling structures from the Protein Data Bank or by means of template based homology modeling followed by ligand docking with the GOLD software. Based on these complexes several structure based pharmacophores have been designed and used to search for alternative inhibitors in the ZINC database. RESULT: This process led to a list of prospective compounds which could serve as potential antileishmanials. These small molecules were also used to search the Drug Bank to identify prospective lead compounds already in use as approved drugs. Interestingly, paromomycin which is currently being used as an antileishmanial drug spontaneously appeared in the list, probably giving added confidence to the 'scaffold hopping' computational procedures adopted in this work. CONCLUSIONS: The report thus provides the basis to experimentally verify several lead compounds for their predicted antileishmanial activity and includes several useful data bases of prospective drug targets in leishmania, their inhibitors and protein--inhibitor three dimensional complexes.
BACKGROUND:Leishmaniasis,a broad spectrum of diseases caused by several sister species of protozoa belonging to family trypanosomatidae and genus leishmania , generally affects poorer sections of the populace in third world countries. With the emergence of strains resistant to traditional therapies and the high cost of second line drugs which generally have severe side effects, it becomes imperative to continue the search for alternative drugs to combat the disease. In this work, the leishmanial genomes and the human genome have been compared to identify proteins unique to the parasite and whose structures (or those of close homologues) are available in the Protein Data Bank. Subsequent to the prioritization of these proteins (based on their essentiality, virulence factor etc.), inhibitors have been identified for a subset of these prospective drug targets by means of an exhaustive literature survey. A set of three dimensional protein-ligand complexes have been assembled from the list of leishmanial drug targets by culling structures from the Protein Data Bank or by means of template based homology modeling followed by ligand docking with the GOLD software. Based on these complexes several structure based pharmacophores have been designed and used to search for alternative inhibitors in the ZINC database. RESULT: This process led to a list of prospective compounds which could serve as potential antileishmanials. These small molecules were also used to search the Drug Bank to identify prospective lead compounds already in use as approved drugs. Interestingly, paromomycin which is currently being used as an antileishmanial drug spontaneously appeared in the list, probably giving added confidence to the 'scaffold hopping' computational procedures adopted in this work. CONCLUSIONS: The report thus provides the basis to experimentally verify several lead compounds for their predicted antileishmanial activity and includes several useful data bases of prospective drug targets in leishmania, their inhibitors and protein--inhibitor three dimensional complexes.
Authors: Glyn R Hemsworth; Olga V Moroz; Mark J Fogg; Benjamin Scott; Cristina Bosch-Navarrete; Dolores González-Pacanowska; Keith S Wilson Journal: J Biol Chem Date: 2011-03-15 Impact factor: 5.157
Authors: Matthew W Nowicki; Lindsay B Tulloch; Liam Worralll; Iain W McNae; Véronique Hannaert; Paul A M Michels; Linda A Fothergill-Gilmore; Malcolm D Walkinshaw; Nicholas J Turner Journal: Bioorg Med Chem Date: 2008-03-21 Impact factor: 3.641
Authors: Fernán Agüero; Bissan Al-Lazikani; Martin Aslett; Matthew Berriman; Frederick S Buckner; Robert K Campbell; Santiago Carmona; Ian M Carruthers; A W Edith Chan; Feng Chen; Gregory J Crowther; Maria A Doyle; Christiane Hertz-Fowler; Andrew L Hopkins; Gregg McAllister; Solomon Nwaka; John P Overington; Arnab Pain; Gaia V Paolini; Ursula Pieper; Stuart A Ralph; Aaron Riechers; David S Roos; Andrej Sali; Dhanasekaran Shanmugam; Takashi Suzuki; Wesley C Van Voorhis; Christophe L M J Verlinde Journal: Nat Rev Drug Discov Date: 2008-10-17 Impact factor: 84.694
Authors: Michelle R Riley-Lovingshimer; Donald R Ronning; James C Sacchettini; Gregory D Reinhart Journal: Biochemistry Date: 2002-10-29 Impact factor: 3.162
Authors: Stephen Patterson; Magnus S Alphey; Deuan C Jones; Emma J Shanks; Ian P Street; Julie A Frearson; Paul G Wyatt; Ian H Gilbert; Alan H Fairlamb Journal: J Med Chem Date: 2011-09-01 Impact factor: 7.446
Authors: Wenqi Hu; Susan Sillaots; Sebastien Lemieux; John Davison; Sarah Kauffman; Anouk Breton; Annie Linteau; Chunlin Xin; Joel Bowman; Jeff Becker; Bo Jiang; Terry Roemer Journal: PLoS Pathog Date: 2007-03 Impact factor: 6.823