Cargando…
Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds
Human African trypanosomiasis is caused by the eukaryotic microbe Trypanosoma brucei. To discover new drugs against the disease, one may use drugs in the clinic for other indications whose chemical scaffolds can be optimized via a medicinal chemistry campaign to achieve greater potency against the t...
Autores principales: | , , , , , , , |
---|---|
Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Public Library of Science
2013
|
Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3577790/ https://www.ncbi.nlm.nih.gov/pubmed/23437089 http://dx.doi.org/10.1371/journal.pone.0056150 |
_version_ | 1782259973069209600 |
---|---|
author | Katiyar, Samiksha Kufareva, Irina Behera, Ranjan Thomas, Sarah M. Ogata, Yuko Pollastri, Michael Abagyan, Ruben Mensa-Wilmot, Kojo |
author_facet | Katiyar, Samiksha Kufareva, Irina Behera, Ranjan Thomas, Sarah M. Ogata, Yuko Pollastri, Michael Abagyan, Ruben Mensa-Wilmot, Kojo |
author_sort | Katiyar, Samiksha |
collection | PubMed |
description | Human African trypanosomiasis is caused by the eukaryotic microbe Trypanosoma brucei. To discover new drugs against the disease, one may use drugs in the clinic for other indications whose chemical scaffolds can be optimized via a medicinal chemistry campaign to achieve greater potency against the trypanosome. Towards this goal, we tested inhibitors of human EGFR and/or VEGFR as possible anti-trypanosome compounds. The 4-anilinoquinazolines canertinib and lapatinib, and the pyrrolopyrimidine AEE788 killed bloodstream T. brucei in vitro with GI(50) in the low micromolar range. Curiously, the genome of T. brucei does not encode EGFR or VEGFR, indicating that the drugs recognize alternate proteins. To discover these novel targets, a trypanosome lysate was adsorbed to an ATP-sepharose matrix and washed with a high salt solution followed by nicotinamide adenine dinucleotide (NAD(+)). Proteins that remained bound to the column were eluted with drugs, and identified by mass spectrometry/bioinformatics. Lapatinib bound to Tb927.4.5180 (termed T. brucei lapatinib-binding protein kinase-1 (TbLBPK1)) while AEE788 bound Tb927.5.800 (TbLBPK2). When the NAD(+) wash was omitted from the protocol, AEE788, canertinib and lapatinib eluted TbLBPK1, TbLBPK2, and Tb927.3.1570 (TbLBPK3). In addition, both canertinib and lapatinib eluted Tb10.60.3140 (TbLBPK4), whereas only canertinib desorbed Tb10.61.1880 (TbCBPK1). Lapatinib binds to a unique conformation of protein kinases. To gain insight into the structural basis for lapatinib interaction with TbLBPKs, we constructed three-dimensional models of lapatinib•TbLBPK complexes, which confirmed that TbLBPKs can adopt lapatinib-compatible conformations. Further, lapatinib, AEE788, and canertinib were docked to TbLBPKs with favorable scores. Our studies (a) present novel targets of kinase-directed drugs in the trypanosome, and (b) offer the 4-anilinoquinazoline and pyrrolopyrimidines as scaffolds worthy of medicinal chemistry and structural biology campaigns to develop them into anti-trypanosome drugs. |
format | Online Article Text |
id | pubmed-3577790 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2013 |
publisher | Public Library of Science |
record_format | MEDLINE/PubMed |
spelling | pubmed-35777902013-02-22 Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds Katiyar, Samiksha Kufareva, Irina Behera, Ranjan Thomas, Sarah M. Ogata, Yuko Pollastri, Michael Abagyan, Ruben Mensa-Wilmot, Kojo PLoS One Research Article Human African trypanosomiasis is caused by the eukaryotic microbe Trypanosoma brucei. To discover new drugs against the disease, one may use drugs in the clinic for other indications whose chemical scaffolds can be optimized via a medicinal chemistry campaign to achieve greater potency against the trypanosome. Towards this goal, we tested inhibitors of human EGFR and/or VEGFR as possible anti-trypanosome compounds. The 4-anilinoquinazolines canertinib and lapatinib, and the pyrrolopyrimidine AEE788 killed bloodstream T. brucei in vitro with GI(50) in the low micromolar range. Curiously, the genome of T. brucei does not encode EGFR or VEGFR, indicating that the drugs recognize alternate proteins. To discover these novel targets, a trypanosome lysate was adsorbed to an ATP-sepharose matrix and washed with a high salt solution followed by nicotinamide adenine dinucleotide (NAD(+)). Proteins that remained bound to the column were eluted with drugs, and identified by mass spectrometry/bioinformatics. Lapatinib bound to Tb927.4.5180 (termed T. brucei lapatinib-binding protein kinase-1 (TbLBPK1)) while AEE788 bound Tb927.5.800 (TbLBPK2). When the NAD(+) wash was omitted from the protocol, AEE788, canertinib and lapatinib eluted TbLBPK1, TbLBPK2, and Tb927.3.1570 (TbLBPK3). In addition, both canertinib and lapatinib eluted Tb10.60.3140 (TbLBPK4), whereas only canertinib desorbed Tb10.61.1880 (TbCBPK1). Lapatinib binds to a unique conformation of protein kinases. To gain insight into the structural basis for lapatinib interaction with TbLBPKs, we constructed three-dimensional models of lapatinib•TbLBPK complexes, which confirmed that TbLBPKs can adopt lapatinib-compatible conformations. Further, lapatinib, AEE788, and canertinib were docked to TbLBPKs with favorable scores. Our studies (a) present novel targets of kinase-directed drugs in the trypanosome, and (b) offer the 4-anilinoquinazoline and pyrrolopyrimidines as scaffolds worthy of medicinal chemistry and structural biology campaigns to develop them into anti-trypanosome drugs. Public Library of Science 2013-02-20 /pmc/articles/PMC3577790/ /pubmed/23437089 http://dx.doi.org/10.1371/journal.pone.0056150 Text en © 2013 Katiyar et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited. |
spellingShingle | Research Article Katiyar, Samiksha Kufareva, Irina Behera, Ranjan Thomas, Sarah M. Ogata, Yuko Pollastri, Michael Abagyan, Ruben Mensa-Wilmot, Kojo Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds |
title | Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds |
title_full | Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds |
title_fullStr | Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds |
title_full_unstemmed | Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds |
title_short | Lapatinib-Binding Protein Kinases in the African Trypanosome: Identification of Cellular Targets for Kinase-Directed Chemical Scaffolds |
title_sort | lapatinib-binding protein kinases in the african trypanosome: identification of cellular targets for kinase-directed chemical scaffolds |
topic | Research Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3577790/ https://www.ncbi.nlm.nih.gov/pubmed/23437089 http://dx.doi.org/10.1371/journal.pone.0056150 |
work_keys_str_mv | AT katiyarsamiksha lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT kufarevairina lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT beheraranjan lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT thomassarahm lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT ogatayuko lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT pollastrimichael lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT abagyanruben lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds AT mensawilmotkojo lapatinibbindingproteinkinasesintheafricantrypanosomeidentificationofcellulartargetsforkinasedirectedchemicalscaffolds |