Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase
Specificity is an important aspect of structure-based drug design. Distinguishing between related targets in different organisms is often the key to therapeutic success. Pneumocystis carinii is a fungal opportunist which causes a crippling pneumonia in immunocompromised individuals. We report the id...
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th-mahidol.178812018-07-04T14:40:11Z Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase Daniel A. Gschwend Worachart Sirawaraporn Daniel V. Santi Irwin D. Kuntz University of California, San Francisco Mahidol University Helios Pharmaceuticals UCSF School of Pharmacy Biochemistry, Genetics and Molecular Biology Specificity is an important aspect of structure-based drug design. Distinguishing between related targets in different organisms is often the key to therapeutic success. Pneumocystis carinii is a fungal opportunist which causes a crippling pneumonia in immunocompromised individuals. We report the identification of novel inhibitors of P. carinii dihydrofolate reductase (DHFR) that are selective versus inhibition of human DHFR using computational molecular docking techniques. The Fine Chemicals Directory, a database of commercially available compounds, was screened with the DOCK program suite to produce a list of potential P. carinii DHFR inhibitors. We then used a postdocking refinement directed at discerning subtle structural and chemical features that might reflect species specificity. Of 40 compounds predicted to exhibit anti-Pneumocystis DHFR activity, each of novel chemical framework, 13 (33%) show IC50values better than 150 μM in an enzyme assay. These inhibitors were further assayed against human DHFR: 10 of the 13 (77%) bind preferentially to the fungal enzyme. The most potent compound identified is a 7 μM inhibitor of P. carinii DHFR with 25-fold selectivity. The ability of molecular docking methods to locate selective inhibitors reinforces our view of structure-based drug discovery as a valuable strategy, not only for identifying lead compounds, but also for addressing receptor specificity. 2018-07-04T07:40:11Z 2018-07-04T07:40:11Z 1997-09-18 Article Proteins: Structure, Function and Genetics. Vol.29, No.1 (1997), 59-67 10.1002/(SICI)1097-0134(199709)29:1<59::AID-PROT4>3.0.CO;2-A 08873585 2-s2.0-0030964552 https://repository.li.mahidol.ac.th/handle/123456789/17881 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=0030964552&origin=inward |
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Biochemistry, Genetics and Molecular Biology Daniel A. Gschwend Worachart Sirawaraporn Daniel V. Santi Irwin D. Kuntz Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase |
| description |
Specificity is an important aspect of structure-based drug design. Distinguishing between related targets in different organisms is often the key to therapeutic success. Pneumocystis carinii is a fungal opportunist which causes a crippling pneumonia in immunocompromised individuals. We report the identification of novel inhibitors of P. carinii dihydrofolate reductase (DHFR) that are selective versus inhibition of human DHFR using computational molecular docking techniques. The Fine Chemicals Directory, a database of commercially available compounds, was screened with the DOCK program suite to produce a list of potential P. carinii DHFR inhibitors. We then used a postdocking refinement directed at discerning subtle structural and chemical features that might reflect species specificity. Of 40 compounds predicted to exhibit anti-Pneumocystis DHFR activity, each of novel chemical framework, 13 (33%) show IC50values better than 150 μM in an enzyme assay. These inhibitors were further assayed against human DHFR: 10 of the 13 (77%) bind preferentially to the fungal enzyme. The most potent compound identified is a 7 μM inhibitor of P. carinii DHFR with 25-fold selectivity. The ability of molecular docking methods to locate selective inhibitors reinforces our view of structure-based drug discovery as a valuable strategy, not only for identifying lead compounds, but also for addressing receptor specificity. |
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University of California, San Francisco |
| author_facet |
University of California, San Francisco Daniel A. Gschwend Worachart Sirawaraporn Daniel V. Santi Irwin D. Kuntz |
| format |
Article |
| author |
Daniel A. Gschwend Worachart Sirawaraporn Daniel V. Santi Irwin D. Kuntz |
| author_sort |
Daniel A. Gschwend |
| title |
Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase |
| title_short |
Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase |
| title_full |
Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase |
| title_fullStr |
Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase |
| title_full_unstemmed |
Specificity in structure-based drug design: Identification of a novel, selective inhibitor of Pneumocystis carinii dihydrofolate reductase |
| title_sort |
specificity in structure-based drug design: identification of a novel, selective inhibitor of pneumocystis carinii dihydrofolate reductase |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/17881 |
| _version_ |
1763492384042123264 |