Structure based medicinal chemistry-driven strategy to design substituted dihydropyrimidines as potential antileishmanial agents

In an attempt to explore novel and more potent antileishmanial compounds to diversify the current inhibitors, we pursued a medicinal chemistry-driven strategy to synthesize novel scaffolds with common pharmacophoric features of dihydropyrimidine and chalcone as current investigational antileishmania...

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Veröffentlicht in:	European journal of medicinal chemistry 2016-06, Vol.115, p.230-244
Hauptverfasser:	Rashid, Umer, Sultana, Riffat, Shaheen, Nargis, Hassan, Syed Fahad, Yaqoob, Farhana, Ahmad, Muhammad Jawad, Iftikhar, Fatima, Sultana, Nighat, Asghar, Saba, Yasinzai, Masoom, Ansari, Farzana Latif, Qureshi, Naveeda Akhter
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Sprache:	eng
Schlagworte:	Antiprotozoal Agents - chemical synthesis Antiprotozoal Agents - chemistry Antiprotozoal Agents - pharmacology Chalcones Chemistry, Pharmaceutical Dihydropyrimidine Docking Dose-Response Relationship, Drug Drug Design Drug Screening Assays, Antitumor Leishmania donovani - drug effects Leishmania major - drug effects Leishmaniasis Molecular Docking Simulation Molecular Structure Parasitic Sensitivity Tests Pyrimidines - chemical synthesis Pyrimidines - chemistry Pyrimidines - pharmacology Rigidification Structure based drug design Structure-Activity Relationship
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container_title	European journal of medicinal chemistry
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creator	Rashid, Umer Sultana, Riffat Shaheen, Nargis Hassan, Syed Fahad Yaqoob, Farhana Ahmad, Muhammad Jawad Iftikhar, Fatima Sultana, Nighat Asghar, Saba Yasinzai, Masoom Ansari, Farzana Latif Qureshi, Naveeda Akhter
description	In an attempt to explore novel and more potent antileishmanial compounds to diversify the current inhibitors, we pursued a medicinal chemistry-driven strategy to synthesize novel scaffolds with common pharmacophoric features of dihydropyrimidine and chalcone as current investigational antileishmanial compounds. Based on the reported X-ray structure of Pteridine reductase 1 (PTR1) from Leishmania major, we have designed a number of dihydropyrimidine-based derivatives to make specific interactions in PTR1 active site. Our lead compound 8i has shown potent in vitro antileishmanial activity against promastigotes of L. Major and Leishmania donovani with IC50 value of 0.47 μg/ml and 1.5 μg/ml respectively. The excellent in vitro activity conclusively revealed that our lead compound is efficient enough to eradicate both visceral and topical leishmaniasis. In addition, docking analysis and in silico ADMET predictions were also carried out. Predicted molecular properties supported our experimental analysis that these compounds have potential to eradicate both visceral and topical leishmaniasis. [Display omitted] •Structure based C-5 and C-6 modifications of 3,4-dihydropyrimidine core.•Modifications were found to have enhanced in vitro inhibition potential.•Compound 8i showed potent in vitro antileishmanial activity.•Molecular docking analysis was carried out.•Drug-like properties was evaluated through in silico ADMET predictions.
doi_str_mv	10.1016/j.ejmech.2016.03.022
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Based on the reported X-ray structure of Pteridine reductase 1 (PTR1) from Leishmania major, we have designed a number of dihydropyrimidine-based derivatives to make specific interactions in PTR1 active site. Our lead compound 8i has shown potent in vitro antileishmanial activity against promastigotes of L. Major and Leishmania donovani with IC50 value of 0.47 μg/ml and 1.5 μg/ml respectively. The excellent in vitro activity conclusively revealed that our lead compound is efficient enough to eradicate both visceral and topical leishmaniasis. In addition, docking analysis and in silico ADMET predictions were also carried out. Predicted molecular properties supported our experimental analysis that these compounds have potential to eradicate both visceral and topical leishmaniasis. 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Based on the reported X-ray structure of Pteridine reductase 1 (PTR1) from Leishmania major, we have designed a number of dihydropyrimidine-based derivatives to make specific interactions in PTR1 active site. Our lead compound 8i has shown potent in vitro antileishmanial activity against promastigotes of L. Major and Leishmania donovani with IC50 value of 0.47 μg/ml and 1.5 μg/ml respectively. The excellent in vitro activity conclusively revealed that our lead compound is efficient enough to eradicate both visceral and topical leishmaniasis. In addition, docking analysis and in silico ADMET predictions were also carried out. Predicted molecular properties supported our experimental analysis that these compounds have potential to eradicate both visceral and topical leishmaniasis. [Display omitted] •Structure based C-5 and C-6 modifications of 3,4-dihydropyrimidine core.•Modifications were found to have enhanced in vitro inhibition potential.•Compound 8i showed potent in vitro antileishmanial activity.•Molecular docking analysis was carried out.•Drug-like properties was evaluated through in silico ADMET predictions.</description><subject>Antiprotozoal Agents - chemical synthesis</subject><subject>Antiprotozoal Agents - chemistry</subject><subject>Antiprotozoal Agents - pharmacology</subject><subject>Chalcones</subject><subject>Chemistry, Pharmaceutical</subject><subject>Dihydropyrimidine</subject><subject>Docking</subject><subject>Dose-Response Relationship, Drug</subject><subject>Drug Design</subject><subject>Drug Screening Assays, Antitumor</subject><subject>Leishmania donovani - drug effects</subject><subject>Leishmania major - drug effects</subject><subject>Leishmaniasis</subject><subject>Molecular Docking Simulation</subject><subject>Molecular Structure</subject><subject>Parasitic Sensitivity Tests</subject><subject>Pyrimidines - chemical synthesis</subject><subject>Pyrimidines - chemistry</subject><subject>Pyrimidines - pharmacology</subject><subject>Rigidification</subject><subject>Structure based drug design</subject><subject>Structure-Activity Relationship</subject><issn>0223-5234</issn><issn>1768-3254</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kE1v2zAMhoVhRZOm_QfD4OMudikpkuLLgKHotgIFeuh2FmSJThT4I5PkAr71p09psh17EUXyJYn3IeQThYoClbf7Cvc92l3FclYBr4CxD2RJldyUnIn1R7LMFV4KxtcLchXjHgCEBLgkC6aAKiHokrw-pzDZNAUsGhPRFT06b_1gusLusPcxhbl0wb_gUOS_SbidizQWDqPf5tLUxOTTlPKk87vZhfEwB9975weMhYnFYUw4JJ_3mRw69HHXm-Et3-ZGvCYXreki3pzjivz-fv_r7mf5-PTj4e7bY2m5ZKmsQTJsuNigqmULwtVCceFahkYxQNrKus4v1I4qpdqNMiCtUW3TNqxpJPAV-XLaewjjnwlj0tmcxa4zA45T1FRtqFhzCjxL1yepDWOMAVt9yJZMmDUFfWSv9_rEXh_Za-D6SHpFPp8vTE2m-H_oH-ws-HoSYPb54jHoaD0ONhMPaJN2o3__wl9v1Zso</recordid><startdate>20160610</startdate><enddate>20160610</enddate><creator>Rashid, Umer</creator><creator>Sultana, Riffat</creator><creator>Shaheen, Nargis</creator><creator>Hassan, Syed Fahad</creator><creator>Yaqoob, Farhana</creator><creator>Ahmad, Muhammad Jawad</creator><creator>Iftikhar, Fatima</creator><creator>Sultana, Nighat</creator><creator>Asghar, Saba</creator><creator>Yasinzai, Masoom</creator><creator>Ansari, Farzana Latif</creator><creator>Qureshi, Naveeda Akhter</creator><general>Elsevier Masson SAS</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20160610</creationdate><title>Structure based medicinal chemistry-driven strategy to design substituted dihydropyrimidines as potential antileishmanial agents</title><author>Rashid, Umer ; 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Based on the reported X-ray structure of Pteridine reductase 1 (PTR1) from Leishmania major, we have designed a number of dihydropyrimidine-based derivatives to make specific interactions in PTR1 active site. Our lead compound 8i has shown potent in vitro antileishmanial activity against promastigotes of L. Major and Leishmania donovani with IC50 value of 0.47 μg/ml and 1.5 μg/ml respectively. The excellent in vitro activity conclusively revealed that our lead compound is efficient enough to eradicate both visceral and topical leishmaniasis. In addition, docking analysis and in silico ADMET predictions were also carried out. Predicted molecular properties supported our experimental analysis that these compounds have potential to eradicate both visceral and topical leishmaniasis. 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subjects	Antiprotozoal Agents - chemical synthesis Antiprotozoal Agents - chemistry Antiprotozoal Agents - pharmacology Chalcones Chemistry, Pharmaceutical Dihydropyrimidine Docking Dose-Response Relationship, Drug Drug Design Drug Screening Assays, Antitumor Leishmania donovani - drug effects Leishmania major - drug effects Leishmaniasis Molecular Docking Simulation Molecular Structure Parasitic Sensitivity Tests Pyrimidines - chemical synthesis Pyrimidines - chemistry Pyrimidines - pharmacology Rigidification Structure based drug design Structure-Activity Relationship
title	Structure based medicinal chemistry-driven strategy to design substituted dihydropyrimidines as potential antileishmanial agents
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