Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives

Background: Pyrimidine is an important pharmacophore in the field of medicinal chemistry and exhibit a broad spectrum of biological potentials. A study was carried out to identify the target protein of potent bis-pyrimidine derivatives using reverse docking program. PharmMapper, a robust online tool...

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Published in:Chemistry Central Journal
Main Author: Kumar S.; Singh J.; Narasimhan B.; Shah S.A.A.; Lim S.M.; Ramasamy K.; Mani V.
Format: Article
Language:English
Published: BioMed Central Ltd. 2018
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85055212382&doi=10.1186%2fs13065-018-0475-5&partnerID=40&md5=4d1d8f4b504e59917143d823d3a73fec
id 2-s2.0-85055212382
spelling 2-s2.0-85055212382
Kumar S.; Singh J.; Narasimhan B.; Shah S.A.A.; Lim S.M.; Ramasamy K.; Mani V.
Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
2018
Chemistry Central Journal
12
1
10.1186/s13065-018-0475-5
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85055212382&doi=10.1186%2fs13065-018-0475-5&partnerID=40&md5=4d1d8f4b504e59917143d823d3a73fec
Background: Pyrimidine is an important pharmacophore in the field of medicinal chemistry and exhibit a broad spectrum of biological potentials. A study was carried out to identify the target protein of potent bis-pyrimidine derivatives using reverse docking program. PharmMapper, a robust online tool was used for identifying the target proteins based on reverse pharmacophore mapping. The murine macrophage (RAW 264.7) and human embryonic kidney (HEK-293) cancer cell line used for selectivity and safety study. Methods: An open web server PharmMapper was used to identify the possible target of the developed compounds through reverse pharmacophore mapping. The results were analyzed and validated through docking with Schrodinger v9.6 using 10 protein GTPase HRas selected as possible target. The docking studies with Schrödinger validated the binding behavior of bis-pyrimidine compounds within GTP binding pocket. MTT and sulforhodamine assay were used as antiproliferative activity. Results and discussion: The protein was found one of the top scored targets of the compound 18, hence, the GTPase HRas protein was found crucial to be targeted for competing cancer. Toxicity study demonstrated the significant selectivity of most active compounds, 12, 16 and 18 showed negligible cell toxicity at their IC50 concentration. Conclusion: From the results, we may conclude that GTPase HRas as a possible target of studied bis-pyrimidine derivatives where the retrieved information may be quite useful for rational drug designing. © 2018 The Author(s).
BioMed Central Ltd.
1752153X
English
Article
All Open Access; Gold Open Access
author Kumar S.; Singh J.; Narasimhan B.; Shah S.A.A.; Lim S.M.; Ramasamy K.; Mani V.
spellingShingle Kumar S.; Singh J.; Narasimhan B.; Shah S.A.A.; Lim S.M.; Ramasamy K.; Mani V.
Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
author_facet Kumar S.; Singh J.; Narasimhan B.; Shah S.A.A.; Lim S.M.; Ramasamy K.; Mani V.
author_sort Kumar S.; Singh J.; Narasimhan B.; Shah S.A.A.; Lim S.M.; Ramasamy K.; Mani V.
title Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
title_short Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
title_full Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
title_fullStr Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
title_full_unstemmed Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
title_sort Reverse pharmacophore mapping and molecular docking studies for discovery of GTPase HRas as promising drug target for bis-pyrimidine derivatives
publishDate 2018
container_title Chemistry Central Journal
container_volume 12
container_issue 1
doi_str_mv 10.1186/s13065-018-0475-5
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85055212382&doi=10.1186%2fs13065-018-0475-5&partnerID=40&md5=4d1d8f4b504e59917143d823d3a73fec
description Background: Pyrimidine is an important pharmacophore in the field of medicinal chemistry and exhibit a broad spectrum of biological potentials. A study was carried out to identify the target protein of potent bis-pyrimidine derivatives using reverse docking program. PharmMapper, a robust online tool was used for identifying the target proteins based on reverse pharmacophore mapping. The murine macrophage (RAW 264.7) and human embryonic kidney (HEK-293) cancer cell line used for selectivity and safety study. Methods: An open web server PharmMapper was used to identify the possible target of the developed compounds through reverse pharmacophore mapping. The results were analyzed and validated through docking with Schrodinger v9.6 using 10 protein GTPase HRas selected as possible target. The docking studies with Schrödinger validated the binding behavior of bis-pyrimidine compounds within GTP binding pocket. MTT and sulforhodamine assay were used as antiproliferative activity. Results and discussion: The protein was found one of the top scored targets of the compound 18, hence, the GTPase HRas protein was found crucial to be targeted for competing cancer. Toxicity study demonstrated the significant selectivity of most active compounds, 12, 16 and 18 showed negligible cell toxicity at their IC50 concentration. Conclusion: From the results, we may conclude that GTPase HRas as a possible target of studied bis-pyrimidine derivatives where the retrieved information may be quite useful for rational drug designing. © 2018 The Author(s).
publisher BioMed Central Ltd.
issn 1752153X
language English
format Article
accesstype All Open Access; Gold Open Access
record_format scopus
collection Scopus
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