Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds

Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds

Malaria is a protozoan disease caused by a unicellular parasite named Plasmodium (Phylum- Apicomplexa). World Health Organization has estimated roughly fifty percent of the world’s community lives under the continuing threat of malaria. The focus of drug discovery has increased towards valuable stru...

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Main Authors: Mohammad Murwih Alidmat, Melati Khairuddean, Naziera Mohammad Norman, Anis Nasihah Mohamed Asri, Mohd Hisyam Mohd Suhaimi, Garima Sharma
Format: Article
Language:English
Published: Elsevier 2021-09-01
Series:Arabian Journal of Chemistry
Subjects:
Chalcone
Pyrazoline
Pyrimidine
Malaria
Online Access:http://www.sciencedirect.com/science/article/pii/S1878535221003191
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spelling doaj-1b498a4cbc434bfe832f1c4ee24d0b3c2021-08-14T04:28:56ZengElsevierArabian Journal of Chemistry1878-53522021-09-01149103304Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compoundsMohammad Murwih Alidmat0Melati Khairuddean1Naziera Mohammad Norman2Anis Nasihah Mohamed Asri3Mohd Hisyam Mohd Suhaimi4Garima Sharma5School of Chemical Sciences, Universiti Sains Malaysia, 11800 Penang, MalaysiaSchool of Chemical Sciences, Universiti Sains Malaysia, 11800 Penang, Malaysia; Corresponding author.School of Chemical Sciences, Universiti Sains Malaysia, 11800 Penang, MalaysiaSchool of Chemical Sciences, Universiti Sains Malaysia, 11800 Penang, MalaysiaSchool of Chemical Sciences, Universiti Sains Malaysia, 11800 Penang, MalaysiaFaculty of Science, Motherhood University, Roorkee-Dehradun Road Bhagwanpur, Karaundi, Uttarakhand 247661, IndiaMalaria is a protozoan disease caused by a unicellular parasite named Plasmodium (Phylum- Apicomplexa). World Health Organization has estimated roughly fifty percent of the world’s community lives under the continuing threat of malaria. The focus of drug discovery has increased towards valuable structures known as chalcones, pyrazoline, and pyrimidine due to their extensive bioactivity in malaria treatment. In this study, four chalcone derivatives (1–4) have been synthesized via the Claisen-Schmidt condensation. New compounds of 12 pyrazolines (1–4)Ai-iii and eight pyrimidines, (1–4)Bi-ii derivatives have also been synthesized via a ring-closing reaction of the chalcones. All the synthesized compounds were characterized and tested against malaria. The results showed that compound 1Aiii exhibited significant antiproliferative effects against 3D7 and RKL9 with 3D7 = 2.1 μg/mL, IC80 3D7 = 8 μg/mL, and IC50 RKL9 when exposed to compared to the reference anticancer drug, CQ Chloroquine diphosphate, and Artemisinin. The molecular docking analysis showed that compounds 1, 1Aiii and 1Bi had entered the PfATP4 receptor pocket and had been stuck with the amino acids in a high affinity of binding.http://www.sciencedirect.com/science/article/pii/S1878535221003191ChalconePyrazolinePyrimidineMalaria
collection DOAJ
language English
format Article
sources DOAJ
author Mohammad Murwih Alidmat
Melati Khairuddean
Naziera Mohammad Norman
Anis Nasihah Mohamed Asri
Mohd Hisyam Mohd Suhaimi
Garima Sharma
spellingShingle Mohammad Murwih Alidmat
Melati Khairuddean
Naziera Mohammad Norman
Anis Nasihah Mohamed Asri
Mohd Hisyam Mohd Suhaimi
Garima Sharma
Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
Arabian Journal of Chemistry
Chalcone
Pyrazoline
Pyrimidine
Malaria
author_facet Mohammad Murwih Alidmat
Melati Khairuddean
Naziera Mohammad Norman
Anis Nasihah Mohamed Asri
Mohd Hisyam Mohd Suhaimi
Garima Sharma
author_sort Mohammad Murwih Alidmat
title Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
title_short Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
title_full Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
title_fullStr Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
title_full_unstemmed Synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
title_sort synthesis, characterization, docking study and biological evaluation of new chalcone, pyrazoline, and pyrimidine derivatives as potent antimalarial compounds
publisher Elsevier
series Arabian Journal of Chemistry
issn 1878-5352
publishDate 2021-09-01
description Malaria is a protozoan disease caused by a unicellular parasite named Plasmodium (Phylum- Apicomplexa). World Health Organization has estimated roughly fifty percent of the world’s community lives under the continuing threat of malaria. The focus of drug discovery has increased towards valuable structures known as chalcones, pyrazoline, and pyrimidine due to their extensive bioactivity in malaria treatment. In this study, four chalcone derivatives (1–4) have been synthesized via the Claisen-Schmidt condensation. New compounds of 12 pyrazolines (1–4)Ai-iii and eight pyrimidines, (1–4)Bi-ii derivatives have also been synthesized via a ring-closing reaction of the chalcones. All the synthesized compounds were characterized and tested against malaria. The results showed that compound 1Aiii exhibited significant antiproliferative effects against 3D7 and RKL9 with 3D7 = 2.1 μg/mL, IC80 3D7 = 8 μg/mL, and IC50 RKL9 when exposed to compared to the reference anticancer drug, CQ Chloroquine diphosphate, and Artemisinin. The molecular docking analysis showed that compounds 1, 1Aiii and 1Bi had entered the PfATP4 receptor pocket and had been stuck with the amino acids in a high affinity of binding.
topic Chalcone
Pyrazoline
Pyrimidine
Malaria
url http://www.sciencedirect.com/science/article/pii/S1878535221003191
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