Computer-Aided Design and Synthesis of (Functionalized quinazoline)-(α-substituted coumarin)-arylsulfonate Conjugates against Chikungunya Virus.
Reuben Jih-Ru HwuAnimesh RoyShwu-Chen TsayWen-Chieh HuangChun-Cheng LinKuo Chu HwangYu-Chen HuFa-Kuen ShiehPieter LeyssenJohan NeytsPublished in: International journal of molecular sciences (2022)
Chikungunya virus (CHIKV) has repeatedly spread via the bite of an infected mosquito and affected more than 100 countries. The disease poses threats to public health and the economy in the infected locations. Many efforts have been devoted to identifying compounds that could inhibit CHIKV. Unfortunately, successful clinical candidates have not been found yet. Computations through the simulating recognition process were performed on complexation of the nsP3 protein of CHIKV with the structures of triply conjugated drug lead candidates. The outcomes provided the aid on rational design of functionalized quinazoline-(α-substituted coumarin)-arylsulfonate compounds to inhibit CHIKV in Vero cells. The molecular docking studies showed a void space around the β carbon atom of coumarin when a substituent was attached at the α position. The formed vacancy offered a good chance for a Michael addition to take place owing to steric and electronic effects. The best conjugate containing a quinazolinone moiety exhibited potency with EC 50 = 6.46 μM, low toxicity with CC 50 = 59.7 μM, and the selective index (SI) = 9.24. Furthermore, the corresponding 4-anilinoquinazoline derivative improved the anti-CHIKV potency to EC 50 = 3.84 μM, CC 50 = 72.3 μM, and SI = 18.8. The conjugate with 4-anilinoquinazoline exhibited stronger binding affinity towards the macro domain than that with quinazolinone via hydrophobic and hydrogen bond interactions.
Keyphrases
- molecular docking
- public health
- aedes aegypti
- fluorescent probe
- dengue virus
- zika virus
- molecular dynamics simulations
- cancer therapy
- induced apoptosis
- quantum dots
- room temperature
- type diabetes
- cell cycle arrest
- emergency department
- photodynamic therapy
- high resolution
- binding protein
- skeletal muscle
- quality improvement
- ionic liquid
- adipose tissue
- protein protein
- amino acid
- transcription factor
- cell proliferation
- case control