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  1. Anticancer Evaluation of Novel Quinazolinone Acetamides: Synthesis and Characterization
    Hakima F, Salfi R, Bhikshapathi D, Khan A
    Anticancer Agents Med Chem, 2021 May 24.
    PMID: 34030622 DOI: 10.2174/1871520621666210524164351
    BACKGROUND: According to the global cancer report of 2019, the burden of cancer will exceed more than 18 million becoming one of the major causes of global mortality rate. There is a pressing need to establish novel drug candidates for cancer treatment, though many anticancer agents are available in the market owing to their adverse effects. In recent years, quinazoline and its derivatives have been considered as a novel class of cancer chemotherapeutic agents that show promising activity against different tumors.

    OBJECTIVE: The objective of this study is to evaluate the anti-cancer potential of the novel class of quinazoline tethered acetamide derivatives against six different cancer cell lines.

    METHOD: A novel series of various substituted quinazolinone acetamides were synthesized through a feasible scheme. The synthetic scheme involves the conversion of benzoxazinone (from anthranilic acid and benzoyl chloride) intermediate to 3-amino quinazoline-4-one which is further converted to the final amide by tethering with the propionyl chloride employing Schotten-Baumann Reaction conditions. All the synthesized derivatives characterized by IR, 1HNMR and MASS spectral methods and anti-cancer activity evaluated by employing MTT assay for six cancer cell lines and one normal human cell line.

    RESULTS: All the synthesized compounds were screened for anti-cancer activity against six cancer cell lines, including A 549 (lung), DU 145 (prostate), HT 29 (colon), MCF-7 (breast), SiHA (cervical), B16F10 (mouse skin melanoma) and one normal human fibroblast cell lines. All the compounds displayed a decent cytotoxicity profile when compared with the standard drug, doxorubicin. Among the synthesized compounds (5a to 5n) tested, two compounds, 5f and 5g have demonstrated excellent cytotoxicity against SiHA and MCF-7 cancer cell lines.

    CONCLUSION: Comparatively, most of the compounds displayed decent cytotoxicity potential relative to the standard drug, doxorubicin. Further investigations are needed to establish the detailed mechanism of action of the developed novel quinazolinone acetamides.

  2. Lipid-based Nanocarriers for Cancer and Tumor Treatment
    Ansari MT, Ramlan TA, Jamaluddin NN, Zamri N, Salfi R, Khan A, et al.
    Curr Pharm Des, 2020;26(34):4272-4276.
    PMID: 32693760 DOI: 10.2174/1381612826666200720235752
    Cancer and tumor have been major reasons for numerous deaths in this century across the world. Many strategies have been designed to treat, diagnose, or prevent cancer. The success of chemotherapy largely depends on drug targeting. The advent of nanotechnology has vastly improved drug delivery for targeting and diagnosis. Nevertheless, the accuracy of drug targeting with polymeric nanoparticles has always been questionable. The polymeric nanoparticles synthesized from varieties of lipid-based compounds or combined with vectors, such as liposomes, ethosomes, and transfersomes, may allow the drug to overcome the issue of resistance to drug absorption in biological membranes. The combined effects of lipid-based nanocarriers are known to improve the efficacy and accuracy of polymeric nanoparticles. The present review explores the application of lipid based nanocarriers in the treatment and diagnosis of cancer A special focus is given to the use of lipid-based nanocarriers in the treatment, diagnosis, and mitigation of cancer located in blood, brain, lung, and colon. The treatment of these cancers has always been questionable as the chances of relapse are very high. The review encompasses the use of lipid-based nanocarriers in targeting tissue-specific cancer cells.
  3. Using Quality by Design Tools to Study Gel Formulation from Brassica juncea Leaves and Conducting its In vitro, In vivo, Molecular Docking, and ADMET Analyses
    Kanakal MM, Abbas SA, Khan A, Sultana S, Fatima H, Tabasssum R, et al.
    Antiinflamm Antiallergy Agents Med Chem, 2024;23(3):187-204.
    PMID: 39082166 DOI: 10.2174/0118715230309053240718122527
    INTRODUCTION: This research aims to create a gel formulation of Brassica juncea leaf extract and assess its anti-inflammatory properties using an in silico study. The anti-inflammatory activity has been compared with Diclofenac molecules in PDB id: 4Z69. Further, the Absorption, Distribution, Metabolism, Excretion, and Toxicity analysis has been performed to ensure the therapeutic potential and safety of the drug development process. The Quality by Design tool has been applied to optimize formulation development.

    METHODS: The extracted gel is characterized by performing Fourier transformer infrared, zeta potential, particle size, Scanning Electron Microscope, and entrapment efficiency. Further, the formulation is evaluated by examining its viscosity, spreadability, and pH measurement. An In vitro study of all nine extract suspensions was conducted to determine the drug contents at 276 nm.

    RESULTS: The optimized suspension has shown the maximum percentage of drug release (82%) in 10 hours of study. Animal study for anti-inflammatory activity was performed, and results of all five groups of animals compared the % inhibition of paw edema at three hours; gel (56.70%), standard (47.86%), and (39.72%) were found.

    CONCLUSION: The research could conclude that the anti-inflammatory activity of gel formulation is high compared to extract, and a molecular docking study validates the anti-inflammatory therapeutic effects. ADMET analysis ensures the therapeutic effects and their safety.

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