AI Article Synopsis
- The study explores the use of polymer-drug conjugates to enhance the efficacy of zidovudine, an anti-HIV drug, both alone and with other drugs.
- Researchers prepared these conjugates using a specific polymerization method and analyzed their characteristics and potential.
- Results indicated that some conjugates showed strong effectiveness against pseudo-HIV-1, highlighting their promise as future anti-HIV treatments that warrant further investigation.
Article Abstract
Background: The incorporation of anti-HIV drugs into polymer to form polymer-drug conjugates has been reported to result in improved therapeutic activity. Zidovudine, an anti-HIV drug, was explored alone and in combination with known drug molecules using polyamidoaminebased carriers.
Objective: Polymer-drug conjugates incorporated with zidovudine, cinnamic acid, and 4-aminosalicylic acid were prepared and evaluated for their potential efficacy in vitro against pseudo- HIV-1.
Methods: Aqueous Michael addition polymerization reaction was employed to prepare the conjugates. The conjugates were incorporated with zidovudine, cinnamic acid, and 4-aminosalicylic acid. They were characterized by SEM/EDX, XRD, FTIR, NMR, LC-MS, particle size analysis, analysis, computational studies, and toxicity predictions.
Results: The conjugates displayed spherically shaped morphology. The in vitro findings showed that polymer-drug conjugates, T15 and T16, with a single drug were effective against pseudo- HIV-1 at high concentrations of 111.11 and 333.33 μg/mL, respectively. Molecular docking studies supported the results. Additionally, SwissADME, ProTox-II, and GUSAR (General Unrestricted Structure-Activity Relationships) analyses revealed that these compounds have promising antiviral potential.
Conclusion: The prepared polymer-drug conjugates with a single drug showed promising effects against the Pseudo-HIV-1, and the conjugates displayed features that make them potential anti- HIV therapeutics that require further studies.
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| http://dx.doi.org/10.2174/011570162X334858241008071722 | DOI Listing |
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