Abstract
BackgroundGlobally, HIV/AIDS is a major public health issue. Currently, available antiretroviral therapy (ART) has a number of impediments. The need for long-term usage of antiretroviral drugs is associated with the problem of drug resistance, high cost, and other side effects. Hence, there is a constant urge for the development of novel drugs to combat the disease. The synthesis of nanoparticles is of great interest because of their reported application in diverse fields. In contrast to chemical synthesis, green synthesis is inexpensive and enviro-safe.ResultsCalophyllum inophyllum (CI) is a plant that is known to possess anti-HIV activity. Hence, this plant was exploited for the synthesis of gold nanoparticles (AuNPs) in the present study. Two parts of the plant, namely, the fruit and leaves (CIF and CIL) were used for the synthesis of nanocompounds. The two nanocompounds were tested on HIV-1 isolates at different concentrations and the EC50 values were determined. While CIF-AuNP demonstrated very good anti-HIV activity with an EC50 value of 0.09097 ng/ml, CIL-AuNPs did not show significant anti-HIV activity.ConclusionsThe present study is a novel attempt to produce nanocompounds that incorporate the medicinal properties of certain plants that are known to have anti-HIV activity within nanoparticles, such that the compound possesses the attributes of a nanomaterial alongside the phytoactivity. Our results provide evidence to suggest that the CIF-AuNP can be further explored for in vivo activity. In vitro cytotoxicity of the AuNPs was checked in VERO cell lines using the MTT assay. Cytotoxicity was observed to be minimal at all the tested concentrations.
Highlights
HIV/AIDS is a major public health issue
The gold nanoparticles were biosynthesized through reduction of higher metallic solution of Chloroauric acid with the fruit and leaf extracts of the plant Calophyllum inophyllum
3.1 Characterization of nanoparticles using UV-visible spectrophotometer The UV absorption peak corresponds to the wavelength at which the optical absorption spectra of the metal nanoparticles are dominated by surface plasmon resonances (SPR)
Summary
HIV/AIDS is a major public health issue. Currently, available antiretroviral therapy (ART) has a number of impediments. Nanotechnology is a discipline of science and engineering that has contributed significantly to the recent developments in many areas of medicine. It involves the design, engineering, and fabrication of materials at the atomic and molecular levels. When nanosized particles come into contact with biological systems, the nature of their interaction is critically influenced by the physicochemical properties. Scientists developed a new cocktail-like drug delivery vehicle using biodegradable polymeric nanoparticles with encapsulated nonnucleoside reverse transcriptase inhibitor and surface-conjugated with HIV-1 fusion inhibitor, with an aim to achieve enhanced cellular uptake, improved antiviral activity, and prolonged blood circulation time [3]
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