Skuredina, A.A.; Kopnova, T.Y.; Belogurova, N.G.; Kudryashova, E.V. Encapsulation of Ciprofloxacin into a Cyclodextrin Polymer Matrix: The Complex Formation with Human Serum Albumin and In Vitro Studies. Chemistry2023, 5, 1942-1960.
Skuredina, A.A.; Kopnova, T.Y.; Belogurova, N.G.; Kudryashova, E.V. Encapsulation of Ciprofloxacin into a Cyclodextrin Polymer Matrix: The Complex Formation with Human Serum Albumin and In Vitro Studies. Chemistry 2023, 5, 1942-1960.
Skuredina, A.A.; Kopnova, T.Y.; Belogurova, N.G.; Kudryashova, E.V. Encapsulation of Ciprofloxacin into a Cyclodextrin Polymer Matrix: The Complex Formation with Human Serum Albumin and In Vitro Studies. Chemistry2023, 5, 1942-1960.
Skuredina, A.A.; Kopnova, T.Y.; Belogurova, N.G.; Kudryashova, E.V. Encapsulation of Ciprofloxacin into a Cyclodextrin Polymer Matrix: The Complex Formation with Human Serum Albumin and In Vitro Studies. Chemistry 2023, 5, 1942-1960.
Abstract
Modern medical needs call for the efficient remedies against bacterial diseases including severe pulmonary infections reported as a secondary SARS-Cov-2 infection. Here, we propose imprinted drug ciprofloxacin (CF) into the polymer based on methyl-β-cyclodextrin (MCD) via template synthesis. The obtained polycarbamide nanoparticles possess CF's sustained drug release. The interaction of human serum albumin (HSA) with CF and CF-MCD carriers was conducted by FRET, FTIR, fluorescence, and circular dichroism spectroscopy. These studies uncovered that MCD decreases CF's binding efficiency by 2 times, whereas CF’s encapsulation in polymer matrix doubles the Ka value. The changes in HSA’s secondary structure indicate no alterations in the main mechanism of complex formation between CF and HSA in the presence of MCD-based carries. The drug delivery system demonstrates prolonged CF release at pH 7.4 in presence of HSA (model conditions of blood plasma). CF-MCD carriers inhibit E. coli and B. subtilis growth, but for MAX systems we observed a MIC’s increase (~2 times). We believe that our findings are important for further development of new efficient drug forms.
Keywords
ciprofloxacin; cyclodextrin; template synthesis; human serum albumin; FRET
Subject
Biology and Life Sciences, Biology and Biotechnology
Copyright:
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