Abstract

Among the various drug delivery system, mucoadhesive formulation is a promising approach to deliver drugs and vaccine through close contact with the absorption site and mucous membrane. Bile acids have received considerable interest in drug delivery (DD) applications owing to their advantages of biocompatibility, ability to act as both drug solubilizing and permeation-modifying agents. In this aspects, cholic acid (CA) based thiomeric micelles with improved mucoadhesive properties have been synthesized by functionalization of thiol groups and conjugation of PEG. The synthesized CA based thiomeric micelles (TCA-PEG) were characterized by 1HNMR, ATR-IR, GPC, Zeta potential and contact angle techniques. The critical micelle concentration (CMC) of TCA-PEG was measured by a fluorescence spectrometer using pyrene as a probe. The mucoadhesive properties of TCA-PEG polymeric micelles (PMs) were examined on the goat anterior tongue mucosa with an effectively higher adhesion of 40 % up to 3 h study period. Also, curcumin loaded TCA-PEG PMs showed only 13 % of the drug released up to the period of 3 h. The TCA-PEG PMs act as reducing and stabilizing agents for the preparation of gold and silver nanoparticle (Ag and Au NPs) and were characterized by UV–visible, DLS, Zeta potential, XPS, and HR-TEM techniques. The cytotoxicity and cellular apoptosis of TCA-PEG PMs encapsulated Ag and Au NPs were examined by MTT assay and AO/PI dual staining using MCF-7 breast cancer cells wherein AgNPs showed an effective cytotoxicity than AuNPs. The developed TCA-PEG PMs act as reservoir for soubilization of hydrophobic and hydrophilic drugs and ideal template for encapsulation of silver and gold nanoparticles for mucoadhesive DD system.

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