Journal
JOURNAL OF DRUG DELIVERY SCIENCE AND TECHNOLOGY
Volume 79, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jddst.2022.104052
Keywords
Amlexanox; Anti-inflammatory; Aphthous stomatitis; Liposomes; Macrophages; Oral ulcers
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Oral aphthous stomatitis, a common disorder, was traditionally treated with Amlexanox (AMX) paste, but was discontinued due to adverse reactions. In this study, AMX-loaded nanoliposomes were developed as a potential alternative for local delivery of AMX. The optimal formulation showed high drug entrapment efficiency (94%) and demonstrated significant anti-inflammatory activity.
Oral aphthous stomatitis is a common disorder treated with the immunomodulatory drug Amlexanox (AMX), that was administered as a mucoadhesive paste (Aphthasol (R)). This product was discontinued by FDA in 2014 due to the associated undesired adverse reactions of the formulation. Here, we have developed AMX-loaded nanoliposome formulation as a potential alternative for the localised oromucosal delivery of AMX. Nano-liposomes were prepared using Soya phosphatidylcholine (SPC) and Cholesterol (Chol) mixtures at three different molar ratios to formulate vesicles using thin-film hydration, and were characterised for size, zeta po-tential and entrapment efficiency. The optimal formulation was found to be SPC:Chol 3:1 with drug entrapment efficiency of 94%, post sonication. To evaluate anti-inflammatory activity, macrophages developed by differ-entiation of human leukaemia monocytic cell line, THP-1, were polarised by Interferon gamma (IFN gamma) and lipopolysaccharide (LPS) to M1 state. Macrophages M1 cells treated with D-L1 formulation (SPC:Chol 3:1, 500 mu g/mL total lipid, and 27.6 mu M AMX) showed a significant suppression in TNF-alpha expression levels (43 +/- 2.7% of untreated control, p < 0.05) compared to those treated with either empty liposomes or AMX alone. Notably, % TNF-alpha dramatically decreased to 57 +/- 4.05% of control, for cells treated with drug-free liposomes (500 mu g/mL total lipid) indicating the anti-inflammatory activity of SPC lipid component per se, which led to synergistic effect as evident from the augmentation of AMX anti-inflammatory activity in D-L1 formulation. Our findings highlight the potential of using AMX nanoliposomes as a promising advanced formulation for reviving AMX treatment for management of inflammatory conditions of oral mucosa.
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