In vivo reduction of skin inflammation using ferulic acid-loaded lipid vesicles derived from Brewer’s spent grain

Abstract

Breweŕs spent grain (BSG) is the main by-product of the brewing industry, and due to its rapid decomposition, it generates serious environmental problems such as malodors and greenhouse gases emissions. On the other hand, this lignocellulosic compound contains a large number of antioxidants, being ferulic acid (FA) the most abundant. FA is a powerful antioxidant molecule that has demonstrated significant protective effects on key components of the skin, including keratinocytes, fibroblasts, collagen, and elastin. FA inhibits melanogenesis, promotes angiogenesis and accelerates the wound healing although its use is limited by its rapid oxidation. In this study, different hydrolysis treatments (chemical, enzymatic and hydrothermal) were performed on BSG to obtain FA. Herein FA-loaded ultradeformable liposomes (ULs) were designed to improve their stability and in vivo performance. These nanosystems allow FA permeability through human skin, as proven by an ex vivo skin permeability assay using Franz diffusion cells. The toxicity and anti-inflammatory activity of the formulation has been investigated. The free form and 100 nm FA_ULs were evaluated. Cell viability was dose-dependent and provided optimal results for the treatment of inflammatory skin conditions in an in vivo Oxazolone-induced Delayed Type Hypersensitivity model using Swiss CD1 mice, demonstrated by the reduction of the inflammatory cytokines expression, ear thickness, bioluminescence and histological evaluation. These results pave the way for FA-based treatments of skin and inflammatory conditions.