References
- Abumanhal-Masarweh H, da Silva D, Poley M, et al. (2019). Tailoring the lipid composition of nanoparticles modulates their cellular uptake and affects the viability of triple negative breast cancer cells. J Control Release 307:331–41.
- Afnan Q, Adil MD, Nissar-Ul A, et al. (2012). Glycyrrhizic acid (GA), a triterpenoid saponin glycoside alleviates ultraviolet-B irradiation-induced photoaging in human dermal fibroblasts. Phytomedicine 19:658–64.
- Brys AK, Gowda R, Loriaux DB, et al. (2016). Nanotechnology-based strategies for combating toxicity and resistance in melanoma therapy. Biotechnol Adv 34:565–77.
- Chen Y, Zhu X, Zhang X, et al. (2010). Nanoparticles modified with tumor-targeting scFv deliver siRNA and miRNA for cancer therapy. Mol Ther 18:1650–6.
- Choi KY, Min KH, Yoon HY, et al. (2011). PEGylation of hyaluronic acid nanoparticles improves tumor targetability in vivo. Biomaterials 32:1880–9.
- Cho HJ, Yoon HY, Koo H, et al. (2011). Self-assembled nanoparticles based on hyaluronic acid-ceramide (HA-CE) and Pluronic(R) for tumor-targeted delivery of docetaxel. Biomaterials 32:7181–90.
- Cho HJ, Yoon IS, Yoon HY, et al. (2012). Polyethylene glycol-conjugated hyaluronic acid-ceramide self-assembled nanoparticles for targeted delivery of doxorubicin. Biomaterials 33:1190–200.
- Gęgotek A, Atalay S, Wroński A, et al. (2021). Cannabidiol decreases metalloproteinase activity and normalizes angiogenesis factor expression in UVB-irradiated keratinocytes from psoriatic patients. Oxid Med Cell Longev 2021:1–11.
- Herrling T, Jung K, Fuchs J. (2006). Measurements of UV-generated free radicals/reactive oxygen species (ROS) in skin. Spectrochim Acta A Mol Biomol Spectrosc 63:840–5.
- How KN, Yap WH, Lim CLH, et al. (2020). Hyaluronic acid-mediated drug delivery system targeting for inflammatory skin diseases: a mini review. Front Pharmacol 11:1105.
- Ishihara T, Nara S, Mizushima T. (2014). Interactions of lecithinized superoxide dismutase with serum proteins and cells. J Pharm Sci 103:1987–94.
- Ita KB. (2014). Transdermal drug delivery: progress and challenges. J Drug Deliv Sci Technol 24:245–50.
- Jo WS, Yang KM, Park HS, et al. (2012). Effect of microalgal extracts of Tetraselmis suecica against UVB-induced photoaging in human skin fibroblasts. Toxicol Res 28:241–8.
- Karadzovska D, Brooks JD, Monteiro-Riviere NA, Riviere JE. (2013). Predicting skin permeability from complex vehicles. Adv Drug Deliv Rev 65:265–77.
- Kim J, Lee CW, Kim EK, et al. (2011). Inhibition effect of Gynura procumbens extract on UV-B-induced matrix-metalloproteinase expression in human dermal fibroblasts. J Ethnopharmacol 137:427–33.
- Lee SY, Park JH, Ko SH, et al. (2017). Mussel-inspired hyaluronic acid derivative nanostructures for improved tumor targeting and penetration. ACS Appl Mater Interfaces 9:22308–20.
- Liu F, Vermesh O, Mani V, et al. (2017). The exosome total isolation chip. ACS Nano 11:10712–23.
- Mu J, Ma H, Chen H, et al. (2021). Luteolin prevents UVB-induced skin photoaging damage by modulating SIRT3/ROS/MAPK signaling: an in vitro and in vivo studies. Front Pharmacol 12:728261.
- Nakamura T, Murata Y, Nakamura Y. (2019). Characterization of benzyl isothiocyanate extracted from mashed green papaya by distillation. Food Chem 299:125118.
- Philips N, Auler S, Hugo R, Gonzalez S. (2011). Beneficial regulation of matrix metalloproteinases for skin health. Enzyme Res 2011:427285.
- Quan T, Qin Z, Xia W, et al. (2009). Matrix-degrading metalloproteinases in photoaging. J Investig Dermatol Symp Proc 14:20–4.
- Ron-Doitch S, Sawodny B, Kuhbacher A, et al. (2016). Reduced cytotoxicity and enhanced bioactivity of cationic antimicrobial peptides liposomes in cell cultures and 3D epidermis model against HSV. J Control Release 229:163–71.
- Saddoughi SA, Song P, Ogretmen B. (2008). Roles of bioactive sphingolipids in cancer biology and therapeutics. Subcell Biochem 49:413–40.
- Tumer TB, Rojas-Silva P, Poulev A, et al. (2015). Direct and indirect antioxidant activity of polyphenol- and isothiocyanate-enriched fractions from Moringa oleifera. J Agric Food Chem 63:1505–13.
- Uche LE, Gooris GS, Bouwstra JA, Beddoes CM. (2021). High concentration of the ester-linked ω-hydroxy ceramide increases the permeability in skin lipid model membranes. Biochim Biophys Acta Biomembr 1863:183487.
- Vahabi S, Eatemadi A. (2017). Nanoliposome encapsulated anesthetics for local anesthesia application. Biomed Pharmacother 86:1–7.
- Walton MI, Wilson SC, Hardcastle IR, et al. (2005). An evaluation of the ability of pifithrin-alpha and -beta to inhibit p53 function in two wild-type p53 human tumor cell lines. Mol Cancer Ther 4:1369–77.
- Wang Q, Bao Y. (2021). Nanodelivery of natural isothiocyanates as a cancer therapeutic. Free Radic Biol Med 167:125–40.
- Wang W, Shu GF, Lu KJ, et al. (2020). Flexible liposomal gel dual-loaded with all-trans retinoic acid and betamethasone for enhanced therapeutic efficiency of psoriasis. J Nanobiotechnol 18:80.
- Waterman C, Cheng DM, Rojas-Silva P, et al. (2014). Stable, water extractable isothiocyanates from Moringa oleifera leaves attenuate inflammation in vitro. Phytochemistry 103:114–22.
- Yuan Z, Das S, Lazenby RA, et al. (2021). Repetitive drug releases from light-activatable micron-sized liposomes. Colloids Surf A Physicochem Eng Asp 625:126778.