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Antioxidative Impact of Phenolics-Loaded Nanocarriers on Cytoskeletal Network Remodeling of Invasive Cancer Cells

Jae-Won Jung, Minhee Ku, Suhui Jeong, Nara Yoon, Jae Hyun Park, Han Sung Youn, Jaemoon Yang, Sungbaek Seo

2023ACS Applied Materials & Interfaces14 citationsDOIOpen Access PDF

Abstract

Natural phenolic compounds have antioxidant properties owing to their free radical-scavenging capability. The combined effect of a mixture of phenolic compounds has been studied; however, the detailed investigation for finding a correlation between single phenolic molecules and antioxidant activity has not been explored. Herein, we revealed that the number of phenolic hydroxyl groups in phenolics played a central role in their antioxidant capacity. Based on the finding, tannic acid showed the most effective antioxidant potential, e.g., 76% in tannic acid versus 22% in vitamin C as a standard antioxidant component. Because cancer progression is closely related to oxidative processes at the cellular level, we further applied the surface treatment of tannic acid drug-delivery nanocarriers. Tannic acid-loaded nanocarriers reduced reactive oxygen species of cancer cells as much as 41% of vehicle treatment and remodeled cytoskeletal network. By a gelatin degradation study, TA-loaded nanocarrier-treated cells induced 44.6% reduction of degraded area than vehicle-treated cells, implying a potential of blocking invasiveness of cancer cells.

Topics & Concepts

Tannic acidNanocarriersAntioxidantAscorbic acidCancer cellGelatinPolyphenolReactive oxygen speciesBiochemistryMaterials scienceDrug deliveryChemistryBiophysicsCancerNanotechnologyBiologyOrganic chemistryFood scienceGeneticsFree Radicals and AntioxidantsPhytochemicals and Antioxidant ActivitiesAntioxidant Activity and Oxidative Stress