Nanomedicine and Drug Delivery

Biography

Biography: Chia-Hua Lin

Abstract

Statement of the Problem: Because of their wide range of unique properties, graphene and grapheme family nanomaterials (GFNs), isolated from their three dimensional parental material graphite, can serve as starting materials for developing innovative therapeutic strategies. In medicine, GFNs have emerged as the most promising seed for various applications, such as drug delivery, anticancer therapy, and biosensing. However, the toxicity and safety of GFNs in the treatment of human diseases should be systematically assessed both in vitro and in vivo. The present study aimed to consecutively assess the immunotoxicity of graphene oxide nanoplatelets (GONPs) and reduced GONPs (rGONPs) on THP-1 cells, a human acute monocytic leukemia cell line. GONPs induced the expression of antioxidative enzymes and inflammatory factors, whereas rGONPs had substantially higher cellular uptake rate, higher levels of NF-κB expression. These distinct toxic mechanisms were observed because the two nanomaterials differ in their oxidation state, which imparts different affinities for the cell membrane. Because GONPs have a higher cell membrane affinity and higher impact on membrane proteins compared with rGONPs, macrophages (THP-1a) derived from GONPs treated THP-1cells showed a severer effect on phagocytosis. By consecutive evaluation the effects of GONPs and rGONPs on THP-1 and THP-1a, we demonstrated that their surface oxidation states may cause GFNs to behave differently and cause different immunotoxic effects.