Despite recent advances in enhancing photodynamic therapy efficacy, high-efficiency reactive oxygen species (ROS)-based therapy approach, especially in malignancy tumor treatment, remains challenging. Relieving the hypoxia of tumor tissue has been considered to be an attractive strategy for enhancing ROS-based treatment effect. Nevertheless, it is frequently neglected that the hypoxic regions are usually located deep in the tumors and therefore are usually inaccessible. To address these limitations, herein we constructed a sequential intercellular delivery system (MFLs/ LAOOH@DOX) that consists of a membrane fusion liposomes (MFLs) doped with linoleic acid hydroperoxide (LAOOH) in the lipid bilayer and antitumor doxorubicin (DOX) encapsulated inside. In this report, LAOOH, one of the primary products of lipid peroxidation in vivo, was selected as ROS-generated agent herein, which depends on Fe 2+ rather than oxygen and other external stimuli to produce ROS. Upon the enhanced permeation and retention effect, MFLs/LAOOH@DOX first fused with tumor cell membranes in the perivascular region in synchrony with selective delivery of LAOOH into the plasma membrane and the ondemand intracellular release of DOX. By hitchhiking with extracellular vesicles, LAOOH, as a cell membrane natural ingredient, spread gradually to neighboring cells and throughout the entire tumor eventually. Combined with subsequent administration of nano Fe 3 O 4 , ROS was specifically generated on the tumor cell membrane by LAOOH throughout the tumor tissues. This study offers a new method to enhance ROS-based antitumor treatment efficiency.
Abstract. ADP-ribosylation factor 1 (ARF1) is a small G protein that regulates many cellular processes such as reorganization of the actin cytoskeleton and is highly expressed in various tumor cells and tissues. However, the role of ARF1 in ovarian cancer progression remains unknown. In the present study, we explored the expression patterns of ARF1 in clinical ovarian cancer samples and adjacent noncancerous tissues. The results revealed that ARF1 overexpressed in EOC tissues and cell lines, compared with the adjacent non-tumorous tissues and normal ovarian cells. In addition, the immunoreactivity of ARF1 was positively correlated with EOC grade and Ki-67 expression. Knockdown of ARF1 expression notably inhibited cell proliferation and migration rate of EOC cells by the auxiliary of PI3K. Taken together, our findings provide new insights into the functional role of ARF1 on EOC cell growth and migration and it may serve as a diagnostic and therapeutic target.
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