Your search keyword '"YU Chun-mei"' showing total 2 results

1. Liposomes formulated with fMLP-modified cholesterol for enhancing drug concentration at inflammatory sites.

Author

Qin, Yao, Li, Zi-wei, Yang, Yong, Yu, Chun-mei, Gu, Dan-dan, Deng, Hong, Zhang, Tao, Wang, Xin, Wang, Ai-ping, and Luo, Wei-zao

Subjects

LIPOSOMES, CHOLESTEROL, PHENYLALANINE, DRUG receptors, PHOSPHOLIPIDS, DRUG carriers

Abstract

Improving efficacy of inflammation treatment by increasing drug delivery to the inflammatory sites is a challenging endeavor. N-formyl-methionyl-leucyl-phenylalanine (fMLP), the first discovered leukocyte chemotaxis peptide, is composed of formyl methionine, leucine and phenylalanine. It conjugates with formyl peptide receptors on the target cells with high receptor expression on the surface such as macrophages. With this in mind, we developed a novel fMLP-modified liposome (fMLP-LIP) for enhancing drug delivery to the inflammatory sites and resolving the systemic reaction issue with conventional anti-inflammatory drugs. Being a more stable and cheaper liposomal component than phospholipids, cholesterol (CHO) has been thoroughly investigated as an alternative anchor. In this study, fMLP was covalently conjugated with CHO with polyethylene glycol link to prepare the liposomes, cellular uptake of liposomes by differentiated human U937 cells was examined and cellular uptake experiment in vitro was employed to optimize fMLP-LIP prescription and investigate the uptake mechanism. An in vivo inflammatory model was established to evaluate the targeting performance of fMLP-LIP to inflammatory site. The in vitro and in vivo findings indicate that the fMLP ligands playing an important role in increasing drug delivery to inflammatory sites and fMLP-LIP as a promising anti-inflammatory drug carrier. [ABSTRACT FROM AUTHOR]

Published

2014

2. A Novel Nitric Oxide Cellular Biosensor Based on Red Blood Cells Immobilized on Gold Nanoparticles.

Author

Gu, Hai‐Ying, Lu, Shuang‐Yun, Jiang, Qi‐Yu, Yu, Chun‐Mei, Li, Genxi, and Chen, Hong‐Yuan

Subjects

NITRIC oxide, BIOSENSORS, ERYTHROCYTES, CARBON electrodes, ETHYLENEDIAMINE, ATOMIC force microscopy, SCANNING electron microscopy, ELECTROCHEMISTRY

Abstract

We have developed a novel nitric oxide (NO) cellular biosensor based upon the immobilization of red blood cells (RBCs) onto nanometer‐size colloidal gold that is attached to an electrochemically pretreated glassy carbon electrode via the bridging of an ethylenediamine monolayer. The biosensor has been characterized by atomic force microscopy (AFM), scanning electron microscopy (SEM), and electrochemistry. The immobilized RBCs display an excellent electrocatalytic response to nitric oxide. The electrocatalytic currents are proportional to the NO concentration in the range from 1.0×10–8 to 1.0×10–6 M and the detection limit is as low as 5.0×10–9 M (S/N=3). Furthermore, the biosensor is very stable and relatively free of potential interference. [ABSTRACT FROM AUTHOR]

Published

2006