Cellular Localization and Trafficking of the Human ABCG1 Transporter.

We have developed a suitable heterologous cell expression system to study the localization, trafficking, and site(s) of function of the human ABCG1 transporter. Increased plasma membrane (PM) and late endosomal (LE) cholesterol generated by ABCG1 was removed by lipoproteins and liposomes, but not apoA-I. Delivery of ABCG1 to the PM and LE was required for ABCG1-mediated cellular cholesterol efflux.

Structure/function relationships of apolipoprotein a-I mimetic peptides: implications for antiatherogenic activities of high-density lipoprotein.

Rationale: Apolipoprotein (apoA)-I mimetic peptides are a promising type of anti-atherosclerosis therapy, but how the structural features of these peptides relate to the multiple antiatherogenic functions of HDL is poorly understood.

Objective: To establish structure/function relationships of apoA-I mimetic peptides with their antiatherogenic functions.

Methods And Results: Twenty-two bihelical apoA-I mimetic peptides were investigated in vitro for the capacity and specificity of cholesterol efflux, inhibition of inflammatory response of monocytes and endothelial cells, and inhibition of low-density lipoprotein (LDL) oxidation.

The ABCA1 transporter functions on the basolateral surface of hepatocytes.

ABCA1 on the cell surface and in endosomes plays an essential role in the cell-mediated lipidation of apoA-I to form nascent HDL. Our previous studies of transgenic mice overexpressing ABCA1 suggested that ABCA1 in the liver plays a major role in regulating plasma HDL levels. The site of function of ABCA1 in the polarized hepatocyte was currently assessed by expression of an adenoviral construct encoding a human ABCA1-GFP fusion protein in the polarized hepatocyte-like WIF-B cell line.