Regulation of plasma lipid homeostasis by hepatic lipoprotein lipase in adult mice.

LPL is a pivotal rate-limiting enzyme to catalyze the hydrolysis of TG in circulation, and plays a critical role in regulating lipid metabolism. However, little attention has been paid to LPL in the adult liver due to its relatively low expression. Here we show that endogenous hepatic LPL plays an important physiological role in plasma lipid homeostasis in adult mice. We generated a mouse model with the Lpl gene specifically ablated in hepatocytes with the Cre/LoxP approach, and found that specific deletion of hepatic Lpl resulted in a significant decrease in plasma LPL contents and activity. As a result, the postprandial TG clearance was markedly impaired, and plasma TG and cholesterol levels were significantly elevated. However, deficiency of hepatic Lpl did not change the liver TG and cholesterol contents or glucose homeostasis. Taken together, our study reveals that hepatic LPL is involved in the regulation of plasma LPL activity and lipid homeostasis.

Reverse signaling using an inducible costimulator to enhance immunogenic function of dendritic cells.

A costimulatory signal from an inducible costimulator (ICOS) of T cells plays a critical role in immunological homeostasis. This study shows that the interaction of ICOSIg and its ligand (ICOSL) on mouse bone marrow-derived dendritic cells (DCs) induces a p38-MAPK dependent elevation of interleukin 6 (IL-6). It also enhances phagocytosis and the antigen-presentation function of DCs in vitro, further favoring cell-mediated immunity in vivo. As seen for other types of costimulator molecules expressed in the T cells in the CD28 family, it is shown here for the first time that ICOS can also deliver reverse signals through its ligand to ICOSL-expressing cells. These reverse signals in turn transfer positive immunogenic information to bone marrow-derived DCs. Our work therefore provides new recognition of an ICOSL/ICOS signal pathway in immunity and also supplies more evidence that this ICOSL/ICOS signal pathway is a reasonable target for therapeutic drugs.