Research Grant
[Cite as https://purl.org/au-research/grants/nhmrc/352343]Researchers: Prof David Le Couteur (Principal investigator) , A/Pr David Sullivan , A/Pr Victoria Cogger , E/Pr Robin Fraser
Brief description Understanding lipoprotein metabolism is critical for the prevention of vascular disease. The liver is the main site for lipoprotein metabolism. The initial step in the metabolism of lipoproteins by the liver is their transfer across the liver sinusoidal endothelial cells from the blood to the liver cells. Sinusoidal endothelial cells contain pores called fenestrae that are thought to allow direct passage of large substances and thus filter lipoproteins on the basis of size. We propose to fully define the role of fenestrae in the ultrafiltration of particles such as lipoproteins and microspheres. This will confirm that ultrafiltration by fenestrae in the liver endothelium is an important biological process akin to filtration by the kidney, and relevant for lipoprotein metabolism. We will determine whether oxidative stress, which generates large gaps in the sinusoidal endothelium, increases the transfer of lipoproteins into the liver. This provides a novel mechanism for fatty liver that follows toxic liver injury, and hence, a therapeutic target for this condition. We will determine whether loss of fenestrae induced by the synthetic non-ionic surfactant, pluronic 407, reduces transfer of lipoproteins. This is an entirely novel mechanism and risk factor for hyperlipidaemia. Finally we will investigate lipoprotein (a) which is a potent risk factor for vascular disease. We will assess with lipoprotein (a), through binding other lipoproteins and increasing their size, impedes their transfer through the fenestrations for subsequent hepatic metabolism. From the basic perspective, these studies will prove that fenestrations in the liver endothelial cell are an ultrafiltration system that is significant for lipoprotein metabolism. From the clinical perspective, the studies will generate novel mechanisms for impaired hepatic metabolism of lipoproteins as well as indicating that fenestrae are a potential target for the development of lipid-lowering pharmacotherapies.
Funding Amount $AUD 310,500.00
Funding Scheme NHMRC Project Grants
Notes Standard Project Grant
- nhmrc : 352343
- PURL : https://purl.org/au-research/grants/nhmrc/352343