1. Plasma Lipid Transport Role of HDL
Philip Barter, MBBS, FRACP, PhD Professor and Director
The Heart Research Institute, Sydney, Australia

2. Plasma Lipid Transport
Liver FC CE TG
FFA
Adipose tissue
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
TG: triglycerides
Cholesterol of dietary origin is taken up by the liver where it combines with cholesterol newly synthesised in the liver. This cholesterol is subsequently esterified. Triglyceride is formed in the liver either from newly synthesis fatty acids or from free fatty acids (FFA) released from adipose tissue. The cholesteryl esters and triglyceride are incorporated into VLDL.

3. Plasma Lipid Transport
Liver
VLDL TG FC CE TG CE
FFA
Adipose tissue
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
TG: triglycerides
The VLDL (and the cholesterol they contain) are subsequently secreted into plasma.

4. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues
FFA
Adipose tissue
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LPL: lipoprotein lipase
TG: triglycerides
Once in plasma the triglyceride in VLDL is broken down by lipoprotein lipase, releasing free fatty acids for uptake by tissues.

5. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues
LDL
FFA TG TG
Adipose tissue CE
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LPL: lipoprotein lipase
TG: triglycerides
As it loses its triglyceride, the VLDL particle becomes progressively smaller and, in a complex series of reactions, is ultimately converted into a triglyceride-poor, cholesterol-rich LDL particle.

6. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues
LDL
FFA TG
LDL receptor TG
Adipose tissue CE
Liver
LDL receptor
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LPL: lipoprotein lipase
TG: triglycerides
The cholesterol in LDL is subsequently delivered to tissues following binding of the particles to LDL receptors. Since the level of expression of the LDL receptor is increased in cells that are depleted of cholesterol and decreased in cells that are overloaded with cholesterol, this process ensures that the cholesterol in LDL is delivered precisely where it is needed, whether this is a return of the cholesterol to the liver or an uptake of cholesterol by cells in extrahepatic tissues. CE
Cell in peripheral tissue

7. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues
LDL
FFA TG
LDL receptor TG
Adipose tissue CE
Liver
New synthesis also contributes to cellular cholesterol.
LDL receptor
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LPL: lipoprotein lipase
TG: triglycerides CE
New
synthesis FC
Cell in peripheral tissue

8. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues
LDL
FFA TG
LDL receptor TG
Adipose tissue CE
Liver
Only the liver and those endocrine tissues that synthesise steroid hormones have the ability to metabolise the cholesterol molecule. Other tissues are totally dependent on an efflux to acceptors in the extracellular space to remove their surplus cholesterol. The predominant extracellular acceptors are HDLs. There are at least three distinct processes (mediated by activities of ABCA1, ABG1 and SR-B1) that promote the efflux of cholesterol from cells. Lecithin:cholesterol acyltransferase (LCAT) esterifies cholesterol on the surface of HDL particles in a process that moves the cholesterol into the inside of the particle.
LDL receptor
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

9. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE CE
Adipose and other tissues
LDL
FFA TG
LDL receptor TG
Adipose tissue CE
Liver
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
Once the cholesterol has been transferred from cells to HDLs in the extracellular space, it may be delivered to the liver in a process involving binding of HDLs to SR-B1.
LDL receptor CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

10. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE CE
Adipose and other tissues
LDL
FFA TG
LDL receptor TG
Adipose tissue CE
Liver
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
The cholesterol taken up by the liver may be recycled into VLDL.
LDL receptor CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

11. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE CE
Adipose and other tissues
LDL
FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
LDL receptor
CE: cholesteryl ester
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
The cholesterol taken up by the liver may also be released into bile, either as unchanged cholesterol or after being converted into bile acids. CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

12. Plasma Lipid Transport
Liver
VLDL
LPL
FFA TG FC CE TG CE CE
Adipose and other tissues
LDL
FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
In some species, including humans, non-human primates and rabbits, the cholesterol in HDL may also be delivered to the liver by an indirect pathway involving the cholesteryl ester transfer protein-mediated transfer of HDL cholesteryl esters to the VLDL/LDL fractions, with delivery to the liver then being achieved by the receptor-mediated uptake of LDL.
LDL receptor
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
CETP CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

13. Dyslipidemia in Diabetes and the Metabolic Syndrome
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues CE
LDL
FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
LDL receptor
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
CETP CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

14. Dyslipidemia in Diabetes and the Metabolic Syndrome
Liver
VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues CE
LDL
 FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
In diabetes and the metabolic syndrome there is an increase in release of free fatty acids (FFA) from adipose tissue. A proportion of this is taken up by the liver and converted into triglyceride.
LDL receptor
CETP CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

15. Dyslipidemia in Diabetes and the Metabolic Syndrome
Liver
 VLDL
LPL
FFA TG FC CE TG CE
Adipose and other tissues CE
LDL
 FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
This leads to an increased synthesis and secretion of VLDL and an increase in concentration of VLDL triglyceride in plasma.
LDL receptor
CETP CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

16. Dyslipidemia in Diabetes and the Metabolic Syndrome
Liver
 VLDL
 LPL
FFA TG FC CE TG
Adipose and other tissues CE CE
LDL
 FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
LDL receptor
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
There is also a decreased activity of lipoprotein lipase resulting in a decreased rate of breakdown of triglyceride and a further increase in the concentration of triglyceride in plasma.
CETP CE TG TG
New
synthesis
LCAT CE FC
Cell in peripheral tissue
HDL

17. Dyslipidemia in Diabetes and the Metabolic Syndrome
Liver
 VLDL
 LPL
FFA TG FC CE TG
Adipose and other tissues CE CE
LDL
 FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
LDL receptor
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
A decrease in delivery of cell cholesterol to HDL has the capacity to decrease the concentration of HDL cholesterol.
CETP CE TG TG
New
synthesis
 LCAT CE FC
Cell in peripheral tissue
 HDL

18. Dyslipidemia in Diabetes and the Metabolic Syndrome
Liver
 VLDL
 LPL
FFA TG FC CE TG
Adipose and other tissues CE CE
LDL
 FFA FC TG
LDL receptor TG
Adipose tissue CE
Bile
Liver
CE: cholesteryl ester
CETP: cholesteryl ester transfer protein
FC: free cholesterol
FFA: free fatty acids
LCAT: lecithin cholesterol acytransferase
LPL: lipoprotein lipase
TG: triglycerides
An increase in the cholesteryl ester transfer protein-mediated transfer of cholesterol from HDL to the expanded VLDL pool further reduces the concentration of HDL cholesterol.
LDL receptor
CETP CE TG TG
New
synthesis
 LCAT CE FC
Cell in peripheral tissue
 HDL