Carboxyl terminus of apolipoprotein A-I (ApoA-I) is necessary for the transport of lipid-free ApoA-I but not prelipidated ApoA-I particles through aortic endothelial cells.
- Ohnsorg PM Institute of Clinical Chemistry, University Hospital of Zurich, 8091 Zurich, Switzerland.
- Rohrer L
- Perisa D
- Kateifides A
- Chroni A
- Kardassis D
- Zannis VI
- von Eckardstein A
- 2011-01-07
Published in:
- The Journal of biological chemistry. - 2011
ATP Binding Cassette Transporter, Subfamily G, Member 1
ATP-Binding Cassette Transporters
Animals
Aorta
Apolipoprotein A-I
Cattle
Cell Line
Endothelial Cells
Humans
Models, Biological
Mutation
Protein Processing, Post-Translational
Protein Structure, Tertiary
Protein Transport
Scavenger Receptors, Class B
Structure-Activity Relationship
English
High density lipoproteins (HDL) and apolipoprotein A-I (apoA-I) must leave the circulation and pass the endothelium to exert their atheroprotective actions in the arterial wall. We previously demonstrated that the transendothelial transport of apoA-I involves ATP-binding cassette transporter (ABC) A1 and re-secretion of lipidated particles. Transendothelial transport of HDL is modulated by ABCG1 and the scavenger receptor BI (SR-BI). We hypothesize that apoA-I transport is started by the ABCA1-mediated generation of a lipidated particle which is then transported by ABCA1-independent pathways. To test this hypothesis we analyzed the endothelial binding and transport properties of initially lipid-free as well as prelipidated apoA-I mutants. Lipid-free apoA-I mutants with a defective carboxyl-terminal domain showed an 80% decreased specific binding and 90% decreased specific transport by aortic endothelial cells. After prior cell-free lipidation of the mutants, the resulting HDL-like particles were transported through endothelial cells by an ABCG1- and SR-BI-dependent process. ApoA-I mutants with deletions of either the amino terminus or both the amino and carboxyl termini showed dramatic increases in nonspecific binding but no specific binding or transport. Prior cell-free lipidation did not rescue these anomalies. Our findings of stringent structure-function relationships underline the specificity of transendothelial apoA-I transport and suggest that lipidation of initially lipid-free apoA-I is necessary but not sufficient for specific transendothelial transport. Our data also support the model of a two-step process for the transendothelial transport of apoA-I in which apoA-I is initially lipidated by ABCA1 and then further processed by ABCA1-independent mechanisms.
- Language
-
- English
- Open access status
- bronze
- Identifiers
-
- DOI 10.1074/jbc.M110.193524
- PMID 21209084
- Persistent URL
- https://sonar.ch/global/documents/211658
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