Abstract
Serum amyloid A (SAA) is a family of acute-phase reactants. Plasma levels of human SAA1/SAA2 (mouse SAA1.1/2.1) can increase ≥1,000-fold during an acute-phase response. Mice, but not humans, express a third relatively understudied SAA isoform, SAA3. We investigated whether mouse SAA3 is an HDL-associated acute-phase SAA. Quantitative RT-PCR with isoform-specific primers indicated that SAA3 and SAA1.1/2.1 are induced similarly in livers (∼2,500-fold vs. ∼6,000-fold, respectively) and fat (∼400-fold vs. ∼100-fold, respectively) of lipopolysaccharide (LPS)-injected mice. In situ hybridization demonstrated that all three SAAs are produced by hepatocytes. All three SAA isoforms were detected in plasma of LPS-injected mice, although SAA3 levels were ∼20% of SAA1.1/2.1 levels. Fast protein LC analyses indicated that virtually all of SAA1.1/2.1 eluted with HDL, whereas ∼15% of SAA3 was lipid poor/free. After density gradient ultracentrifugation, isoelectric focusing demonstrated that ∼100% of plasma SAA1.1 was recovered in HDL compared with only ∼50% of SAA2.1 and ∼10% of SAA3. Thus, SAA3 appears to be more loosely associated with HDL, resulting in lipid-poor/free SAA3. We conclude that SAA3 is a major hepatic acute-phase SAA in mice that may produce systemic effects during inflammation.
Highlights
Serum amyloid A (SAA) is a family of acute-phase reactants
The human Saa1 and Saa2 and the mouse Saa1.1 and Saa2.1 genes are thought to be evolutionary homologs based on their sequence conservation, relative map positions, and transcriptional orientations [2]
Mouse SAA3 shares 69% amino acid identity with human SAA1 [2], the major human SAA isoform expressed in the liver and extrahepatic tissues, including adipocytes [32]
Summary
Serum amyloid A (SAA) is a family of acute-phase reactants. Plasma levels of human SAA1/SAA2 (mouse SAA1.1/2.1) can increase ≥1,000-fold during an acute-phase response. We investigated whether mouse SAA3 is an HDL-associated acute-phase SAA. Acute-phase serum amyloid A (SAA) is a family of acutephase proteins that have been evolutionarily conserved for approximately 500 million years [1, 2]. This conservation suggests an important role for SAA in host defense. Two SAA isoforms (SAA1 and SAA2) are highly induced during an acute-phase response, with plasma levels increasing up to 1,000-fold or more.
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