Secretion of serum amyloid protein and assembly of serum amyloid protein-rich high density lipoprotein in primary mouse hepatocyte culture.

The serum amyloid protein (apo-SAA) is a unique high density lipoprotein apoprotein exhibiting dramatic increases in plasma concentration following host injury. The events involved in the secretion of apo-SAA and assembly of apo-SAA-rich lipoprotein particles were studied in primary, serum-free culture of adult BALB/c mouse hepatocytes harvested 3 h following administration of the potent apo-SAA inducer, bacterial endotoxin (50 micrograms of intraperitoneally administered Salmonella typhosa lipopolysaccharide). An approximately 3.5-fold increase in the initial rate of apo-SAA secretion was observed over that of hepatocytes isolated from control mice, whereas the rate of apo-A-I secretion was unchanged by endotoxin administration. Sodium dodecyl sulfate-gel electrophoresis and autoradiography of [35S]methionine-labeled cell products indicated the synthesis of both major mouse apo-SAA isotypes by hepatocytes. Essentially all of the secreted apo-SAA chromatographed in Sephadex G-150 with an elution volume corresponding to a molecular weight of approximately 12,000. Approximately 90% of the secreted apo-SAA was recovered in fractions (d greater than 1.21 g/ml) following ultracentrifugal fractionation. In media supplemented with human lipoproteins (100 micrograms/ml), approximately 50% of the secreted apo-SAA was recovered in the high density lipoprotein fraction. These results suggest that mouse apo-SAA is secreted in monomeric form and becomes associated with lipoproteins in the intravascular compartment.