Conformational flexibility of the serum amyloid precursor SAA.

Abstract SAA is a normal acute-phase serum protein and is thought to be the precursor of amyloid protein AA which is deposited as insoluble beta-pleated sheet fibrils in secondary amyloidosis. Native SAA has a molecular weight of 160,000 and has not been isolated; it has been most frequently purified as a species (designated SAAL) of 12,500 mol. wt. by gel filtration in dissociating solutions. The conformational properties of SAA proteins in patients with and without amyloidosis have been compared in an effort to determine the factors involved in the induction of the beta-pleated sheet conformation in the amyloid SAA protein prior to fibril deposition. Amyloid and nonamyloid SAA proteins are similar in that they readily undergo conformational changes which result in the formation of heterogenous mol. wt. SAA species and in an increased exposure of antigenic determinants which cross-react with AA fibril proteins. Amyloid and nonamyloid SAA are different, however, in that amyloid SAA is more resistant to dissociation to SAAL. Amyloid SAAL, while similar to nonamyloid SAAL in immunoreactivity, shows a greater tendency toward aggregation. The relative resistance of both amyloid SAA and SAAL to complete dissociation may play an important role in amyloid fibril formation from these precursors.