Abstract
Preparations of human tissue factor isolated by immunoaffinity chromatography contain variable amounts of 47,000 mol wt, 55,000 mol wt, and multimeric tissue factor when analyzed without reduction on polyacrylamide gels in sodium dodecyl sulfate (SDS). When analyzed after reduction, the 47,000 mol wt tissue factor apoprotein and a protein of about 12,000 mol wt are observed. Elution of tissue factor from polyacrylamide gel slices, followed by reassociation with lipids, restored proportionately much greater tissue factor activity with the 47,000-mol wt protein than with the 55,000-mol wt form. Cyanogen bromide cleavage at the single tissue factor methionine revealed that the 12,000-mol wt protein is associated with the carboxyl-terminal peptide derived from the 47,000-mol wt protein. These results reveal that association of the 12,000-mol wt protein with the cytoplasmic domain of tissue factor can modulate its activity in vitro.