Identification of a Butanol-Extractable Human Placenta-Specific Antigen with Alkaline Phosphatase Activity

Abstract

N-Butanol extracts of whole-term placenta from different individuals were prepared, and used as immunogens to raise heterologous hyperimmune sera in rabbits. Upon immunoelectrophoresis the anti-placenta antisera could recognize at least six antigenic components in the placental extract even after they had been completely absorbed with pooled male serum proteins. However, the antisera so absorbed, designated (-PMS) antisera, could still react strongly with several normal adult tissue extracts including kidney. Systematic and quantitative absorptions of the (-PMS) antisera were thus further carried out with individual butanol extracts of normal adult liver, lung, intestine, stomach, kidney, bone, pancreas, spleen, heart, cerebrum, cerebellum, breast, and packed red cells, as well as a composite extract containing equal amounts of each of the 13 adult tissue extracts. Of the six antigenic components in the placental extracts reacting with the (-PMS) antisera the only one which retained its reactivity with the antisera throughout exhaustive absorptions was associated with alkaline phosphatase activity. This immunologic and enzymologic identity was confirmed with homogeneous placental alkaline phosphatase. Extracts from each of three placentae injected into three pairs of rabbits all produced an identical antibody reaction with the unique determinant(s) of placental alkaline phosphatase. The same identity of precipitin reaction was also found with extracts of 14 other placentae against each of these antisera. It thus firmly establishes that placental alkaline phosphatase is a characteristic placenta-specific fetal protein.