Characterization of two different alkaline phosphatases in mouse teratoma: partial purification, electrophoretic, and histochemical studies

Abstract

Alkaline phosphatase (E.C.3.1.3.1.) has been used as a marker for embryonal carcinoma cells which constitute the multipotential stem cells of the mouse teratoma. Studies by other investigators based on kinetics of thermal inactivation and L-phenylalanine inhibition have shown that the alkaline phosphatase of the teratoma differs from the mouse intestinal and liver isozymes, but resembles the isozymes of kidney and placenta. Since functional characterization of nonpurified enzymes is not the most accurate means for distinguishing different molecular forms of an enzyme, we have partially purified the enzymes from the ascitic (embryoid body) and solid tumor forms of the OTT-6050 teratoma line, and utilized the technique of electrophoresis in polyacrylamide gels to compare the teratoma enzyme with isozymes from kidney and placenta. Covalent 32PO4-labeling of the alkaline phosphatases and polyacrylamide gel electrophoresis in sodium dodecylsulfate was also used to compare the subunit molecular weights of the enzymes. The results indicate that the mouse teratoma enzyme is distinct from the kidney and placental isozymes. Since histochemical studies have localized the enzyme to the stem cell population of the teratoma, the results imply that stem cell alkaline phosphatase is a distinct isozyme. The embryoid bodies contain a second alkaline phosphatase which may correspond to the placental isozyme. This enzyme may be attributed to the outer cell layer of embryoid bodies of the ascitic tumor, since this cell type histochemically demonstrates alkaline phosphatase activity.