Abstract
The alkaline phosphatases present in choriocarcinoma cells, either untreated or treated with 5-bromo-2′-deoxyuridine (BrdUrd), were purified and characterized. Three forms of phosphatase [I, IIa (or IIIa), and IIb (or IIIb)]were isolated from both the untreated and BrdUrd-treated cells. Although BrdUrd induced the synthesis of all three forms of alkaline phosphatase in these cells, the synthesis of forms IIa and IIb was, however, preferentially stimulated. The forms of phosphatase in choriocarcinoma cells resembled each other in their kinetic properties and thermal lability, but differed in their molecular weights and in their electrophoretic mobilities in nondenaturing polyacrylamide gels. All three phosphatases were inactivated by antiserum to term-placental alkaline phosphatase. The alkaline phosphatases from choriocarcinoma cells differed, however, from the enzyme from term placentas in several physicochemical properties. The phosphatases from choriocarcinoma cells had a lower K m value for p-nitrophenyl phosphate, were more sensitive to inhibition by l-leucine, levamisole, l-p-bromotetramisole, and EDTA, and were more heat-labile. Phosphatase I comigrated with term-placental alkaline phosphatase on nondenaturing polyacrylamide electrophoretic gels, but phosphatases IIa and IIb migrated more slowly. The apparent molecular weights of phosphatase forms I, IIa, and IIb were estimated by gel filtration and polyacrylamide gel electrophoresis to be 115,000, 240,000, and 510,000, respectively. Although three molecular forms of alkaline phosphatase occurred in choriocarcinoma cells, the subunit molecular weight of these phosphatases appeared to be identical to each other and to the subunit of term-placental alkaline phosphatase (63,000 MW). The alkaline phosphatase in choriocarcinoma cells therefore exists in the dimeric, tetrameric, and octameric forms.
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