Alkaline phosphatase and maltase activity in the embryonic chick intestine in culture: Influence of thyroxine and hydrocortisone

Abstract

In strips of duodenum from 14-day chick embryos explanted into defined medium, alkaline phosphatase (ALP) activity accumulated in the tissue at a faster rate than in vivo for about 48 hr, but failed to increase thereafter. The addition of thyroxine (T4) to the medium at 10 −8 M or less both enhanced the early accumulation and elicited a very large increase in ALP activity comparable to that normally occurring during the last 2 days in ovo. Activity with phenylphosphate (PhP) was more strongly affected than that with β-glycerophosphate (βGP), so that the high PhP β GP ratio attained in vivo at 18 days was reached after 24 hr in T4-supplemented medium. Hydrocortisone (HC) evoked APL activity only slightly above that in unsupplemented medium and only during the first 48 hr in culture, but it precociously elevated PhP β GP ratio to the normal maximum. In the presence of T4 or HC, maltase activity rose in explanted strips at the same rate as in the intact duodenum, but it lagged in unsupplemented medium. Assay of the medium revealed, however, that under all conditions of culture a large amount of both maltase and ALP activity had been released from the tissue. This effect was especially pronounced in the presence of T4, so that explants and medium together accumulated ALP and maltase equivalent to the high peaks of activity found in the intact duodenum at hatching. With 10 −8 M T4, ALP activity began to rise above that of control explants after 8 hr, with accumulation in the medium beginning about 4 hr later. Combining 2 × 10 −6 M HC with a range of T4 concentrations produced greater than additive effects, particularly with ALP, but did not lead to enhanced retention of either enzyme in the tissue strips. Prolactin, pentagastrin, and insulin were without effect alone, but the latter inhibited the effects of both T4 and HC.