The effects of the glucocorticoid, hydrocortisone (HC), on vitamin D-mediated responses were examined in the organ-cultured, embryonic chick duodenum. In this system tissue responses to vitamin D-steroids in the culture medium include increased cAMP concentration, de novo synthesis of a specific calcium-binding protein (CaBP), enhanced uptake and transmucosal transport of calcium, and increased alkaline phosphatase activity. HC at levels ≥ 27.5 n m increased vitamin D-induced CaBP concentration: This apparently represents the first report of an interaction of HC with another steroid, vitamin D, in the regulation of the concentration of a specific protein. High levels of HC (≥27.5 μ m) in the culture medium reduced duodenal calcium uptake and transmucosal transport regardless of the presence of vitamin D. However, at lower concentrations of HC (≤2.75 μ m), only vitamin D-independent calcium uptake (basal calcium uptake) was reduced. Actinomycin D had no effect on HC reduction of basal calcium uptake suggesting that new protein synthesis is not involved in this action. In other experiments either HC or vitamin D stimulated phosphate and glucose uptake, and this uptake was potentiated by the presence of both steroids. HC also stimulated alanine uptake. Either HC or vitamin D increased both alkaline phosphatase activity (APA) and cAMP concentration, but together their activities were only additive. The data accumulated thus far indicate that HC directly influences calcium (and other nutrient) uptake by the duodenum and increases the concentration of the vitamin D-induced CaBP. Other vitamin D-mediated responses (APA and cAMP) were influenced by HC but there was no readily discernible relationship to nutrient uptake.