THE DEVELOPMENT OF SURFACE SPECIALIZATION IN THE SECRETORY EPITHELIUM OF THE AVIAN SALT GLAND IN RESPONSE TO OSMOTIC STRESS

doi:10.1083/jcb.40.2.305

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THE DEVELOPMENT OF SURFACE SPECIALIZATION IN THE SECRETORY EPITHELIUM OF THE AVIAN SALT GLAND IN RESPONSE TO OSMOTIC STRESS

Stephen A. Ernst ¹ and Richard A. Ellis ¹

¹ From the Division of Biological and Medical Sciences, Brown University, Providence, Rhode Island 02912.

Dr. Ernst's present address is Department of Biology, Rice University, Houston, Texas 77001

Cell surface specialization, a characteristic common to mostion-transporting epithelia, was studied in the salt (nasal)gland of the domestic duck in relation to osmotic stress. Threedays after hatching, experimental ducklings were given 1% NaClto drink for 12 hr and freshwater for the remainder of eachday. Control ducklings were maintained exclusively on freshwater.The fine structure of the secretory epithelium was examinedon various days of the regimen. The nasal gland epithelium ofthe secretory lobule is composed of several types of cells.Peripheral cells, lying at the blind ends of the branched secretorytubules, are similar in both control and experimental animalsat all stages of glandular development. These generative cellscontain few mitochondria and have nearly smooth cell surfaces.Partially specialized secretory cells predominate in the secretorytubules of control animals and appear as transitional cellsin the tubular epithelium of salt-stressed animals. These cellscontain few mitochondria and bear short folds along their lateralcell surfaces. Fully specialized cells dominate the secretoryepithelium of osmotically stressed ducklings. The lateral andbasal surfaces of these cells are deeply folded, forming complexintra- and extracellular compartments. This vast increase inabsorptive surface area is paralleled by an increase in thenumber of mitochondria that pack the basal compartments. Thedevelopment of this fully specialized cell is correlated withthe marked increase in (Na⁺-K⁺)-ATPase activity in the glandsof osmotically stressed birds.

Submitted on July 9, 1968

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