Specificity of zinc pathway through the body: homeostatic considerations

Abstract

Various tissues of the bodies of mice as well as various intracellular organelles of mouse liver cells showed distinct individuality relative to the time course of Zn65 distribution after intraperitoneal injection. When loss of Zn65 was accelerated by means of feeding of a zinc salt, the partition of this isotope among both organs and intracellular organelles remained unaffected. When, on the other hand, normal absorption was bypassed by intraperitoneal injection of a zinc salt, the distribution of Zn65 was perturbed. Thus it seems that the homeostatic controls discussed earlier ( Am. J. Physiol. 202:359, 1962) are operative over the entire zinc pathway only when the absorbtive and the excretory mechanisms are functioning together. Cadmium feeding, in contrast to zinc feeding, did influence the distribution of Zn65, as did also intraperitoneally administered cadmium. Cadmium feeding also induced an aberrant concentration of nondialyzable total nitrogen among the liver cell organelles.