Hepatic iron uptake from and degradation of rat asialotransferrin prepared from the least anionic (major) component of rat transferrin were studied in intact rats. In experiments lasting 60-90 min, rat asialotransferrin delivered a three to four times larger fraction of the Fe dose to the liver than rat transferrin. Variations in the concentration of endogenous circulating rat 2Fe-transferrin by up to 300% failed to affect the enhanced hepatic delivery of Fe from rat asialotransferrin. However, pretreating the animals with a large dose of asialomucin, or fully sialylated human transferrin, or a combination of both did affect the delivery. In all cases, rat asialotransferrin delivered Fe to the liver at rates comparable with those seen with rat transferrin. The reason for the efficacy of human transferrin was clarified in competitive binding studies on rat hepatocytes and reticulocytes, which showed that human transferrin possessed an approximately sevenfold higher affinity for rat transferrin receptors than the homologous protein. These findings suggest that the enhanced hepatic uptake of Fe from rat asialotransferrin is mediated by simultaneous binding of the ligand both through its glycan and transferrin receptor affinity site. Pretreatment with asialomucin and human transferrin had no suppressing effect on basal hepatic delivery of iron from rat 2Fe-transferrin. The data suggest that deposition of a significant fraction of Fe in rat liver from rat transferrin is likely to take place by a mechanism not involving transferrin receptors. Desialylation shortened the metabolic half-life of rat transferrin from 33 to 24 h.(ABSTRACT TRUNCATED AT 250 WORDS)
Transferrin Receptors of Isolated Rat Seminiferous Tubules Bind Both Rat and Human Transferrin
