 Intact transferrin receptors in human plasma and their relation to erythropoiesis.; Beguin, Yves  ; et alin Blood (1990), 75(1), 102-7 Intact transferrin receptor molecules complexed with transferrin were found in human plasma. The concentration of receptors was determined by an enzyme-linked immunosorbent assay that uses polyclonal ... [more ▼] Intact transferrin receptor molecules complexed with transferrin were found in human plasma. The concentration of receptors was determined by an enzyme-linked immunosorbent assay that uses polyclonal antibodies. The mean concentration of 8,279 micrograms/L in 56 normal adults appears to be unrelated to age or sex. Additional receptor measurements were performed on plasmas from 260 subjects with erythropoietic disorders. Decreased concentration of plasma receptors was found in patients with erythroid hypoplasia and increased numbers in those with erythroid hyperplasia. Ferrokinetic measurements of erythropoiesis were compared with numbers of receptors in 148 subjects, and a close correlation was found (r = .86). Both sets of values, measured in different conditions and expressed in relation to normal, were consistent with expected values. Receptor values were unproportionally increased only in conditions of iron deficiency. It is concluded that plasma receptors have a constant relationship to tissue receptors, and their number in most instances reflects the rate of erythropoiesis. [less ▲] Detailed reference viewed: 11 (1 ULg)Hepatocyte iron release in rats.Beguin, Yves ; ; Weber, Géraldine et alin Journal of Laboratory & Clinical Medicine (1989), 113(3), 346-54 Hepatocyte iron release was studied in vivo in rats. After the injection of iron 59-labeled ferritin, hemoglobin, or human asialotransferrin, the proportions of the radioactive iron returned to the plasma ... [more ▼] Hepatocyte iron release was studied in vivo in rats. After the injection of iron 59-labeled ferritin, hemoglobin, or human asialotransferrin, the proportions of the radioactive iron returned to the plasma and incorporated into stores were determined under various conditions. Iron 55-labeled rat transferrin was injected at the same time as the 59Fe-labeled compound, and storage iron release was calculated from the cumulative incorporation of the two isotopes in the red cell mass over 2 weeks. The various 59Fe-labeled compounds were processed differently by the hepatocyte, but the radioactive iron was incorporated in the same iron stores. About 6% of the hepatocyte storage iron was released daily in normal rats, but a pool of iron that is not mobilized spontaneously was clearly identified in iron overload. Iron turnover in the hepatocyte was regulated by the rate of erythropoiesis and iron status of the animal, and inflammation blocked hepatocyte iron release. A strong correlation between hepatocyte iron release and plasma transferrin receptor levels was observed (p less than 0.001), suggesting that plasma transferrin receptors could mediate the regulation of hepatocyte iron mobilization in rats. [less ▲] Detailed reference viewed: 20 (0 ULg)Ferrokinetic measurement of erythropoiesis.Beguin, Yves ; ; et alin Acta Haematologica (1988), 79(3), 121-6 Ferrokinetic measurements have proved useful because of the dominant role of the erythron in tissue iron uptake. Detailed measurements of the plasma iron disappearance curve coupled with in vivo counting ... [more ▼] Ferrokinetic measurements have proved useful because of the dominant role of the erythron in tissue iron uptake. Detailed measurements of the plasma iron disappearance curve coupled with in vivo counting have defined the major pathways of iron utilization and early refluxes of iron into plasma. Recent studies have disclosed two separate plasma kinetic pools consisting of mono- and diferric transferrin, and have demonstrated the effect of their relative abundance on tissue iron uptake. Allowance for the amount of each has made possible the calculation of iron-bearing transferrin uptake, which is independent of plasma iron concentration as long as receptors are saturated. This refinement permits the measurement of functional erythron transferrin receptors, and thereby the relative number of immature erythroid cells. [less ▲] Detailed reference viewed: 10 (0 ULg)Transferrin receptors in rat plasma.Beguin, Yves ; ; et alin Proceedings of the National Academy of Sciences of the United States of America (1988), 85(2), 637-40 Antigenic material in rat plasma reacting with rat transferrin receptor antibodies was identified as an intact receptor molecule complexed with transferrin. Plasma transferrin receptors were measured by ... [more ▼] Antigenic material in rat plasma reacting with rat transferrin receptor antibodies was identified as an intact receptor molecule complexed with transferrin. Plasma transferrin receptors were measured by ELISA in rats of different age and sex, of different iron status, with different degrees of erythropoiesis, and with inflammation. An inverse relationship between iron status and receptor number was found, whereas a direct relationship existed between erythropoiesis and receptors. These changes in receptor number can be explained by assuming that the number of tissue receptors determined the number of plasma receptors and that the erythroid cells possessed most of the body's receptors. Increases in plasma receptors lagged behind the appearance of circulating reticulocytes, suggesting that receptors were released to the plasma during the terminal phase of erythrocyte maturation. [less ▲] Detailed reference viewed: 11 (2 ULg)The behavior of asialotransferrin-iron in the rat.Beguin, Yves ; ; et alin American Journal of Hematology (1988), 29(4), 204-10 The effect of desialylation of rat and human transferrins on hepatocyte processing of the protein and its iron was studied in rats. No alteration in early transferrin catabolism was observed. Radioiron ... [more ▼] The effect of desialylation of rat and human transferrins on hepatocyte processing of the protein and its iron was studied in rats. No alteration in early transferrin catabolism was observed. Radioiron disappearance from the plasma and liver iron uptake were more rapid for asialotransferrins than for normal transferrins (P less than .001). Furthermore, radioiron plasma clearance of human tri-sialotransferrin was faster (P less than .05) and liver uptake higher (P less than .002) than for human pentasialotransferrin. When the asialoglycoprotein receptor was blocked by the prior injection of asialofetuin, asialotransferrin behaved like normal transferrin. When the transferrin receptor was blocked by the prior injection of 50 mg human diferric transferrin, iron uptake from all transferrins was delayed to such an extent that uptake through both receptors seemed to be affected. Approximately 90% of the hepatic radioiron from all transferrins was chelated by desferrioxamine and excreted into the bile, indicating its uptake by the hepatocyte rather than the reticuloendothelial (RE) cell. The rate of iron release into the plasma and its subsequent accumulation in the red cell mass over a 2-week period was similar for human asialotransferrin, ferritin, and hemoglobin iron. This study 1) confirmed that asialotransferrin-iron uptake by the hepatocyte is mediated by both transferrin and asialoglycoprotein receptors; 2) demonstrated that not only asialotransferrin but also transferrin of low sialic acid content will increase iron turnover and lead to excessive iron loading of the hepatocyte; 3) and showed that the intrahepatocyte metabolism of asialotransferrin-iron did not differ from that of iron delivered by normal transferrin. [less ▲] Detailed reference viewed: 9 (1 ULg) |
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