The dominating mechanism for iron delivery to tissues is the internalisation of the transferrin receptor-diferric transferrin complex. Other ways for iron to enter cells exist but do not contribute significantly to the cellular iron homeostasis in humans. Once the complex has been endocytosed, iron is released to the cytosol for further transport inside the cell, for example to the mitochondria...

Differential measurements of sedimentation velocity showed that binding of 2 atoms of iron per molecule of human apotransferrin caused an increase in s(0) (20,w) of about 1.8%. Gel-filtration experiments to compare the elution volumes of apotransferrin and transferrin radioactively labelled with iron showed that binding of the first atom to a molecule produced a decrease in Stokes radius of abo...

Two ruthenium(III) complexes, namely trans-indazolium[tetrachlorobis(indazole)- ruthenate(III)], HInd[RuInd(2)Cl(4)] and trans-imidazolium[tetrachlorobis(imidazole)- ruthenate(III)], HIm[RuIm(2)Cl(4)] exhibit high anticancer activity in an autochthonous colorectal carcinoma model in rats. Recently, it has been shown that both complexes bind specifically to human serum apotransferrin and the res...

The interaction of two ruthenium(III) complexes exhibiting high anticancer activity, namely trans-indazolium(bisindazole)tetrachlororuthenate(III) (ru-ind) and trans-imidazolium(bisimidazole)tetrachlororuthenate(III) (ru-im), with human serum apotransferrin has been investigated through spectroscopic and chromatographic techniques with the ultimate goal of preparing adducts with good selectivit...

Genetically hypotransferrinemic mice accumulate iron in the liver and pancreas. A similar pattern of tissue iron accumulation occurs in humans with hereditary hemochromatosis. In both disorders, there is a decreased plasma concentration of apotransferrin. To test the hypothesis that nontransferrin-bound iron exists and is cleared by the parenchymal tissues, the tissue distribution of 59Fe was s...

Iron (Fe(2+), Fe(3+)) homeostasis is a tightly regulated process, involving precise control of iron influx and egress from cells. Although the mechanisms of its import into cells by iron carrier molecules are well characterized, iron export remains poorly understood. The current paradigm envisages unique functions associated with specialized macromolecules for its cellular import (transferrin r...

objective(s) nonenzymatic glycosylation (glycation) occurs in many macromolecules in aging and diabetes due to exposure of biomolecules to high level of glucose. glycation can changes function, activities and structure of many biomolecules. considering this important role of transferrin (trf) in iron transport and antioxidant activity in plasma this study was carried out to investigate the effe...

The enthalpy change for saturation of half the Fe(II1) binding sites was compared with the enthalpy change for saturation of the hall-saturated protein. In the presence of excess HCOBthese values were -10.90 f 0.19 Cal per mole of bound Fe(II1) and -10.43 f 0.76 Cal per mole of bound Fe(III), respectively. In the absence of HCOI-, corresponding values were -4.64 + 0.05 Cal per mole of bound Fe(...