Pawan K. Bali scite author profile

Iron removal by pyrophosphate from human serum diferric transferrin and the complex of transferrin with its receptor was studied in 0.05 M HEPES or MES buffers containing 0.1 M NaCl and 0.01 M CHAPS at 25 degrees C at pH 7.4, 6.4, and 5.6. At each pH, the concentration of pyrophosphate was adjusted to achieve rates of release amenable to study over a reasonable time course. Released iron was separated from protein-bound iron by poly(ethylene glycol) precipitation of aliquots drawn from the reaction mixture at various times during the course of a kinetic run. The amount of 59Fe label associated with the protein and pyrophosphate was determined from the radioactivity of precipitate and supernatant, respectively, in each aliquot. Iron removal of 0.05 M pyrophosphate at pH 7.4 from diferric transferrin bound to the receptor is considerably slower than that from free diferric transferrin, with observed pseudo-first-order rate constants of 0.020 and 0.191 min-1, respectively. For iron removal by 0.01 M pyrophosphate at pH 6.4, corresponding rate constants are 0.031 and 0.644 min-1. However, at pH 5.6, iron removal by 0.001 M pyrophosphate is faster from diferric transferrin bound to its receptor than from free transferrin (observed rate constants of 0.819 and 0.160 min-1, respectively). Thus, the transferrin receptor not only facilitates the removal of iron from diferric transferrin at the low pH that prevails in endocytic vesicles but may also reduce its accessibility to iron acceptors at extracellular pH, thereby minimizing the likelihood of nonspecific release of iron from transferrin at the cell surface.

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Cooperativity and heterogeneity between the two binding sites of diferric transferrin during iron removal by pyrophosphate

Bali¹,

Harris²

1989

J. Am. Chem. Soc.

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Serum transferrin is a mammalian iron transport protein containing two high-affinity metal binding sites. The vacant binding sites of both C-terminal and N-terminal monoferric transferrin have been labeled with kinetically inert cobalt(II1). The rate constants for iron removal by pyrophosphate have been measured in 0.1 M, pH 7.4 N-(2-hydroxyethyl)-piperazine-N'-2-ethanesulfonate buffer at 25 "C for the following transferrin complexes: Fec-Tf-FeN, Fec-Tf-C%, Coc-Tf-Fe,, Fec-Tf, and Tf-FeN, where the C and N subscripts denote the specific metal binding site. The results are discussed in terms of two parallel pathways for iron removal. One is first order in pyrophosphate, while the other shows saturation kinetics with respect to the pyrophosphate concentration. Iron removal from Tf-FeN proceeds almost exclusively through the saturation pathway. Labeling of the vacant C-terminal site with cobalt(II1) has no significant effect on the rate of iron removal. Iron removal from Fec-Tf proceeds through both first-order and saturation pathways, although at concentrations of pyrophosphate above 50 mM the first-order pathway predominates. Labeling the vacant N-terminal site with cobalt(II1) accelerates iron removal through both pathways. A very similar degree of cooperativity exists for removal of iron from the C-terminal binding site of diferric transferrin. Thus the cobalt(II1)-labeled proteins appear to be good models for the cooperativity between the two transferrin binding sites during iron removal.

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Receptor-modulated iron release from transferrin: differential effects on N- and C-terminal sites

Bali¹,

Aisen²

1991

Biochemistry

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Iron release to PPi from N- and C-terminal monoferric transferrins and their complexes with transferrin receptor has been studied at pH 7.4 and 5.6 in 0.05 M HEPES or MES/0.1 M NaCl/0.01 M CHAPS at 25 degrees C. The two sites exhibit kinetic heterogeneity in releasing iron. The N-terminal form is slightly less labile than its C-terminal counterpart at pH 7.4, but much more facile in releasing iron at pH 5.6. At pH 7.4, iron removal by 0.05 M pyrophosphate from each form of monoferric transferrin complexed to the receptor is considerably slower than from the corresponding free monoferric transferrin. However, at pH 5.6, complexation of transferrin to its receptor affects the two forms differently. The rate of iron release to 0.005 M pyrophosphate by the N-terminal species is substantially the same whether transferrin is free or bound to the receptor. In contrast, the C-terminal form releases iron much faster when complexed to the receptor than when free. Urea/PAGE analysis of iron removal from free and receptor-complexed diferric transferrin at pH 5.6 reveals that its C-terminal site is also more labile in the complex, but its N-terminal site is more labile in free diferric transferrin. Thus, the newly discovered role of transferrin receptor in modulating iron release from transferrin predominantly involves the C-terminal site. This observation helps explain the prevalence of circulating N-terminal monoferric transferrin in the human circulation.

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Kinetics of iron removal from monoferric and cobalt-labeled monoferric human serum transferrin by nitrilotris(methylenephosphonic acid) and nitrilotriacetic acid

Bali¹,

Harris²,

Nesset-Tollefson³

1991

Inorg. Chem.

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Receptor-induced switch in site-site cooperativity during iron release by transferrin

Bali¹,

Aisen²

1992

Biochemistry

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Iron removal by PPi from the N- and C-terminal binding sites of both free and receptor-complexed transferrin, when the partner site remains occupied with kinetically inert Co(III), has been studied at pH 7.4 and 5.6, at 25 degrees C. At extracellular pH, 7.4, the C-terminal site of free mixed-metal proteins is slightly more labile than its N-terminal counterpart in releasing iron to 0.05 M PPi. The rate and extent of iron removal are retarded from both sites when transferrins are receptor-bound. At endosomal pH, 5.6, the two sites exhibit greater kinetic heterogeneity in iron release to 0.005 M PPi. The N-terminal site is 6 times more facile in relinquishing iron than the C-terminal site when mixed-metal transferrins are free. However, the two sites are affected oppositely upon binding to the receptor. Iron release from the C-terminal site of receptor-complexed CoN-transferrin-FeC is 4 times faster than that from receptor-free protein. In contrast, iron removal from the N-terminal site of receptor-complexed FeN-transferrin-CoC is slowed by a factor of 2 compared to that from free protein. These results help explain our previous observation of a receptor-induced switch in site lability during iron removal from diferric transferrin at pH 5.6 (Bali & Aisen, 1991). Site-site cooperative interactions between the two sites of doubly-occupied transferrin during iron release are altered upon binding to receptor at pH 5.6. Iron in the otherwise weaker binding site of the N-terminal lobe is stabilized, while iron in the relatively stable binding site of the C-terminal lobe is labilized.

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Pawan K. Bali

A new role for the transferrin receptor in the release of iron from transferrin

Cooperativity and heterogeneity between the two binding sites of diferric transferrin during iron removal by pyrophosphate

Receptor-modulated iron release from transferrin: differential effects on N- and C-terminal sites

Kinetics of iron removal from monoferric and cobalt-labeled monoferric human serum transferrin by nitrilotris(methylenephosphonic acid) and nitrilotriacetic acid

Receptor-induced switch in site-site cooperativity during iron release by transferrin

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