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Metal substitution in transferrins: specific binding of cerium(IV) revealed by the crystal structure of cerium-substituted human lactoferrin (2000)

Baker, Heather M. ; Baker, Christina J. ; Smith, Clyde A. ; [et al.]

Springer

JBIC 5 (2000), S. 692-698

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ISSN: 1432-1327

Keywords: Metal substitution Cerium binding Lactoferrin Crystal structure Transferrin

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract. Proteins of the transferrin family play a key role in iron homeostasis through their extremely strong binding of iron, as Fe3+. They are nevertheless able to bind a surprisingly wide variety of other metal ions. To investigate how metal ions of different size, charge and coordination characteristics are accommodated, we have determined the crystal structure of human lactoferrin (Lf) complexed with Ce4+. The structure, refined at 2.2 Å resolution (R=20.2%, R free=25.7%) shows that the two Ce4+ ions occupy essentially the same positions as do Fe3+, and that the overall protein structure is unchanged; the same closed structure is formed for Ce2Lf as for Fe2Lf. The larger metal ion is accommodated by small shifts in the protein ligands, made possible by the presence of water molecules adjacent to each binding site. The two Ce4+ sites are equally occupied, indicating that the known difference in the pH-dependent release of Ce4+ arises from a specific protonation event, possibly of the His ligand in one of the binding sites. Comparing the effects of binding Ce4+ with those for the binding of other metal ions, we conclude that the ability of transferrins to accommodate metal ions other than Fe3+ depends on an interplay of charge, size, coordination and geometrical preferences of the bound metal ion. However, it is the ability to accept the six-coordinate, approximately octahedral, site provided by the protein that is of greatest importance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007750000157

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Binding of ruthenium(III) anti-tumor drugs to human lactoferrin probed by high resolution X-ray crystallographic structure analyses (1996)

Smith, Clyde A. ; Sutherland-Smith, Andrew J. ; Kratz, Felix ; [et al.]

Springer

JBIC 1 (1996), S. 424-431

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ISSN: 1432-1327

Keywords: Key words Drug binding ; Lactoferrin ; Ruthenium(III) complexes ; Crystal structures

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract The binding to human lactoferrin of three Ru(III) complexes with anti-tumor activity has been investigated by X-ray crystallography in order to gain insights into how such complexes might be carried during transferrin-mediated delivery to cells. The complexes, HIm[RuIm2Cl4], HInd[RuInd2Cl4] and (HInd)2 [RuIndCl5], where Im = imidazole and Ind = indazole, were diffused into crystals of apo-lactoferrin (apoLf). X-ray diffraction data were collected to 2.6 Å, 2.2 Å and 2.4 Å respectively. The binding sites for the Ru complexes were determined from difference Fouriers, in comparison with native apoLf; the two indazole-apoLf complexes were also refined crystallographically to final R factors of 0.202 (for 8.0 to 2.3 Å data) and 0.192 (for 8.0 to 2.4 Å data) respectively. Two types of binding site were identified, a high-affinity site at His 253 in the open N-lobe iron-binding cleft of apoLf (and by analogy a similar one at His 597 in the C-lobe), and lower-affinity sites at surface-exposed His residues, primarily His 590 and His 654. The exogenous heterocyclic ligands remain bound to Ru, at least at the His 253 site, and modelling suggests that the nature and number of these ligands may determine whether the closed structure that is required for receptor binding could be formed or not. The results also highlight the importance of His residues for binding such complexes and the value of heavy atom binding studies from crystallographic analyses for identifying non-specific binding sites on proteins.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007750050074

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