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1. The Mechanism of Direct Heme Transfer from the Streptococcal Cell Surface Protein Shp to HtsA of the HtsABC Transporter

Author

George C. Blouin, Benfang Lei, David M. Dooley, Tyler K. Nygaard, Marian Fabian, John S. Olson, Maki Fukumura, and Mengyao Liu

Subjects

Hemeproteins, Streptococcus pyogenes, Stereochemistry, Inorganic chemistry, Heme, Biochemistry, Article, Dissociation (chemistry), chemistry.chemical_compound, Adenosine Triphosphate, Reaction rate constant, Cell surface receptor, Escherichia coli, polycyclic compounds, Molecular Biology, Hemichrome, biology, Cell Membrane, Electron Spin Resonance Spectroscopy, Hexacoordinate, Membrane Transport Proteins, Active site, Cell Biology, Hydrogen-Ion Concentration, Recombinant Proteins, Oxygen, Kinetics, Models, Chemical, chemistry, biology.protein, Hemin

Abstract

The heme-binding proteins Shp and HtsA are part of the heme acquisition machinery found in Streptococcus pyogenes. The hexacoordinate heme (Fe(II)-protoporphyrin IX) or hemochrome form of holoShp (hemoShp) is stable in air in Tris-HCl buffer, pH 8.0, binds to apoHtsA with a K(d) of 120 +/- 18 microm, and transfers its heme to apoHtsA with a rate constant of 28 +/- 6s(-1) at 25 degrees C, pH 8.0. The hemoHtsA product then autoxidizes to the hexacoordinate hemin (Fe(III)-protoporphyrin IX) or hemichrome form (hemiHtsA) with an apparent rate constant of 0.017 +/- 0.002 s(-1). HemiShp also rapidly transfers hemin to apoHtsA through a hemiShp.apoHtsA complex (K(d) = 48 +/- 7 microM) at a rate approximately 40,000 times greater than the rate of simple hemin dissociation from hemiShp into solvent (k(transfer) = 43 +/- 3s(-1) versus k(-hemin) = 0.0003 +/- 0.00006 s(-1)). The rate constants for hemin binding to and dissociation from HtsA (k'(hemin) approximately 80 microm(-1) s(-1), k(-hemin) = 0.0026 +/- 0.0002 s(-1)) are 50- and 10-fold greater than the corresponding rate constants for Shp (k(hemin) approximately 1.6 microM(-1) s(-1), k(-hemin) = 0.0003 s(-1)), which implies that HtsA has a more accessible active site. However, the affinity of apoHtsA for hemin (k(hemin) approximately 31,000 microm(-1)) is roughly 5-fold greater than that of apoShp (k(hemin) approximately 5,300 microM(-1)), accounting for the net transfer from Shp to HstA. These results support a direct, rapid, and affinity-driven mechanism of heme and hemin transfer from the cell surface receptor Shp to the ATP-binding cassette transporter system.

Published

2006