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

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.