High-Affinity Interaction between Fibronectin and the Group B Streptococcal C5a Peptidase Is Unaffected by a Naturally Occurring Four-Amino-Acid Deletion That Eliminates Peptidase Activity

doi:10.1128/IAI.00241-06

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Infection and Immunity, October 2006, p. 5739-5746, Vol. 74, No. 10
0019-9567/06/$08.00+0 doi:10.1128/IAI.00241-06
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

High-Affinity Interaction between Fibronectin and the Group B Streptococcal C5a Peptidase Is Unaffected by a Naturally Occurring Four-Amino-Acid Deletion That Eliminates Peptidase Activity

Glen S. Tamura,¹^* James R. Hull,² Michael D. Oberg,¹ and David G. Castner²^,3

Departments of Pediatrics,¹ Chemical Engineering,² Bioengineering, University of Washington, Seattle, Washington 98195³

Received 13 February 2006/ Returned for modification 28 March 2006/ Accepted 13 July 2006

The streptococcal C5a peptidase (ScpB) of group B streptococci(GBS) is found in virtually all clinical GBS isolates and isrequired for mucosal colonization in a neonatal mouse model.ScpB inhibits neutrophil chemotaxis by enzymatically cleavingthe complement component C5a. We previously identified a secondfunction of ScpB as a fibronectin (Fn) adhesin using phage display.However, phage display can identify low-affinity interactions.We therefore measured the affinity of both full-length recombinantScpB (FL-ScpB) and the 110-amino-acid phage display fragment(Scp-PDF) for immobilized Fn using surface plasmon resonance.The affinity for Fn was very high for both FL-ScpB (equilibriumdissociation constant [K_D] = 4.0 nM) and Scp-PDF (K_D = 4.4 nM)and is consistent with a biologically significant role for theadhesin activity of ScpB. We also studied the Fn adhesin activityof a common natural variant of ScpB (ScpB ${Delta}$ ) that contains a 4-amino-aciddeletion that eliminates peptidase activity. The integrity ofscpB is otherwise maintained, suggesting that the Fn adhesinactivity of ScpB may be responsible for its conservation inthese strains. The affinities of both FL-ScpB ${Delta}$ (K_D = 2.4 nM)and ScpB ${Delta}$ -PDF (K_D = 1.4 nM) for Fn are unaffected by the deletion.Complementation in trans by both scpB and scpB ${Delta}$ corrected theFn-binding defect of an scpB deletion mutant GBS strain to anidentical degree. The high affinity of ScpB for Fn and the maintenanceof this affinity in ScpB ${Delta}$ support our hypothesis that the Fnadhesin activity of scpB plays a role in virulence.

* Corresponding author. Mailing address: Department of Pediatrics, University of Washington, Box 359300, Seattle, WA 98195. Phone: (206) 987-1918. Fax: (206) 987-7311. E-mail: gtamura{at}u.washington.edu.

Editor: J. N. Weiser

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