The Divergently Transcribed Streptococcus Parasanguis Virulence-associated FimA Operon Encoding an Mn(2+)-responsive Metal Transporter and PepO Encoding a Zinc Metallopeptidase Are Not Coordinately Regulated

Overview

Journal Infect Immun

Publisher American Society for Microbiology

Specialty Allergy & Immunology

Date 2002 Sep 14

PMID 12228300

Citations 14

Authors

Joyce Oetjen

Paula Fives-Taylor

Eunice H Froeliger

Affiliations

Soon will be listed here.

Abstract

The study of how bacteria respond to and obtain divalent metal ions provides insight into the regulation of virulence factors in the host environment. Regulation of metal permease operons in gram-positive bacteria may involve the binding of metal-responsive repressors to palindromic domains in their control regions. The Streptococcus parasanguis fimA operon, which encodes an ATP-binding cassette (ABC) transporter system with sequence homology to the LraI family of metal transporters, possesses a palindromic regulatory region with high homology to that of the Streptococcus gordonii ScaR binding domain. Mapping of the promoter and regulatory regions of fimA and the divergently transcribed pepO gene, which encodes a zinc metalloendopeptidase, indicated that their promoter and regulatory elements overlap. fimA had one transcriptional start site, whereas pepO had three. Analysis of truncated versions of the pepO promoter suggested that all three transcriptional start sites are functional. Analysis of promoter activity under various environmental conditions indicated that the fimA operon promoter and the pepO promoter are not coordinately regulated. The fimA operon is responsive to changes in Mn(2+) concentration, but the pepO promoter is not. A S. parasanguis fimA mutant showed a growth deficiency under conditions of limiting Mn(2+). This deficiency was not alleviated by compensation with either Mg(2+) or Fe(3+). Wild-type S. parasanguis could take up Mn(2+) and Fe(3+), while the fimA mutant showed a marked reduction in this ability. These data suggested that FimA is a component of a metal transporter system capable of transporting both Mn(2+) and Fe(3+). FimA expression itself was shown to be responsive to Mn(2+) concentration, but not to availability of Fe(3+) or Mg(2+).

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