Identification of a Two-Component Signal Transduction System from Corynebacterium diphtheriae That Activates Gene Expression in Response to the Presence of Heme and Hemoglobin

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Journal of Bacteriology, September 1999, p. 5330-5340, Vol. 181, No. 17
0021-9193/99/$04.00+0

Identification of a Two-Component Signal Transduction System from Corynebacterium diphtheriae That Activates Gene Expression in Response to the Presence of Heme and Hemoglobin

Michael P. Schmitt^*

Laboratory of Bacterial Toxins, Division of Bacterial Products, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, Maryland 20892

Received 7 May 1999/Accepted 30 June 1999

Corynebacterium diphtheriae, the causative agent of diphtheria, utilizes various host compounds to acquire iron. The C. diphtheriaehmuO gene encodes a heme oxygenase that is involved in the utilizationof heme and hemoglobin as iron sources. Transcription of the hmuOgene in C. diphtheriae is controlled under a dual regulatory mechanismin which the diphtheria toxin repressor protein (DtxR) and ironrepress expression while either heme or hemoglobin is needed toactivate transcription. In this study, two clones isolated froma C. diphtheriae chromosomal library were shown to activate transcriptionfrom the hmuO promoter in Escherichia coli. Sequence analysisrevealed that these activator clones each carried distinct geneswhose products had significant homology to response regulatorsof two-component signal transduction systems. Located upstreamfrom each of these response regulator homologs are partial openreading frames that are predicted to encode the C-terminal portionsof sensor kinases. The full-length sensor kinase gene for eachof these systems was cloned from the C. diphtheriae chromosome,and constructs each carrying one complete sensor kinase gene andits cognate response regulator were constructed. One of theseconstructs, pTSB20, which carried the response regulator (chrA)and its cognate sensor kinase (chrS), was shown to strongly activatetranscription from the hmuO promoter in a heme-dependent mannerin E. coli. A mutation in chrA (chrAD50N), which changed a conservedaspartic acid residue at position 50, the presumed site of phosphorylationby ChrS, to an asparagine, abolished heme-dependent activation.These findings suggest that the sensor kinase ChrS is involvedin the detection of heme and the transduction of this signal,via a phosphotransfer mechanism, to the response regulator ChrA,which then activates transcription of the hmuO promoter. Thisis the first report of a bacterial two-component signal transductionsystem that controls gene expression through a heme-responsivemechanism.

^* Mailing address: Division of Bacterial Products, CBER, FDA, Building 29, Room 108, 8800 Rockville Pike, Bethesda, MD 20892.Phone: (301) 435-2424. Fax: (301) 402-2776. E-mail: schmitt{at}cber.fda.gov.

Journal of Bacteriology, September 1999, p. 5330-5340, Vol. 181, No. 17
0021-9193/99/$04.00+0

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