AUTHOR=Jaworska Karolina , Nieckarz Marta , Ludwiczak Marta , Raczkowska Adrianna , Brzostek Katarzyna 

TITLE=OmpR-Mediated Transcriptional Regulation and Function of Two Heme Receptor Proteins of Yersinia enterocolitica Bio-Serotype 2/O:9

JOURNAL=Frontiers in Cellular and Infection Microbiology

VOLUME=8

YEAR=2018

URL=https://www.frontiersin.org/journals/cellular-and-infection-microbiology/articles/10.3389/fcimb.2018.00333

DOI=10.3389/fcimb.2018.00333

ISSN=2235-2988

ABSTRACT=<p>We show that <italic>Yersinia enterocolitica</italic> strain Ye9 (bio-serotype 2/O:9) utilizes heme-containing molecules as an iron source. The Ye9 genome contains two multigenic clusters, <italic>hemPRSTUV</italic>-1 and <italic>hemPRST</italic>-2, encoding putative heme receptors HemR1 and HemR2, that share 62% amino acid identity. Expression of these proteins in an <italic>Escherichia coli</italic> mutant defective in heme biosynthesis allowed this strain to use hemin and hemoglobin as a source of porphyrin. The <italic>hemPRSTUV</italic>-1 and <italic>hemPRST</italic>-2 clusters are organized as operons, expressed from the p<sub>hem−1</sub> and weaker p<sub>hem−2</sub> promoters, respectively. Expression of both operons is negatively regulated by iron and the iron-responsive transcriptional repressor Fur. In addition, OmpR, the response regulator of two component system (TCSs) EnvZ/OmpR, represses transcription of both operons through interaction with binding sequences overlapping the −35 region of their promoters. Western blot analysis of the level of HemR1 in <italic>ompR, fur</italic>, and <italic>ompRfur</italic> mutants, showed an additive effect of these mutations, indicating that OmpR may regulate HemR expression independently of Fur. However, the effect of OmpR on the activity of the p<sub>hem−1</sub> promoter and on HemR1 production was observed in both iron-depleted and iron-replete conditions, i.e., when Fur represses the iron-regulated promoter. In addition, a hairpin RNA thermometer, composed of four uracil residues (FourU) that pair with the ribosome-binding site in the 5′-untranslated region (5′-UTR) of <italic>hemR1</italic> was predicted by <italic>in silico</italic> analysis. However, thermoregulated expression of HemR1 could not be demonstrated. Taken together, these data suggest that Fur and OmpR control iron/heme acquisition via a complex mechanism based on negative regulation of <italic>hemR1</italic> and <italic>hemR2</italic> at the transcriptional level. This interplay could fine-tune the level of heme receptor proteins to allow <italic>Y. enterocolitica</italic> to fulfill its iron/heme requirements without over-accumulation, which might be important for pathogenic growth within human hosts.</p>