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Journal of Bacteriology, April 2007, p. 2759-2768, Vol. 189, No. 7
0021-9193/07/$08.00+0     doi:10.1128/JB.01490-06
Copyright © 2007, American Society for Microbiology. All Rights Reserved.

Products of the Escherichia coli Acid Fitness Island Attenuate Metabolite Stress at Extremely Low pH and Mediate a Cell Density-Dependent Acid Resistance

Aaron K. Mates, Atef K. Sayed, and John W. Foster^*

Department of Microbiology and Immunology, University of South Alabama College of Medicine, Mobile, Alabama 36688

Received 21 September 2006/ Accepted 16 January 2007

Escherichia coli has an ability, rare among the Enterobacteriaceae, to survive extreme acid stress under various host (e.g., human stomach) and nonhost (e.g., apple cider) conditions. Previous microarray studies have exposed a cluster of 12 genes at 79 centisomes collectively called an acid fitness island (AFI). Four AFI genes, gadA, gadX, gadW, and gadE, were already known to be involved in an acid resistance system that consumes an intracellular proton through the decarboxylation of glutamic acid. However, roles for the other eight AFI gene products were either unknown or subject to conflicting findings. Two new aspects of acid resistance are described that require participation of five of the remaining eight AFI genes. YhiF (a putative regulatory protein), lipoprotein Slp, and the periplasmic chaperone HdeA protected E. coli from organic acid metabolites produced during fermentation once the external pH was reduced to pH 2.5. HdeA appears to handle protein damage caused when protonated organic acids diffuse into the cell and dissociate, thereby decreasing internal pH. In contrast, YhiF- and Slp-dependent systems appear to counter the effects of the organic acids themselves, specifically succinate, lactate, and formate, but not acetate. A second phenomenon was defined by two other AFI genes, yhiD and hdeD, encoding putative membrane proteins. These proteins participate in an acid resistance mechanism exhibited only at high cell densities (>10⁸ CFU per ml). Density-dependent acid resistance does not require any demonstrable secreted factor and may involve cell contact-dependent activation. These findings further define the complex physiology of E. coli acid resistance.

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* Corresponding author. Mailing address: Department of Microbiology and Immunology, University of South Alabama College of Medicine, Mobile, AL 36688. Phone: (251) 460-6323. Fax: (251) 460-7931. E-mail: fosterj{at}sungcg.usouthal.edu.

Published ahead of print on 26 January 2007.

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Journal of Bacteriology, April 2007, p. 2759-2768, Vol. 189, No. 7
0021-9193/07/$08.00+0     doi:10.1128/JB.01490-06
Copyright © 2007, American Society for Microbiology. All Rights Reserved.

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