Abstract

Organic acids are widely employed in the food industry to control growth of microbial pathogens such as Listeria monocytogenes and Escherichia coli. There is substantial evidence that intracellular accumulation of acid anions is a major inhibitor to cell viability, and that some bacteria are able to combat the toxic effects of anion accumulation via their ability to continue active metabolism at a lower intracellular pH (pHi). This study followed the accumulation of acid anion into the cell pellet and parallel changes in pHi in two human pathogenic strains of L. monocytogenes (N1-227 and R2-499) and in E. coli O157:H7 after exposure to sub-bacteriostatic levels of lactic and acetic acids at mildly acidic pH 6. The methodology employed in these studies included independent measures of pHi and intracellular anion accumulation. For the latter work, cells were pelleted through bromododecane to strip off extracellular water and solutes. Listeria strains accumulated 1.5-fold acetate or 2.5-fold lactate as compared to the external environment while mounting a defense against anion accumulation that included up to a 1-unit pHi drop from 7.5 to 6.5 for strain R2-499. E. coli accumulated 2.5-fold acetate but not lactate and apparently made use of combat mechanisms other than lowering pHi not explored in this study. Inulin was employed to estimate the fractional volume of cell pellet present as intracellular space. That intracellular fraction was 0.24 for E. coli, which infers that acid accumulation into the intercellular space was minimally 4 × that measured for the entire pellet. An intercellular fraction of pellet was not measurable for strains of L. monocytogenes. The data also bring into question the efficacy across bacterial species of the common, but confounding, practice of using intracellular anion accumulation as a measure of pHi, and vice versa.

Highlights

  • Listeria monocytogenes and Escherichia coli are pathogens of concern for foodborne illness, and each is among the top five causes of food-related death (Mead et al, 1999; Scallan et al, 2011)

  • Prior studies report that acetic acid inhibits growth of L. monocytogenes more than lactic acid in terms of total acid added as weight by volume (Farber et al, 1989; Sorrells et al, 1989; George et al, 1996), and the results presented here suggest that this may be due to the greater relative accumulation of acetate into the cell

  • It has not been previously reported that Listeria develops a lower pHi in response to just external acidity (Budde and Jakobsen, 2000; Shabala et al, 2002), this finding has been reported in lactic acid bacteria (Siegumfeldt et al, 2000)

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Summary

INTRODUCTION

Listeria monocytogenes and Escherichia coli are pathogens of concern for foodborne illness, and each is among the top five causes of food-related death (Mead et al, 1999; Scallan et al, 2011) Both pathogens are hardy organisms that can survive in many different types of environments, including food production facilities (LeJeune et al, 2001; Popovic et al, 2014). Carpenter and Broadbent (2009) assert in their hypothesis paper that external protonated acid is merely a shuttle, not a driving force for intracellular anion accumulation. Their hypothesis paper points out that a failure to control external anion concentration has confounded results and likely led to misleading conclusions regarding the antimicrobial action of organic acids. E. coli O157:H7, a Gram-negative and broadly studied human pathogen, was included to provide a basis for comparison

MATERIALS AND METHODS
RESULTS AND DISCUSSION
CONCLUSION AND FUTURE RESEARCH
DATA AVAILABILITY STATEMENT

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