An extracellular stress‐sensing protein is activated by heat and u.v. irradiation as well as by mild acidity, the activation producing an acid tolerance‐inducing protein

Abstract

During growth of Escherichia coli in broth at pH 5·0, an extracellular protein termed an extracellular induction component (EIC) appears in the medium, this component being essential for acid tolerance induction. The present study establishes that the EIC arises from an extracellular precursor which is formed during growth at pH 7·0, and that conversion of the precursor to the EIC occurs at pH 5·0 (and other mildly acidic pH values) in the absence of organisms. On the basis that this precursor is produced by non-stressed cells as well as by stressed ones, and that it is converted to the EIC (which in turn induces the tolerance response) by the stress, the precursor can be considered to be a stress sensor, the first extracellular stimulus sensor to be reported. The EIC formed at pH 5·0 was inactivated at pH 9·0. This inactivation probably involved conversion back to the precursor as EIC was reformed if the alkali-inactivated component was incubated at pH 5·0. Both mild heat treatments (exposure to 40–55 °C) and u.v. irradiation also activated the precursor; the active induction component formed by the mild heat treatments was reversibly inactivated at pH 9·0 and so it seems likely that the component formed by heat treatment is similar or identical to the EIC produced at acidic pH. In contrast, the EIC produced by u.v. irradiation was not inactivated at pH 9·0, suggesting that it is different in some way to the EICs produced from the precursor by acidity or by heat treatment. It is likely that many responses affecting stress tolerance involve the functioning of such extracellular sensors, as similar components were shown to be involved in the acid tolerance responses induced at pH 7·0 by glucose, l-aspartate and l-glutamate. Extracellular stimulus sensors may also be needed for other inducible responses.