BACKGROUND AND AIMS: The pathophysiology of enteropathogenic Escherichia coli (EPEC) diarrhoea remains uncertain. EPEC adhere to enterocytes and transduce signals which produce a characteristic "attaching and effacing" (A/E) lesion in the brush border membrane. The present in vitro study was designed to determine whether signal transduction by EPEC also influences electrolyte transport. METHODS: Caco-2 cell monolayers were rapidly infected with wild type EPEC strain E2348/69, or the signal transduction-defective mutant 14.2.1(1), and mounted in Ussing chambers. RESULTS: Strain E2348/69 stimulated a rapid but transient increase in short circuit current (Isc) which coincided with A/E lesion formation; this Isc response was absent on infection with strain 14.2.1(1). While the initial rise in Isc induced by E2348/69 was partially (approximately 35%) dependent on chloride, the remainder possibly represents an influx of sodium and amino acid(s) across the apical membrane. CONCLUSIONS: The study directly shows that, after initial adhesion, EPEC induce major alterations in host cell electrolyte transport. The observed Isc responses indicate a rapid modulation of electrolyte transport in Caco-2 cells by EPEC, including stimulation of chloride secretion, for which signal transduction to host cells is a prerequisite.
BACKGROUND AND AIMS: The pathophysiology of enteropathogenic Escherichia coli (EPEC) diarrhoea remains uncertain. EPEC adhere to enterocytes and transduce signals which produce a characteristic "attaching and effacing" (A/E) lesion in the brush border membrane. The present in vitro study was designed to determine whether signal transduction by EPEC also influences electrolyte transport. METHODS: Caco-2 cell monolayers were rapidly infected with wild type EPEC strain E2348/69, or the signal transduction-defective mutant 14.2.1(1), and mounted in Ussing chambers. RESULTS: Strain E2348/69 stimulated a rapid but transient increase in short circuit current (Isc) which coincided with A/E lesion formation; this Isc response was absent on infection with strain 14.2.1(1). While the initial rise in Isc induced by E2348/69 was partially (approximately 35%) dependent on chloride, the remainder possibly represents an influx of sodium and amino acid(s) across the apical membrane. CONCLUSIONS: The study directly shows that, after initial adhesion, EPEC induce major alterations in host cell electrolyte transport. The observed Isc responses indicate a rapid modulation of electrolyte transport in Caco-2 cells by EPEC, including stimulation of chloride secretion, for which signal transduction to host cells is a prerequisite.
Authors: M Rousset; M Laburthe; M Pinto; G Chevalier; C Rouyer-Fessard; E Dussaulx; G Trugnan; N Boige; J L Brun; A Zweibaum Journal: J Cell Physiol Date: 1985-06 Impact factor: 6.384
Authors: Robert K Shaw; Cedric N Berger; Bart Feys; Stuart Knutton; Mark J Pallen; Gad Frankel Journal: Appl Environ Microbiol Date: 2008-02-29 Impact factor: 4.792