Release of ATP during host cell killing by enteropathogenic E. coli and its role as a secretory mediator

doi:10.1152/ajpgi.00484.2001

Release of ATP during host cell killing by enteropathogenic E. coli and its role as a secretory mediator

John K. Crane¹, Ruth A. Olson¹, Heather M. Jones², and Michael E. Duffey²

Departments of ¹ Medicine and ² Physiology and Biophysics, University at Buffalo, State University of New York, Buffalo, New York 14214

Enteropathogenic Escherichia coli (EPEC) causes severe, watery diarrhea in children. We investigated ATP release during EPEC-mediatedkilling of human cell lines and whether released adenine nucleotidesfunction as secretory mediators. EPEC triggered a release of ATPfrom all human cell lines tested: HeLa, COS-7, and T84 (coloncells) as measured using a luciferase kit. Accumulation of ATPin the supernatant medium was enhanced if an inhibitor of 5'-ectonucleotidasewas included and was further enhanced if an ATP-regenerating systemwas added. In the presence of the inhibitor/regenerator, ATP concentrationsin the supernatant medium reached 1.5-2 µM 4 h after infectionwith wild-type EPEC strains. In the absence of the inhibitor/regeneratorsystem, extracellular ATP was rapidly broken down to ADP, AMP,and adenosine. Conditioned medium from EPEC-infected cells triggereda brisk chloride secretory response in intestinal tissues studiedin the Ussing chamber (rabbit distal colon and T84 cell monolayers),whereas conditioned medium from uninfected cells and sterile filtratesof EPEC bacteria did not. The short-circuit current response toEPEC-conditioned medium was completely reversed by adenosine receptorblockers, such as 8-(p-sulfophenyl)-theophylline and MRS1754.EPEC killing of host cells releases ATP, which is broken downto adenosine, which in turn stimulates secretion via apical adenosineA_2b receptors. These findings provide new insight into how EPECcauses waterydiarrhea.

extracellular nucleotides; adenosine receptors; ATP efflux; purinergic receptors; apoptosis

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