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World J Gastroenterol. Sep 14, 2006; 12(34): 5523-5527
Published online Sep 14, 2006. doi: 10.3748/wjg.v12.i34.5523
Luminal oxidants selectively modulate electrogenic ion transport in rat colon
Julio M Mayol, Yolanda Adame-Navarrete, Pilar Alarma-Estrany, Elena Molina-Roldan, Fernando Huete-Toral, Jesus A Fernandez-Represa
Julio M Mayol, Yolanda Adame-Navarrete, Pilar Alarma-Estrany, Elena Molina-Roldan, Fernando Huete-Toral, Jesus A Fernandez-Represa, Servicio De Cirugia I, Hospital Clinico San Carlos, Universidad Complutense De Madrid, Madrid 28040, Spain
Supported by grants from Ministerio de Ciencia y Tecnología (BFI 03/1350) and Fundacion MMA
Correspondence to: Julio M. Mayol, Servicio de Cirugia I (3ª N), Hospital Clinico San Carlos, Madrid 28040, Spain. jmayol@eresmas.net
Telephone: +34-91-3304167 Fax: +34-91-3303166
Received: April 30, 2006
Revised: May 28, 2006
Accepted: June 14, 2006
Published online: September 14, 2006
Abstract

AIM: To investigate the effects of luminal exposure to H2O2 and two related thiol oxidizing agents on basal and stimulated chloride secretion in native colon using electrophysiological and pharmacological approaches.

METHODS: Unstripped rat distal colon segments were mounted in Ussing chambers. Potential difference, calculated resistance and short-circuit current across unstripped colon segments were monitored with a dual voltage/current clamp. Paracellular permeability was assessed by measuring the mucosa-to-serosa flux of a fluorescent probe (FITC).

RESULTS: Luminal exposure to hydrogen peroxide transitorily stimulated chloride secretion without altering barrier function. This stimulatory effect could be blocked by basolateral atropine but not indomethacin. The cysteine and methionine oxidizing compounds, phenylarsine oxide and chloramine T respectively, mimicked the effect of H2O2, except for a drop in transcolonic resistance after 30 min. In contrast to the observed stimulatory effect on basal secretion, cAMP-stimulated electrogenic ion transport was blunted by luminal H2O2. However, the Ca2+-activated response remained unchanged.

CONCLUSION: H2O2 may be an important selective modulator of intestinal ion and water secretion in certain pathologic conditions such as inflammation or ischemia-reperfusion by multiple mechanisms.

Keywords: Chloride secretion; Ion transport; Rat distal colon; Hydrogen peroxide; Acetylcholine; Atropine