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  • Title: Rotavirus infection stimulates the Cl- reabsorption process across the intestinal brush-border membrane of young rabbits.
    Author: Lorrot M, Martin S, Vasseur M.
    Journal: J Virol; 2003 Sep; 77(17):9305-11. PubMed ID: 12915546.
    Abstract:
    Rotavirus is a major cause of infantile gastroenteritis worldwide. However, the mechanisms underlying fluid and electrolyte secretion associated with diarrhea remain largely unknown. We investigated the hypothesis that loss of Cl(-) into the luminal contents during rotavirus infection may be caused by a dysfunction in the chloride absorptive capacity across the intestinal brush-border membrane (BBM). The luminal Cl(-) concentrations in the entire small intestine of young rabbits infected with lapine rotavirus decreased at 1 and 2 days postinfection (dpi), indicating net Cl(-) absorption. At 7 dpi, luminal Cl(-) concentrations were slightly increased, indicating a moderate net Cl(-) secretion. By using a rapid filtration technique, (36)Cl uptake across BBM was quantified by modulating the alkali-metal ion, electrical, chloride, and/or proton gradients. Rotavirus infection caused an identical, 127% +/- 24% increase in all Cl(-) uptake activities (Cl(-)/H(+) symport, Cl(-) conductance, and Cl(-)/anion exchange) observed across the intestinal BBM. The rotavirus activating effects on the symporter started at 1 dpi and persisted up to 7 dpi. Kinetic analyses revealed that rotavirus selectively affected the capacity parameter characterizing the symporter. We report the novel observation that rotavirus infection stimulated the Cl(-) reabsorption process across the intestinal BBM. We propose that the massive Cl(-) reabsorption in villi could partly overwhelm chloride secretion in crypt cells, which possibly increases during rotavirus diarrhea, the resulting imbalance leading to a moderate net chloride secretion.
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