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MUCOSAL BIOLOGY

The gastric mucus layers: constituents and regulation of accumulation

¹Department of Medical Cell Biology, Division of Integrative Physiology, University of Uppsala, Uppsala, Sweden; ²Department of Medical Biochemistry, Göteborg University, Gothenburg, Sweden; ³Mayo Clinic College of Medicine, Mayo Clinic Arizona, Scottsdale, Arizona

Submitted 25 March 2008 ; accepted in final form 14 August 2008

The mucus layer continuously covering the gastric mucosa consists of a loosely adherent layer that can be easily removed by suction, leaving a firmly adherent mucus layer attached to the epithelium. These two layers exhibit different gastroprotective roles; therefore, individual regulation of thickness and mucin composition were studied. Mucus thickness was measured in vivo with micropipettes in anesthetized mice [isoflurane; C57BL/6, Muc1–/–, inducible nitric oxide synthase (iNOS)–/–, and neuronal NOS (nNOS)–/–] and rats (inactin) after surgical exposure of the gastric mucosa. The two mucus layers covering the gastric mucosa were differently regulated. Luminal administration of PGE₂ increased the thickness of both layers, whereas luminal NO stimulated only firmly adherent mucus accumulation. A new gastroprotective role for iNOS was indicated since iNOS-deficient mice had thinner firmly adherent mucus layers and a lower mucus accumulation rate, whereas nNOS did not appear to be involved in mucus secretion. Downregulation of gastric mucus accumulation was observed in Muc1–/– mice. Both the firmly and loosely adherent mucus layers consisted of Muc5ac mucins. In conclusion, this study showed that, even though both the two mucus layers covering the gastric mucosa consist of Muc5ac, they are differently regulated by luminal PGE₂ and NO. A new gastroprotective role for iNOS was indicated since iNOS–/– mice had a thinner firmly adherent mucus layer. In addition, a regulatory role of Muc1 was demonstrated since downregulation of gastric mucus accumulation was observed in Muc1–/– mice.

Muc1; Muc5ac; nitric oxide; prostaglandin; iNOS

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