Mice lacking the guanylyl cyclase C receptor are resistant to STa-induced intestinal secretion
EA Mann, ML Jump, J Wu, E Yee… - … and biophysical research …, 1997 - Elsevier
EA Mann, ML Jump, J Wu, E Yee, RA Giannella
Biochemical and biophysical research communications, 1997•ElsevierHeat-stable enterotoxin (STa) is an important causative agent of diarrheal disease
throughout the world. STa is known to bind specifically to receptors in the intestine,
provoking intense intestinal secretion. Binding of STa, or of the mammalian endogenous
ligands guanylin and uroguanylin, activates the guanylyl cyclase C receptor (GC-C); the
resulting elevation of cGMP levels stimulates chloride secretion via CFTR. We have
generated knockout mice which completely lack the GC-C receptor. These mice are viable …
throughout the world. STa is known to bind specifically to receptors in the intestine,
provoking intense intestinal secretion. Binding of STa, or of the mammalian endogenous
ligands guanylin and uroguanylin, activates the guanylyl cyclase C receptor (GC-C); the
resulting elevation of cGMP levels stimulates chloride secretion via CFTR. We have
generated knockout mice which completely lack the GC-C receptor. These mice are viable …
Heat-stable enterotoxin (STa) is an important causative agent of diarrheal disease throughout the world. STa is known to bind specifically to receptors in the intestine, provoking intense intestinal secretion. Binding of STa, or of the mammalian endogenous ligands guanylin and uroguanylin, activates the guanylyl cyclase C receptor (GC-C); the resulting elevation of cGMP levels stimulates chloride secretion via CFTR. We have generated knockout mice which completely lack the GC-C receptor. These mice are viable and show no obvious alteration in intestinal fluidity. However, GC-C null mice are refractory to the secretory action of STa, proving that the GC-C receptor is neccessary for the diarrheal response induced by STa.
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