The receptor for the Escherichia coli heat-stable enterotoxin has been characterized and partially purified from the T84 human colonic cell line. Using a novel mutant heat-stable enterotoxin peptide as a radioligand (the C-terminal tyrosine residue is replaced by phenylalanine in the mutant), a single class of high-affinity receptor sites was detected in T84 cells, with a Kd of 0.1 nM, similar in affinity to the receptor described in human intestinal tissue. The receptor was solubilised from T84 cell membranes and affinity cross-linking of the solubilised preparation indicated that a single species of M, 160000 served as the receptor. Freshly solubilised preparations of the receptor retained heat-stable enterotoxin-activable guanylyl cyclase activity. Purification of the receptor was achieved through sequential affinity chromatography on GTP-epoxy-Sepharose and wheat-germ-agglutinin columns resulting in purification of the receptor by 3000 fold. The heat-stable enterotoxin-binding characteristics of the receptor were unchanged during the purification and silver staining of the purified receptor preparation indicated a band of M, 160000, which was specifically cross-linked to the lZ51-labeled mutant peptide. The purified receptor retained guanylyl cyclase activity, but the activity was not stimulated on addition of human heat-stable enterotoxin, suggesting that accessory structural factors may be involved in the activation of the guanylyl cyclase/receptor.The heat-stable enterotoxins (ST) are a family of lowmolecular-mass peptide toxins, and are one of the major causes of watery secretory diarrhoea all over the world [1, 21. Various forms of the toxins, differing in amino acid sequence, are produced by a number of pathogenic bacteria [3, 41, and all these peptides contain a cysteine-rich core essential for full biological activity [5, 61. ST peptides bind to a receptor on intestinal cells and activate membrane-bound guanylyl cyclase [7, 81. Increased levels of cyclic GMP (cGMP) within the cell are hypothesised to lead to enhanced C1-secretion from the intestinal cell by as yet undefined mechanisms, resulting in fluid loss and subsequent diarrhoea Early biochemical studies had postulated that in rat intestinal membranes the ST-binding and guanylyl cyclase activities were located on separate molecules [lo]. However, the cloning and expression of the rat and human intestinal ST receptor [ll-131 suggested that the ST receptor was in fact a high-molecular-mass protein and a member of the guanylyl cyclase family of receptors, described earlier for atrial natriuretic factor and the sea urchin egg peptides [14]. These observations implied that the ST-binding and guanylyl cyclase activities were present in the same receptor molecule. How- ever, there is no biochemical evidence using purified receptor preparations to confirm that the ST receptor does in fact exist in the cell as suggested for the recombinant protein. Hugues et al. reported the purification of the rat ST receptor from intestinal membranes using ST-ligand af...
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