EC:4.6.1.2 - FACTA Search

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Query: EC:4.6.1.2 (guanylate cyclase)
8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism by which bacterial heat-stable enterotoxins (ST I STA) cause diarrhea in humans and animals has been linked to the activation of an intestinal membrane-bound guanylate cyclase. Guanylin, a recently discovered rat intestinal peptide, is homologous in structure to ST I and can activate guanylate cyclase present on the human colonic carcinoma cell line T84. To directly test the mechanistic association of guanylate cyclase activation with diarrhea, we synthesized guanylin and a guanylin analog termed N9P10 guanylin and compared their biological activities with those of a synthetic ST I analog, termed ST Ib(6-18). We report that guanylin is able to inhibit the binding of a radiolabeled ST I analog to rat intestinal cells but causes diarrhea in infant mice only at doses at least 4 orders of magnitude higher than that of ST Ib(6-18). In contrast, N9P10 guanylin was enterotoxic in mice at much lower doses than guanylin but proved to be a weaker inhibitor of radiolabeled ST I than guanylin in the receptor binding assay. The pattern of guanylate cyclase activation observed for ST Ib(6-18) and the two guanylin analogs parallels the results observed in the receptor binding assay rather than those observed in the diarrheal assay. Treatment of guanylin with chymotrypsin or lumenal fluid derived from newborn mouse intestines resulted in a rapid loss of binding activity. Together, these results suggest that ST I enterotoxins may represent a class of long-lived superagonists of guanylin.
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PMID:The Escherichia coli heat-stable enterotoxin is a long-lived superagonist of guanylin. 810

Guanylin, a peptide homologue of the bacterial heat-stable enterotoxins (ST), is an endogenous activator of guanylate cyclase C (GC-C). We have initiated a search for other members of the guanylin peptide family and in the current study describe a "guanylin-like peptide" from human urine. Bioactivity was monitored by determining the effect of urine extracts on T84 cell guanosine 3',5'-cyclic monophosphate (cGMP) levels. Purification yielded two bioactive peaks of peptides that, when sequenced by NH2-terminal analysis, possessed 15 and 16 amino acids. The sequence of the smaller peptide represented an NH2-terminal truncation of the larger peptide. We have termed the larger peptide human uroguanylin; it has the following amino acid sequence: NDDCELCVNVACTGCL. Human uroguanylin shares amino acid sequence homology with guanylin and ST. Synthetic uroguanylin increased cGMP levels in T84 cells, competed with 125I-labeled ST for receptors, and stimulated Cl- secretion as reflected by an increased short-circuit current. Thus we report the isolation from human urine of a unique peptide, uroguanylin, that behaves in a manner similar to guanylin and appears to be a new member of this peptide family.
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PMID:Characterization of human uroguanylin: a member of the guanylin peptide family. 814 34

Guanylin, a bioactive peptide, has recently been isolated from the intestine; this peptide activates intestinal guanylate cyclase (i.e., guanylate cyclase C) and thus is potentially involved in the regulation of water/electrolyte transport in the gastrointestinal mucosa. As yet, the cells involved in synthesis, storage, or secretion of guanylin have not been identified by immunocytochemistry. We raised antisera against guanylin and investigated the entire gastrointestinal tract of guinea pigs by light and electron microscopical immunocytochemistry. Extracts of various intestinal segments and plasma analyzed on a Western blot revealed a peptide band corresponding to the molecular mass of guanylin. Localization studies in the entire digestive tract showed that guanylin is exclusively confined to enterochromaffin (EC) cells. Remarkably, most EC cells contacted the gut lumen by cell processes that were highly immunoreactive for guanylin. In addition to the well known secretion in an endocrine fashion, EC cells by circumstantial evidence may release guanylin into the gut lumen to activate guanylate cyclase C that is immediately located on the brush border of adjacent enterocytes. The unique localization of guanylin in EC cells may indicate that these cells are involved in the regulation of fluid secretion in the gastrointestinal mucous membrane.
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PMID:Enterochromaffin cells of the digestive system: cellular source of guanylin, a guanylate cyclase-activating peptide. 815 83

Enteroaggregative Escherichia coli (EAggEC) are associated with persistent diarrhea in young children. Some of these organisms produce a low-molecular-weight, heat-stable, plasmid-encoded enterotoxin that has been named EAggEC heat-stable enterotoxin 1 (EAST1). We have cloned a 4.4-kb DNA fragment from the virulence plasmid of prototype EAggEC strain 17-2, which expresses enterotoxic activity as measured by electrogenic response in Ussing chambers mounted with rabbit ileal tissue. DNA-sequence analysis of this fragment identified an open reading frame (ORF) encoding a cysteine-rich polypeptide of 38 amino acids (M(r), 4100). Insertional and deletional mutations in this ORF resulted in loss of enterotoxic activity. The ORF was cloned into a T7 expression vector, and postinduction culture filtrates exhibited enterotoxic activity and increased ileal tissue cGMP levels. A synthetic peptide consisting of predicted amino acid residues 8-29 also showed enterotoxic activity. These data indicate that this ORF, named astA (EAggEC heat-stable enterotoxin), represents the EAST1 structural gene. EAST1 shows significant homology with the enterotoxic domain of heat-stable enterotoxin a (STa) of enterotoxigenic E. coli and with guanylin, a mammalian analog of STa. Unlike STa, which requires six cysteines and three disulfide linkages for full biological activity, both EAST1 and guanylin contain four cysteine residues. Based on the cGMP data and the sequence homology to STa and guanylin, it is predicted that EAST1 stimulates the particulate form of guanylate cyclase through the same receptor-binding region as STa and guanylin.
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PMID:Enteroaggregative Escherichia coli heat-stable enterotoxin 1 represents another subfamily of E. coli heat-stable toxin. 838 56

Intestinal salt and fluid secretion is stimulated by Escherichia coli heat-stable enterotoxins (ST) through activation of a membrane guanylate cyclase found in the intestine. Guanylin is an endogenous intestinal peptide that has structural similarity to the bacterial peptides. Synthetic preparations of guanylin or E. coli ST 5-17 stimulated Cl- secretion in T84 cells cultured on semipermeable membranes as measured by increases in short circuit current (Isc). The guanylin/ST receptors appeared to be on the apical surface of T84 cells, since addition of guanylin to the apical, but not basolateral, reservoir stimulated Isc. Bumetanide added to the basolateral side effectively inhibited the Isc responses of T84 cells to either guanylin or ST 5-17. Guanylin appeared to be about one-tenth as potent as ST in stimulating transepithelial Cl- secretion. Guanylin and E. coli ST 5-17 both caused massive (> 1,000-fold) increases in cGMP levels in T84 cells, but guanylin was less potent than ST. Both peptides fully inhibited the binding of 125I-ST to receptor sites on intact T84 cells. The radioligand binding data obtained with guanylin or ST 5-17 best fit a model predicting two receptors with different affinity for these ligands. The Ki values for guanylin were 19 +/- 5 nM and 1.3 +/- 0.5 microM, whereas the Ki values for ST 5-17 were 78 +/- 38 pM and 4.9 +/- 1.4 nM. We conclude that guanylin stimulated Cl- secretion via the second messenger, cGMP, in T84 human colon cells. At least two guanylin receptors with different affinities for these ligands may exist in the cultured T84 cells. It may be postulated that guanylin is an endogenous hormone that controls intestinal Cl- secretion by a paracrine mechanism via cGMP and that E. coli ST stimulates Cl- secretion by virtue of an opportunistic mechanism through activation of guanylin receptors.
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PMID:Guanylin stimulation of Cl- secretion in human intestinal T84 cells via cyclic guanosine monophosphate. 839 Apr 80

A simple protocol was developed to isolate the integral membrane guanylate cyclase from bleached bovine photoreceptor outer segments. Hypotonic and hypertonic washes strip the photoreceptor outer segment membranes of peripheral proteins. The guanylate cyclase activity is solubilized by dodecyl-b-D-maltoside in a low salt concentration buffer. Phosphatidylcholine, glycerol, and dithiothreitol are used to stabilize the activity during chromatography. GTP-affinity chromatography achieves a 250-fold increase in specific activity over that of membranes stripped of peripheral proteins. From 100 retinas, the protocol yields 100-140 mg of purified guanylate cyclase composed of a 115-kDa subunit. The molar ratio of the guanylate cyclase to rhodopsin is estimated to be 1:440. A significant portion of the freshly solubilized enzyme behaves as a monomer with a Stokes radius of 48.7 A, whereas the purified protein forms homooligomers ranging from dimers to tetramers. These properties are similar to those of ANP and guanylin receptors, indicating that the photoreceptor protein shares characteristics of the membrane receptor guanylate cyclase family. For the physiological substrate MgGTP, the Km and Vmax are 1.07 +/- 0.20 mM and 3262 +/- 514 nmol cGMP min-1 mg-1, respectively, generating a turnover rate of approximately 3.9 nmol cGMP s-1 at physiological substrate concentrations. The relatively high Km suggests that in vivo changes in GTP concentration might modulate the rate of cGMP synthesis. These properties indicate that the photoreceptor membrane guanylate cyclase can sustain a rate of cGMP synthesis comparable to the dark-adapted (basal) rate of cGMP degradation by the cGMP phosphodiesterase.
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PMID:The bovine photoreceptor outer segment guanylate cyclase: purification, kinetic properties, and molecular size. 852 37

Uroguanylin and guanylin are peptides isolated from urine and intestinal mucosa, which regulate cyclic GMP production in enterocytes by activating an apical membrane, receptor-guanylate cyclase. This study extended our previous findings, which showed that colonic mucosa of opossums contained uroguanylin and guanylin peptides, by purifying prouroguanylin and proguanylin from this tissue. Prouroguanylin and proguanylin coeluted from Sephadex G-75 gelfiltration columns with a similar molecular size between 6 and 12 kDa. Mass spectrometry indicated that proguanylin (approximately 8.7 kDa) had a 10% lower molecular mass than prouroguanylin (approximately 9.7 kDa). Isoelectric focusing separated prouroguanylin (pI approximately 4.5) from proguanylin (pI approximately 7.5). N-terminal sequence analysis of reverse phrase-HPLC purified prohormones revealed 13 amino acids in opossum proguanylin that shared 77-85% identity with human and rat proguanylin, but only 23% identity with opossum prouroguanylin. The N-terminal 19 residues obtained for opossum prouroguanylin shared 32-42% identity with rat and human proguanylin. Prouroguanylin and proguanylin were both inactive and required pretreatment with proteases to elicit cyclic GMP responses in T84 cells. V8 protease treatment of proguanylin liberated a bioactive, 16-amino acid form of guanylin. Chymotrypsin treatment activated prouroguanylin, but inactivated the bioactive peptide domain within proguanylin. In summary, colonic mucosa contains the bioactive peptide and inactive prohormone forms of uroguanylin and guanylin. Thus, after proteolytic processing of prouroguanylin and proguanylin, bioactive uroguanylin and guanylin could both function to regulate guanylate cyclase activity by autocrine and/or paracrine actions on enterocytes. Also, these peptide hormones are implicated in an intestinal-renal axis for the endocrine regulation of salt and water homeostasis.
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PMID:Prouroguanylin and proguanylin: purification from colon, structure, and modulation of bioactivity by proteases. 853 21

Uroguanylin, a member of the guanylin peptide family, is an endogenous activator of intestinal guanylate cyclase (GC-C). A cDNA encoding a precursor for human uroguanylin was cloned from a human colon cDNA library and sequenced. The precursor was 112 amino acids long and included a signal peptide at the N-terminus and the human uroguanylin sequence at the C-terminus. RNA blot analysis and the reverse transcription-polymerase chain reaction (RT-PCR) showed that human uroguanylin mRNA is expressed in the stomach and intestine. Uroguanylin, as well as guanylin, may be a potent physiological regulator of intestinal fluid and electrolyte transport.
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PMID:Cloning and characterization of a cDNA encoding a precursor for human uroguanylin. 860 41

Guanylin (GCAP-I, guanylate cyclase activating peptide I) and uroguanylin (GCAP-II, guanylate cyclase activating peptide II) are regulatory peptides involved in the regulation of the intestinal chloride / water balance. They share significant structural homology to the E. coli enterotoxin STa, which binds to the particulate guanylyl cyclase C causing diarrhea in mammals. In this study we report the functional analysis of the guanylin / GCAP-I gene promoter region. By means of the luciferase reporter gene assay, we demonstrate a strong promoter activity in T84 cells. Especially the first 160 bp of the 5'-flanking region of the gene seem to be essential for gene induction. Our findings are the basis for further identification of important regulatory elements of the corresponding gene.
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PMID:Functional analysis of the human guanylin gene promoter. 871 1

Guanylin is a recently discovered peptide hormone that activates intestinal guanylate cyclase (GC-C) and thereby stimulates intestinal chloride secretion. Immunohistochemistry showed its presence in enterochromaffin (EC) cells of the gut. In vitro studies suggested that guanylin plays an important role in the endogenous modulation of intestinal salt and water secretion. In the present study the concentration of circulating immunoreactive (IR)-guanylin in plasma of patients with intestinal diarrhoea due to chronic bowel inflammation and patients with carcinoid tumours were measured with a specific radioimmunoassay. In 22 patients with Crohn's disease and eight patients with ulcerative colitis, plasma concentrations of IR-guanylin were 44 +/- 3 and 42 +/- 4 fmol mL-1, respectively. Levels were not different from that in 44 healthy volunteers suggesting that the circulating hormone is not involved in diarrhoea of these patients. In 17 patients with symptomatic carcinoid tumors the median concentration of circulating IR-guanylin was significantly enhanced (94 +/- 16 fmol mL-1, range 37-312 fmol mL-1). Immunohistochemistry revealed the presence of immunoreactive guanylin in carcinoid tissues, suggesting that these tumours co-release guanylin along with their usual resident hormone, serotonin. Enhanced local secretion of guanylin may play a causal role in diarrhoea of these patients and its elevation in plasma may be of diagnostic value in this type of endocrine tumours.
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PMID:Circulating and tissue guanylin immunoreactivity in intestinal secretory diarrhoea. 871 28

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