Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The massive secretion of salt and water in cholera-induced diarrhea involves binding of cholera toxin (CT) to ganglioside GM1 in the apical membrane of intestinal epithelial cells, translocation of the enzymatically active A1-peptide across the membrane, and subsequent activation of adenylate cyclase located on the cytoplasmic surface of the basolateral membrane. Studies on nonpolarized cells show that CT is internalized by receptor-mediated endocytosis, and that the A1-subunit may remain membrane associated. To test the hypothesis that toxin action in polarized cells may involve intracellular movement of toxin-containing membranes, monolayers of the polarized intestinal epithelial cell line T84 were mounted in modified Ussing chambers and the response to CT was examined. Apical CT at 37 degrees C elicited a short circuit current (Isc: 48 +/- 2.1 microA/cm2; half-maximal effective dose, ED50 integral of 0.5 nM) after a lag of 33 +/- 2 min which bidirectional 22Na+ and 36Cl- flux studies showed to be due to electrogenic Cl- secretion. The time course of the CT-induced Isc response paralleled the time course of cAMP generation. The dose response to basolateral toxin at 37 degrees C was identical to that of apical CT but lag times (24 +/- 2 min) and initial rates were significantly less. At 20 degrees C, the Isc response to apical CT was more strongly inhibited (30-50%) than the response to basolateral CT, even though translocation occurred in both cases as evidenced by the formation of A1-peptide. A functional rhodamine-labeled CT-analogue applied apically or basolaterally at 20 degrees C was visualized only within endocytic vesicles close to apical or basolateral membranes, whereas movement into deeper apical structures was detected at 37 degrees C. At 15 degrees C, in contrast, reduction to the A1-peptide was completely inhibited and both apical and basolateral CT failed to stimulate Isc although Isc responses to 1 nM vasoactive intestinal peptide, 10 microM forskolin, and 3 mM 8Br-cAMP were intact. Re-warming above 32 degrees C restored CT-induced Isc. Preincubating monolayers for 30 min at 37 degrees C before cooling to 15 degrees C overcame the temperature block of basolateral CT but the response to apical toxin remained completely inhibited. These results identify a temperature-sensitive step essential to apical toxin action on polarized epithelial cells. We suggest that this event involves vesicular transport of toxin-containing membranes beyond the apical endosomal compartment.
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PMID:Mechanism of cholera toxin action on a polarized human intestinal epithelial cell line: role of vesicular traffic. 131 83

Heat-stable enterotoxins activate guanylate cyclase, whereas heat-labile enterotoxins stimulate adenylate cyclase. Both classes of toxins cause secretory diarrhea at least in part by stimulating Cl- secretion in the intestine. The mechanism for regulation of Cl- secretion by guanosine 3',5'-cyclic monophosphate (cGMP) was investigated using cultured T84 intestinal cells as a model for intestinal crypt cells. Escherichia coli heat-stable enterotoxin (ST) markedly stimulated cGMP production in T84 cells. Cl- secretion across T84 cell monolayers cultured on permeable filters was stimulated by E. coli ST, cholera toxin, or 8-BrcAMP, but 8-BrcGMP was ineffective. cGMP analogues that are known to be potent and specific activators of cGMP-dependent protein kinase (cG-kinase) also had little effect on 36Cl- uptake by T84 cells cultured in plastic dishes. E. coli ST, forskolin, cholera toxin, or membrane-permeant cAMP analogues markedly increased 36Cl- uptake into T84 cells. The general protein kinase inhibitor, staurosporine, inhibited the stimulation of Cl- permeability elicited by E. coli ST, vasoactive intestinal peptide (VIP), or 8-BrcAMP. DEAE-Sephacel chromatography revealed a predominant type II isoform of cAMP-dependent protein kinase (cA-kinase) in T84 cells, whereas little or no cytosolic cG-kinase activity was found. Treatment of T84 cells with E. coli ST or VIP resulted in an increase in the cA-kinase activity ratio (-cAMP/+cAMP) if the cytosolic enzyme was assayed at reduced temperature (on ice).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of intestinal Cl- transport by heat-stable enterotoxin: activation of cAMP-dependent protein kinase by cGMP. 132 20

Vero cell cytotoxins and cytotonic enterotoxins produced by E. coli are toxic proteins, which have been implicated in a number of specific diseases in humans and animals. Nomenclature for these toxins is complicated by the existence of different names for the same toxin. The Vero cell cytotoxins are called verotoxins because they are lethal for Vero cells in culture; they are also known as Shiga-like toxins (SLTs) because they are clearly related to Shiga toxin in structure, amino acid sequence, mechanism of action, and biological activity. SLTs belong to two classes. SLT-I is identical with Shiga toxin and is in a class by itself (class I). The other SLTs are closely related to each other and form a second class (class II). Class II SLTs include SLT-II, SLT-IIv, SLT-IIvha, SLT-IIvhb, and SLT-IIva. All SLTs that have been investigated are A-B subunit protein toxins, whose A subunits possess N-glycosidase activity against 28S rRNA and cause inhibition of protein synthesis in eukaryotic cells. These toxins are enterotoxic as well as cytotoxic. SLTs produced in the intestine are absorbed into the blood stream and affect vascular endothelial cells in target organs. They may also have a direct toxic effect on enterocytes. Diseases in which E. coli SLTs have been implicated include diarrhea, hemorrhagic colitis, and hemolytic uremic syndrome in humans and edema disease in pigs. Variation in receptor specificities among SLTs may be the reason for different disease syndromes in different host species. The E. coli enterotoxins belong to three distinct classes: heat-labile enterotoxin (LT), heat-stable enterotoxin type I or type a (STI, STa), and heat-stable enterotoxin type II or type b (STII, STb). There is clear evidence that these cytotonic enterotoxins play an essential role in diarrheal disease. LT is an A-B subunit protein toxin, closely related to cholera toxin. Following binding of LT to receptors in enterocytes the A subunit is internalized. The enzymatically active A subunit transfers ADP-ribose from NAD to a GTP-dependent adenylate cyclase regulatory protein, thereby elevating intracellular levels of adenylate cyclase. The increased levels of cyclic AMP cause stimulation of A kinase and lead to hypersecretion of electrolytes and fluid. STI is a small peptide of 18 or 19 amino acids. It binds to receptors in enterocytes and stimulates particulate guanyl cyclase. Elevated intracellular cyclic GMP stimulates G kinase, resulting in increased Cl- secretion and impaired absorption of Na+Cl-. STII is a peptide toxin whose mechanism of action is unknown.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Escherichia coli cytotoxins and enterotoxins. 139 38

Cholera and the related Escherichia coli-associated diarrheal disease are important problems confronting Third World nations and any area where water supplies can become contaminated. The disease is extremely debilitating and may be fatal in the absence of treatment. Symptoms are caused by the action of cholera toxin, secreted by the bacterium Vibrio cholerae, or by a closely related heat-labile enterotoxin, produced by Escherichia coli, that causes a milder, more common traveler's diarrhea. Both toxins bind receptors in intestinal epithelial cells and insert an enzymatic subunit that modifies a G protein associated with the adenylate cyclase complex. The consequent stimulated production of cyclic AMP, or other factors such as increased synthesis of prostaglandins by intoxicated cells, initiates a metabolic cascade that results in the excessive secretion of fluid and electrolytes characteristic of the disease. The toxins have a very high degree of structural and functional homology and may be evolutionarily related. Several effective new vaccine formulations have been developed and tested, and a growing family of endogenous cofactors is being discovered in eukaryotic cells. The recent elucidation of the three-dimensional structure of the heat-labile enterotoxin has provided an opportunity to examine and compare the correlations between structure and function of the two toxins. This information may improve our understanding of the disease process itself, as well as illuminate the role of the toxin in studies of signal transduction and G-protein function.
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PMID:Structure and function of cholera toxin and the related Escherichia coli heat-labile enterotoxin. 148 Jan 12

A patient with refractory diarrhoea (up to 10 l/d) following colectomy and ileostomy was treated with clonidine, after loperamide, tinctura opii, cholestyramine and somatostatin had failed to reduce stool volume to less than 6 l/d. Under combined treatment with clonidine (1200 micrograms/d) and somatostatin (6 mg/d), which was well tolerated, stool weights were normalised within 24 hours. This case report on the successful anti-diarrhoeic effect of clonidine is completed by experimental data from rat jejunal and duodenal segments. In the presence of the adenylate cyclase-stimulating agent forskolin, clonidine normalised both mucosal cAMP content and cAMP-induced hypersecretion in rat intestine. This suggests that the anti-diarrhoeic effect of clonidine in-vitro results from an alpha 2-receptor mediated inhibition of the stimulated adenylate cyclase. Case report and experimental data therefore support the theory that therapeutical application of clonidine in diarrhoea may be successful.
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PMID:[Treatment with clonidine in a case of the short bowel syndrome with therapy-refractory diarrhea]. 168 51

Endocrine tumors of the gastroenteropancreatic (GEP) axis elaborate excessive amounts of peptides that are potent intestinal secretagogues. The actions of these peptides on intestinal transport of water and electrolytes lead to the accumulation of fluid in the intestinal lumen and diarrhea. One of the most clinically relevant secretagogues is vasoactive intestinal polypeptide (VIP). Other relevant secretagogues elaborated from tumors are serotonin, prostaglandins, and kinins. Sandostatin (octreotide, Sandoz, Basle, Switzerland), a long-acting octapeptide analog of somatostatin, inhibits experimentally induced intestinal secretion and has been used successfully to treat patients with secretory diarrhea refractory to other pharmacotherapy. The effective dose is in the range of 50 to 200 micrograms, given subcutaneously two or three times daily. The mechanism for the inhibitory effect on secretion is not clearly understood but it appears to involve inhibition of the adenylate cyclase-cyclic adenosine monophosphate system as well as interference with calcium as an intercellular mediator of enterocyte secretion. A particularly interesting use of this drug has been to treat the watery diarrhea seen in patients with acquired immunodeficiency syndrome. It is also effective in other types of secretory diarrhea not associated with endocrine tumors. These include diabetic diarrhea, idiopathic secretory diarrhea of infancy, and high output ileostomy diarrhea.
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PMID:Treatment of endocrine and nonendocrine secretory diarrheal states with Sandostatin. 220 86

A yin-yang hypothesis is presented linking noradrenergic activity, thromboxane, melatonin, left hemisphere functioning, and cyclic AMP on the one hand, and dopamine, beta-endorphin, calcium, right hemisphere functioning, and cyclic GMP on the other. It is further suggested that there is a yoking of NA, TXA2, serotonin and melatonin in the left hemisphere, and a similar yoking of DA, BE, calcium and cGMP in the right. Evidence is presented to support the hypothesis that each element (NA, TXA2, etc.) on one side can modulate or balance a corresponding element (DA, BE, etc.) on the other. It is suggested that thromboxane is the key element in noradrenergic overactivity and that not taking this into consideration has confounded much prior research. This theory takes into account information processing models as well as pharmacological data and neurochemical theory on coupling of adenylate cyclase to its hormone receptors. Inhibiting noradrenergic overactivity can be obtained by inhibiting thromboxane and concomitantly activating opiate receptors. This protocol may have clinical utility in treating a wide range of disorders such as: anxiety, depression, schizophrenia, sleeplessness, withdrawal states, enuresis, Gilles de la Tourette syndrome, Parkinsonism, Alzheimers, dementia, anorexia, infant ruminations, essential tremor, spasticity of spinal cord injury, diarrhoea, ulcerative colitis, extrapyramidal symptoms, akathisia, neuroleptic malignant syndrome, attention deficit disorder, hyperhidrosis, and possibly AIDS.
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PMID:Inhibiting noradrenergic overactivity by inhibition of thromboxane and concomitant activation of opiate receptors via dietary means. 254 22

To determine if developmental variations existed in the second messenger system that mediates cholera toxin (CT) action, the adenylate cyclase (AC) response was studied in 2-wk-old suckling and 6-wk-old weaned rats. AC was assayed in the proximal small intestine 4 h after intraduodenal administration of various doses of CT. Dose-effect analysis showed a 9-fold increase in the sensitivity of the CT-activated cyclase response in suckling rats when measured by the ED50, expressed as microgram CT/g body wt (0.03 for 2 wk, 0.27 for 6 wk). When the CT dose was expressed as microgram/animal, suckling rats were 50 times more sensitive than 6-wk-old rats. In addition, the CT-induced fluid secretion was closely correlated with the elevated cyclase activities (correlation coefficient: 0.83 for 2 wk, 0.93 for 6 wk). Furthermore, more fluid seemed to be secreted/unit wt of gut in the sucklings, even when the same level of enzyme activity was compared. A maximum of 3- to 4-fold rise in AC activation occurred at 0.5 microgram CT/g body wt, but both the basal and the maximal stimulated levels of AC were not developmentally different. This study demonstrates an in vivo increase in AC responsiveness to CT that may be in part responsible for the increased incidence of toxigenic diarrhea in neonates.
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PMID:Development of intestinal host defense: an increased sensitivity in the adenylate cyclase response to cholera toxin in suckling rats. 270 86

Metabolites of arachidonic acid have a broad range of physiological functions in the gastrointestinal tract, and seem to be involved in certain disturbances of gastrointestinal integrity and function. Prostaglandins inhibit gastric acid secretion, apparently via an adenylate cyclase-linked receptor, and also stimulate bicarbonate and mucus production by alternative mechanisms. These are all beneficial in treating gastroduodenal ulceration. Moreover, clinical studies have revealed deficient prostaglandin synthesis in the gastric and duodenal mucosa of patients with gastrointestinal ulcers, which suggests that endogenous prostaglandins have a protective role in the gastrointestinal tract. In animal studies, prostaglandin analogues have been shown to protect the gastric mucosa from damage induced by various potent irritants, and this protection seems to involve the deeper layers of the mucosa as well as the epithelium. Indeed, misoprostol and other prostaglandin analogues have proved therapeutically effective in treating gastroduodenal ulceration. Prostaglandins also influence intestinal motility and fluid movement. Prostaglandin E derivatives generally relax circular smooth muscle, contract longitudinal smooth muscle and increase fluid secretion into the intestinal lumen. As a result of these effects, prostaglandins may cause diarrhoea. There is also evidence that prostaglandin synthesis is increased in patients with diarrhoea. Finally, it has been reported that tissue concentrations of prostaglandins are increased in patients with ulcerative colitis, but it is unclear if this is a primary cause, or secondary event. Significantly greater conversion of arachidonic acid to its metabolites was recorded in the mucosa of patients with inflammatory bowel disease compared with the mucosa of healthy subjects. This included a substantial increase in the concentration of leukotriene B4.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The role of arachidonic acid metabolites in gastrointestinal homeostasis. Biochemical, histological and clinical gastrointestinal effects. 288 70

The study was made on 59 chinchilla rabbits. S. typhimurium 1847 live culture was introduced into the lumen of an isolated loop of the thin intestine. The activity of adenylate cyclase (AC), guanylate cyclase (GC), the levels of cyclic adenosine 3,5-monophosphate (cAMP), cyclic guanosine 3,5-monophosphate (cGMP), the activity of cAMP- and cGMP-phosphodiesterases were determined in the mucous membrane of the ligated part of the intestine. Considerable fluid accumulation in the loop, activation of AC and cGMP-phosphodiesterase, a rise in the level of cAMP and a drop in the level of cGMP in the mucosa of the ligated part of the intestine were registered. In one group of the animals phosphadene and in the other group unitiol were introduced into the infected intestinal loop; as a result, a decrease in the accumulation of fluid in the loop, on the average, by 40% and a tendency to an increase in the level of cAMP and a drop in the level of cGMP in the mucous membrane of the ligated part of the intestine were observed. Changes in the level of cGMP play, seemingly, a more important role in the development of diarrhea in salmonellosis.
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PMID:[Effect of phosphaden and unithiol on the cyclase system of the small intestine mucosa in rabbits in experimental salmonellosis]. 289 50


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