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Query: UMLS:C0596263 (
carcinogenesis
)
64,820
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Measurements of RNA and DNA in the rat have been used to identify mucosal hyperplasia in the remaining
gut
within 48 h of partial intestinal loss. Structural adaptation of the ileum is still present 3 months after jejunal resection, whereas transection of the bowel produces merely transient hyperplasia. A humoral factor can be transmitted between rats linked in vascular parabiosis that is capable of stimulating intestinal cell proliferation. Humoral agents may also explain reduced adaptation of the distal bowel after jejunal bypass as opposed to equivalent resection. Although bile can initiate prompt ileal hyperplasia, the additional presence of pancreatic juice is needed to prolong this effect. Adaptation is controlled by luminal and systemic factors that are closely interlinked. Experimental intestinal
carcinogenesis
is promoted by proximal enterectomy.
...
PMID:Hyperplasia and neoplasia of the intestinal tract. 49 26
Semi-permeable magnetic microcapsules previously shown able to trap gastrointestinal carcinogens and containing polyethyleneimine (PEI) were covalently labelled with [14CH3], and administered for the first time to humans (six healthy volunteers, 1.3 microCi/dose) in gelatin capsules together with radio-opaque
gut
transit markers (ROM), in order both to seek human endogenous cross-linking or bifunctional alkylating agents and assess
gut
transit features. No ill-effects were reported. Faecal ROM and 14C excretions were well correlated (r = 0.96), and net 14C recovery in faeces was 83-96%. Microcapsules were separated magnetically from faeces and 29-81% of specific labelling of microcapsules (nCi/10(6)) was found to have been removed during GI transit. Label cleavage out of these microcapsules was also found following in vitro anaerobic incubation with faecal slurries from two volunteers. On treatment with H2O2, label was removed selectively from the Fe-containing core in a dose-dependent manner. Therefore, label cleavage in vivo (not observed in rats consuming chow but found notably on consumption of low-fibre and/or high-beef human diets) is likely to arise from low mol. wt substances that give Fenton reaction producing hydroxyl radicals and oxidative demethylation. After GI transit, extensive core to membrane cross-linking in the microcapsules was found and was inversely related to faecal output. Cross-linking also was obtained to a greater extent during in vitro anaerobic incubation with faecal slurries. The GI mucosa would also be exposed to both types of agents, and several features of this microcapsule monitoring are in accord with putative risk-modulating effects. This first use of microcapsules for biomonitoring of the human GI tract thus seemed to be without hazard, and revealed extensive levels of agents likely to cause DNA damage.
Carcinogenesis
1992 Apr
PMID:Novel detection by magnetic microcapsules in the human gastrointestinal tract of cross-linking agents and diet-dependent reactive oxygen species. 131 30
We propose that the liver is a stem cell and lineage system with many parallels to lineages in the bone marrow,
gut
, and epidermis, varying from them only in kinetics. All are organized with three compartments: a slow cycling stem cell compartment with cells expressing a fetal phenotype and responding slowly to injury; an amplification compartment with cells of intermediate phenotype rapidly proliferating in response to regenerative stimuli or acute injuries; and a terminal differentiation compartment in which cells increasingly differentiate and gradually lose their ability to divide. In all systems, both those with slow or rapid kinetics, the various compartments are positioned in a polarized organization, are associated with a gradient in the chemistry of the extracellular matrix, and show lineage-position-dependent growth responses, gene expression, pharmacological and toxicological responses, and reaction to viruses and radiation. In general, known oncogens selectively kill cells in the differentiation compartment inducing chronic regenerative responses of the cells in stem cell and/or amplification compartment. Tumors arise by subsequent transformation of the activated stem cells or early precursor cells. The evidence for a lineage model consists of the data implicating gradients in cell size, ploidy, growth potential, and antigenic and gene expression in the liver parenchyma along the sinusoidal plates. The traditional explanation for this heterogeneity is that it represents adaption of cells to a changing sinusoidal microenvironment dictated by the direction of blood flow. However, we review the extant data and suggest that it more readily supports a lineage model involving a maturation process beginning with stem cells and precursors in the periportal zone and ending with sensescing parenchyma near the central vein. Support for this theory is provided by the studies on phenotypic heterogeneity in liver, investigations into the embryology of the liver, and analyses of the responses of liver to chemical and viral oncogens that induce rapid proliferation of small cells with oval-shaped nuclei, "oval cells," now thought to be closely related to liver stem cells. The lineage model provides clarity and insights into many aspects of liver biology and disease including the limited proliferative ability of in vitro parenchymal cultures, liver regeneration, gene expression, viral infection, hepatocellular
carcinogenesis
, liver cell transplantation, and aging.
...
PMID:The liver as a stem cell and lineage system. 132 26
Induction of glutathione S-transferases (GST) by the anticarcinogen butylated hydroxyanisole (BHA) has been examined in lung, kidney and small intestine of male and female BALB/c mice. BHA produced maximal induction of GST in the
gut
and although it increased GST levels in the kidney, it had little effect on pulmonary GST. Dietary BHA induced Alpha (Ya and Yk), Mu (Yb) and Pi (Yf) class GST subunits at least 10-fold in the small intestine but, by contrast, selenium-dependent glutathione peroxidase activity was reduced by approximately 4-fold in this organ following BHA treatment. In the kidney, all of the GST subunits, apart from Yk in males, showed modest levels of induction by BHA. However, a pronounced sex difference in the expression of renal alpha class subunits in both control and BHA-treated mice was observed, with female mice expressing approximately 4-fold greater levels of Ya and Yk than male mice. All renal GST were localized primarily in the proximal tubules. Dietary BHA was found to have the least inductive effect in the lung, where the GST were localized solely in the bronchi. The pulmonary Mu class GST subunits were induced approximately 2-fold by BHA; the expression of other GST was marginally increased by this inducer. Alpha class GST was also subject to sexual differentiation in the lung with female mice possessing higher levels of Yc and Yk than males. The Ya-type subunit was not detected in the lung nor was it induced by BHA.
Carcinogenesis
1992 Dec
PMID:Modulation of glutathione S-transferases and glutathione peroxidase by the anticarcinogen butylated hydroxyanisole in murine extrahepatic organs. 147 31
Topminnows of the genus Poeciliopsis are susceptible to hepatocarcinogenesis by waterborne exposure to procarcinogenic polycyclic aromatic hydrocarbons (PAH). We examined induction of cytochrome P4501A (CYP1A) in liver and other organs of the species P. monacha and P. lucida exposed to benzo[a]pyrene (B[a]P) in water (added in acetone carrier) at 1 mg/l for 48 and 90 h. Fish were fixed whole in formalin, and CYP1A was examined immunohistochemically in sagittal sections of whole animals by staining with monoclonal antibody 1-12-3, which recognizes a single cross-reacting CYP1A protein in Poeciliopsis liver microsomes. Fish exposed to B[a]P for 48 h showed moderate staining, and those exposed for 90 h showed strong specific staining in various epithelial cells in both species. These included hepatocytes, pancreatic cells, epithelial cells in gill, enterocytes of the
gut
, and kidney tubular epithelium. Endothelial cells in several organs, including gill pillar cells and endocardial cells in the heart, showed strong staining. Staining was stronger in P. monacha than in P. lucida. Untreated animals of both species showed mild staining of the same cells stained in B[a]P-treated fish. In P. monacha, carrier (acetone) elicited a moderate increase in staining in most cell types, including those of liver and gill; the basis for this acetone effect is not known. There was a very strong specific induction by B[a]P in olfactory epithelium and epidermal taste bud epithelium of P. monacha, the first demonstration of strong CYP1A induction in chemosensory epithelia exposed to inducer in a physiologically relevant way. This study clearly establishes that waterborne PAH can elicit induction of P4501A proteins in multiple cell types in many organs of fish, with some sites of induction (olfactory epithelium) possibly related directly to the route of exposure. The species differences in the induction response, with induction in liver and some other organs generally being greater in P. monacha than in P. lucida, could be related to previously recognized species differences in PAH toxicities in Poeciliopsis.
Carcinogenesis
1992 Dec
PMID:Cytochrome P4501A induction in tissues, including olfactory epithelium, of topminnows (Poeciliopsis spp.) by waterborne benzo[a]pyrene. 147 49
Chlorophyllin (CHL), a sodium/copper salt of chlorophyll used in the treatment of geriatric patients, exhibits potent antimutagenic activity in a range of assays in vitro and in vivo. The protective effects of CHL were studied in Sprague-Dawley rats using inhibition of carcinogen-DNA binding as an end-point. Animals were administered CHL (150 mg/kg body wt) and [2-14C]2-amino-3-methylimidazo[4,5-f]quinoline (IQ, 50 mg/kg body wt) by single oral gavage. Covalent IQ-DNA binding in liver was determined 8, 24 and 48 h after dosing; CHL inhibited binding at these times by 58, 56 and 46% respectively, compared with rats given IQ alone. The total liver burden of IQ-derived radioactivity was reduced in CHL-treated rats, as was the total amount of radiolabel eliminated in the urine and bile. However, elimination via the feces was increased in rats given CHL, both in terms of total radiolabel eliminated and amount of unmetabolized IQ in dichloromethane extracts of feces. Finally, pretreatment with CHL in the drinking water, or injection of CHL into isolated loops of intestine in situ, reduced the absorption of IQ from the
gut
. Collectively, these findings indicate that, when administered simultaneously with the carcinogen, CHL attenuates IQ-DNA binding in rat liver by interacting with IQ in the
gut
and reducing carcinogen uptake, distribution and metabolism. The results suggest that further studies should be conducted with respect to the protective mechanisms and possible anti-carcinogenic properties of CHL.
Carcinogenesis
1992 Jan
PMID:Protection by chlorophyllin against the covalent binding of 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) to rat liver DNA. 173 63
This study was undertaken to measure the liberation in vitro of ellagic acid [2], a naturally occurring inhibitor of
carcinogenesis
, from precursor ellagitannins under conditions found in the
gut
tract. Enzymes, namely beta-glucosidase, esterases, and alpha-amylase, were incubated with raspberry extract. In addition, raspberry extract and casuarictin [1] were treated at different pH's and with the contents of small intestine and cecum from rats fed AIN-76A diet. The esterase activity of the enzyme samples was measured spectrophotometrically using p-nitrophenol acetate as the substrate, and the amount of ellagic acid [2] released from all samples was analyzed by hplc. The hydrolysis of the ellagitannins was not catalyzed by any of the purified enzymes tested, and components of the raspberry extract were found to inhibit the purified esterases noncompetitively. Casuarictin [1] was hydrolyzed to yield high quantities of ellagic acid [2] when placed in buffer at pH 7 and 8, or when incubated with cecal contents for two hours. The release of ellagic acid [2] from the raspberry extract was optimal at pH 8, and maximal release in cecal contents occurred with 1 h. Small intestinal contents had no significant effect on ellagic acid liberation from either casuarictin [1] or raspberry extract.
...
PMID:The effects of pH and rat intestinal contents on the liberation of ellagic acid from purified and crude ellagitannins. 179 80
Chlorophyllin (CHL), a sodium/copper derivative of chlorophyll, has been used to treat a number of human conditions with no toxic effects being reported. Recent studies have described the anti-mutagenic activity of CHL in several short-term genotoxicity assays; however, this compound has not been reported to inhibit carcinogen--DNA binding in vivo, and it has yet to be evaluated as an anti-carcinogen in any species. The chemopreventive properties of CHL were studied in trout using inhibition of aflatoxin B1 (AFB1)--DNA binding as an end-point. Chlorophyllin and AFB1 were coadministered in the diet, and carcinogen--DNA binding levels were determined in liver after 1, 3, 5 and 7 days. Linear increases in AFB1--DNA binding occurred with time of treatment at each CHL dose level (0, 500, 1000 and 2000 p.p.m.). Each increase in CHL dose produced a concomitant decrease in AFB1--DNA binding, resulting in a series of curves of decreasing slope. At the highest CHL dose level of 2000 p.p.m., AFB1--DNA binding was inhibited by 70%. These results suggest that CHL should be a potent inhibitor of AFB1-induced hepatocarcinogenesis in this model. In the Salmonella assay, CHL exhibited potent anti-mutagenic activity against AFB1 and two heterocyclic amines when incubated in the presence of trout liver activation systems. CHL also inhibited the mutagenic activity of AFB1-8,9-epoxide in the absence of a metabolic activation system. Dietary CHL substantially inhibited liver AFB1-DNA binding in vivo, even when AFB1 was given by i.p. injection to avoid direct AFB1--CHL interaction in the diet or
gut
. Collectively, these studies support a CHL inhibitory mechanism involving complex formation with the carcinogen in the
gut
coupled with electrophile scavenging or further complexing in the target organ.
Carcinogenesis
1991 May
PMID:Chemopreventive properties of chlorophyllin: inhibition of aflatoxin B1 (AFB1)-DNA binding in vivo and anti-mutagenic activity against AFB1 and two heterocyclic amines in the Salmonella mutagenicity assay. 190 94
1-Nitropyrene (NP), an environmental pollutant, a potent mutagen and an animal carcinogen, undergoes reduction, acetylation, ring-hydroxylation and conjugation in the rat in vivo to form mutagenic metabolites which are excreted in the urine. In order to investigate the role of the
gut
flora in the generation of these metabolites, germ-free rats of the AGUS strain, and conventional AGUS rats matched for sex and age, were injected i.p. with NP labelled with 14C. The germ-free rats excreted significantly less of the dose in urine than did the conventional rats. When urines were examined for mutagenicity with the Ames plate incorporation assay, the highest mutagenic activity was seen in the presence of S9 in 8-24 h urine from conventional rats. The conventional urines exceeded the germ-free urines by 10-fold in their content of 6-hydroxy-1-acetamidopyrene (NAAP-6-OH), previously identified as the predominant contributor to the mutagenicity of the urines of rats dosed with NP and excreted mainly as its beta-glucuronide conjugate. Conventional Charles River CD rats treated orally with D-glucaro-1,4-lactone, an inhibitor of beta-glucuronidase activity, excreted somewhat less NP-derived 14C in their urines over 48 h than did matched untreated rats, and their 8-24 h urines contained less than half as much of the mutagenic NAAP-6-OH as was found in the urines of the control rats. These results indicate that the
gut
flora are necessarily involved in the formation of NAAP-6-OH, and that both nitroreduction and the hydrolysis of glucuronides released for enterohepatic recirculation are essential in generating mutagenic metabolites from NP.
Carcinogenesis
1991 Jan
PMID:Formation of mutagenic urinary metabolites from 1-nitropyrene in germ-free and conventional rats: role of the gut flora. 198 67
Since compensatory hyperplasia promotes experimental
carcinogenesis
in the
gut
, we tested the ability of two surgical models of pancreatic growth to promote pancreatic
carcinogenesis
. Male Wistar rats (n = 60) weighing 250-300 g underwent pancreatobiliary diversion (PBD), 90% small bowel resection (PSBR) or triple transection and reanastomosis of the small intestine (controls). Postoperatively, each group received azaserine (20 mg kg-1 wk-1 i.p.) for 6 weeks. Surviving rats were killed at 6 months, pancreatic wet weight was measured and histological sections were examined for atypical acinar cell foci (AACF), the putative precursor of carcinoma. Median relative pancreatic weight (mg pancreas/g body weight) was 2.20 for controls (n = 18), 4.08 for PSBR (n = 11) (P less than 0.001) and 6.86 for PBD (n = 16) (P less than 0.001). PSBR did not affect the development of acidophilic AACF, but PBD produced an enormous increase in their number per cm3 (median 96 vs. 0; P less than 0.001) and a 7-fold increase in their volume (P less than 0.001). Both operations cause pancreatic growth, but only PBD promotes
carcinogenesis
, possibly because of its unique hormonal effect.
...
PMID:Pancreatobiliary diversion enhances experimental pancreatic carcinogenesis. 198 67
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