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Query: UMLS:C0699790 (colon cancer)
 28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of supranormal temperatures upon normal human cells (derived from normal adult and embryonal tissues) and neoplastic human cells (derived from biopsies of malignant tumors) have been quantitatively studied in tissue culture. Melanoma cells have been compared with melanocytes derived from fetal uveas. Colon carcinoma cells have been compared with embryonal intestinal epithelial cells. Malignant neuroepithelial cells derived from a teratocarcinoma of the ovary have been compared with neuroepithelial cells derived from fetal brain. Fibrosarcoma cells have been compared with normal adult fibroblasts. All cells defined as neoplastic have produced malignant tumors when injected into nude thymus-deficient mice at doses of 1 X 10(7) cells or less. Exposure to temperatures of 42.5-43.0 degrees for 4 to 8 hr has been shown to have significantly greater lethal effect on the tumor cells than on the nonneoplastic cells.
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PMID:Selective lethal effect of supranormal temperatures on human neoplastic cells. 97 42

A new modification of our detergent technique for the preparation of nuclei for flow cytometric DNA analysis is described. The attainment of low coefficients of variation of the peaks and of quantitative staining of nuclei from different tissues was a problem with the original method. This was solved in the new modification by trypsinization of the unfixed nuclei. The nuclei were stabilized by spermine. A simple procedure for long-term storage of samples at -80 degrees C was integrated into the method. The fluorescence of the nuclei was stable for at least 3 hours after staining. Light exposure protection of the samples was essential. No cell loss was caused by storage or staining. The method was successfully applied on samples including: (a) Normal tissues--human lymphocytes, granulocytes and spleen. Mouse lymphocytes, bone marrow, spleen, liver, kidney and thymus. (b) Human neoplasms--lung cancer, breast cancer, lymphoma, leukemia, bladder cancer and cancer of the oral cavity. (c) Human tumors in nude mice--breast cancer, lung cancer, melanoma and colon cancer. (d) Mouse ascites tumors--JB-1, L 1210, Ehrlich and P 383. It therefore seems well suited as a routine clinical procedure.
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PMID:A detergent-trypsin method for the preparation of nuclei for flow cytometric DNA analysis. 618 86

A mouse monoclonal antibody, WI-MN-1, was raised against G-361 melanoma cell line. Reactivity of this antibody was characterized by indirect immunofluorescence against 22 cell lines and normal and neoplastic human tissues. Positive reactions were seen against three melanoma cell lines (G-361, HT-144, and MeWo). It also reacted against an epidermoid carcinoma cell line (Hep-2) and amnion cells (WISH). The antibody failed to react against cell lines derived from granulocytic leukemias, lymphocytic leukemias, Burkitt's lymphoma, carcinoma of the lung, carcinoma of the cervix, carcinoma of the colon, carcinoma of the breast, astrocytoma, and a human monocytoid cell line. Mouse melanoma and mouse fibroblast cell lines were also nonreactive. Similarly, there was no reaction against human peripheral blood, bone marrow, spleen, lymph node, thymus, breast, lung, stomach, heart, brain, kidney, liver, skin, or testis. The antibody was also tested by indirect immunofluorescence against 17 samples of metastatic malignant melanoma which were removed from 13 patients. WI-MN-1 gave positive reaction against 16 of these specimens, and it reacted with the cryostat section in the immunoperoxidase test, delineating neoplastic melanoma from the normal brain tissue. The antibody precipitated Mr 105,000 and 38,000 antigens from biosynthetically labeled G-361 cells. It was suggested that WI-MN-1 was a useful addition to the panel of monoclonal antibodies against melanoma-associated antigens.
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PMID:Mouse monoclonal antibody (WI-MN-1) against malignant melanoma. 619 9

A gene called deleted in colon cancer (DCC) has been identified on a region of chromosome 18, which is deleted in 70% of colorectal cancers. The DCC gene encodes a protein belonging to the immunoglobulin superfamily with similarity to the N-CAM transmembrane proteins and is a putative tumor-suppressor gene. Alternative splicing of transcripts of transmembrane proteins, including N-CAM, is known to occur, resulting in different isoforms of the protein. Using five antibodies against the DCC gene product (three monoclonal antibodies raised in our laboratory, one commercially available antibody, and a rabbit polyclonal antibody), we have demonstrated by immunostaining a DCC protein isoform in reticuloendothelial cells in human thymus, tonsil, and lymph node. This can be distinguished from another isoform described in normal colonic epithelium, because this latter is not demonstrable with the antibodies we have used. It could not be detected in normal colonic epithelium, polyps or colorectal carcinomas. This restrictive distribution suggests that not all DCC gene products are important in colonic cancer.
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PMID:The distribution of the deleted in colon cancer (DCC) protein in human tissues. 758 45

Risks of cancer incidence in people born in England and Wales and New Zealand (non-Maoris) living in their home countries, and after migration between the two countries, were analysed using data from their national cancer registries. Since these populations are of similar genetic origin, any real differences in cancer incidence between them are likely to reflect the action of environmental or behavioural risk factors. The greatest differences in risk between the countries were for cutaneous melanoma and lip cancer. In each sex, relative risks of these malignancies were 4 or greater for the New Zealand-born in New Zealand compared with English and Welsh natives in their home country, and risks for migrants in each direction were generally intermediate between those born in the home country in the two countries. Sizeable significantly raised risks in the New Zealand-born in New Zealand compared with English and Welsh natives in England and Wales also occurred for cancers of the mouth, small intestine, colon, thymus, eye and thyroid, and non-Hodgkin's lymphoma in each sex, and for cancer of the prostate. For all of these sites except mouth, small intestine and colon there were also risks around or above New Zealand-born levels for English and Welsh migrants to New Zealand; for colon cancer these migrants had risks close to those in England and Wales. New Zealand migrants to England and Wales had risks of cancers of the colon and prostate that were similar to or above New Zealand levels. Risks of cancers of the stomach, lung, pleura and bladder, and Hodgkin's disease in each sex, and cancers of the cervix, ovary and scrotum and penis, were substantially and significantly lower in the New Zealand-born living in New Zealand than in English and Welsh natives in England and Wales. In English and Welsh migrants to New Zealand risks of bladder cancer in each sex, and of scrotal and penile and pleural cancer in males, approximated to England and Wales risks; cervical cancer risk approximated to the New Zealand risk; and stomach, lung and ovarian cancers showed intermediate risks. Migrants from New Zealand to England and Wales did not gain the lung cancer or clearly the stomach cancer risk of their host country, but did have bladder cancer risks approximating to those in England and Wales.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cancer incidence in England and Wales and New Zealand and in migrants between the two countries. 759 59

A series of bifunctional ligands has been developed as prototype DNA-binding combilexins using a DNA template-directed approach. These novel agents contain a 1,3-diaryltriazene linker moiety, present in the established DNA minor groove-binder berenil [1,3-bis(4'-amidinophenyl)-triazene], which is attached to an intercalating acridine chromophore by a functionalized thiazole residue. This 9-arylacridine is predicted to confer rotational freedom to the hybrid molecule and thus facilitate bifunctional interaction with double-stranded DNA through a combination of 'classical' intercalation and minor groove-binding processes. The noncovalent DNA-binding properties of these acridine-triazene combilexins, together with the component molecular fragments, have been examined by fluorescence quenching and thermal denaturation studies with calf thymus DNA and two oligonucleotides, [poly(dA-dT)]2 and [poly(dG-dC)]2. In addition, the binding behaviors of these acridine compounds are compared to those of proflavine (3,6-diaminoacridine) and its 9-phenyl derivative. The results indicate that the hybrid agents (i) are more DNA-affinic than either molecular component, (ii) retain the AT-preferential binding properties of the parent difunctionalized 1,3-diaryltriazene residues, despite weak GC-preferential behavior associated with the acridine chromophore, and (iii) have a reduced binding affinity at pH 7 that reflects the protonation status of the acridine. In contrast, the more basic proflavines show much greater binding affinity and a marked preference for GC-rich DNA sequences. In vitro cytotoxicity data with L1210 mouse leukemia and A2780 human colon cancer cell lines show that the conjugate molecules are approximately 10-40-fold more potent than the acridine or triazene subunits and have activities that compare favorably with those of other reported synthetic combilexins. Intercalative binding modes with a model d(GATACGATAC).d(GTATCGTATC) target duplex have been investigated using molecular modeling techniques. These studies provide a rational basis for the binding properties and suggest that the prototype combilexins can bind in a bimodal manner that induces little distortion of the host DNA duplex. Energy-minimized models for the possible dual interactions are discussed.
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PMID:Novel acridine-triazenes as prototype combilexins: synthesis, DNA binding, and biological activity. 765 36

The in vitro experiment was carried out following 32P-postlabeling analysis to determine the DNA-reactive bile acids present in the human body. The unconjugated and conjugated forms of cholic (CA), chenodeoxycholic (CDCA), deoxycholic (DCA) and lithocholic acid (LCA) were added to calf thymus DNA followed by 1 h of incubation at 37 degrees C. After the incubation the mixture was analyzed by the nuclease P1 modification of 32P-postlabeling. Among the 12 bile acids tested, our results showed that unconjugated CDCA and LCA and the glycine and taurine conjugates of LCA (g-LCA, t-LCA) were able to bind covalently with naked DNA in vitro without intervention of any catalyst. It was also shown that bile acid alone did not give any spot on TLC. These binding reactions depended on the bile acid concentration in a linear manner. The data on the extent of binding at a concentration of 0.1 mg/ml showed values of 28.5 (t-LCA), 23.7 (g-LCA), 3.47 (LCA) and 1.32 (CDCA) adducts per 10(8) nucleotides. These reactive bile acids were also incubated with COLO 205 human colon carcinoma cells and Hep G2 human hepatocellular carcinoma cells for 24 h, but no specific DNA adduct was formed. Further, when LCA or CDCA was administered into male Fischer 344 rats by gavage at a dose of 10 mg/rat every 8 h for 3 days, no specific DNA adduct was detected in their liver or colon. Covalent DNA adducts are believed to cause alteration of the primary structure of genes, which is potentially linked to carcinogenesis. Though our preliminary data failed to detect any bile acid-related DNA adducts in the cultured cells or in rats, the results may provide a basis for assuming some of these bile acids to be potential initiators of colon cancer.
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PMID:In vitro formation of DNA adducts with bile acids. 792 85

The aim of this study was to survey the expression of an embryonic cytokine gene, MK, in the normal organs and neoplastic tissues of adults. Northern analysis showed that MK mRNA was exclusively expressed in the kidney among murine organs including thymus, lung, heart, spleen, liver, and kidney. In situ hybridization analysis revealed that MK expression was localized in the proximal tubules and metaplastic Bowman's epithelium, but not in other nephron segments such as glomeruli, loop of Henle, distal tubules, and collecting ducts. To investigate whether MK expression is a marker of tubular cell lineage, several cell lines originating from renal tubules were tested. No expression of MK was detected in PtK1 and LLC-PK1 cells derived from marsupial and porcine proximal tubules or in MDBK and MDCK cells from bovine and canine distal/collecting tubules. Unexpectedly, the MK gene was expressed in a human renal cell carcinoma line, VMRC-RCW, and the expression was up-regulated in the presence of retinoic acid. To elucidate the involvement of MK in the development of tumors, we further examined its expression in a variety of human neoplastic cell lines: YMB-1-C (breast cancer), EBC-1 (lung squamous cell carcinoma), RERF-LC-OK (lung adenocarcinoma), SBC-3 (lung small cell carcinoma), HSC-2 (mouth squamous cell carcinoma), NUGC-2 (gastric cancer), COLO201 (colon cancer), HepG2 (hepatoma), MIA PaCa-2 (pancreatic cancer), MCAS (ovarian cancer), HeLa (cervical cancer), BeWo (chorionic carcinoma), ITO-II (testicular tumor), T24 (urinary bladder tumor), and G-401 (Wilms' tumor). Strong signals were detected in COLO201, HepG2, ITO-II, T24, G-401, and weaker but distinct signals were detected in YMB-1-C, HSC-2, and MCAS cells. The MK gene was, therefore, widely expressed in neoplastic cells originating from genital organs, intestinal tract, liver, mammary gland, and urinary tract, and the expression was not restricted to adenocarcinomas, but was also observed in other types of tumor cells. These findings suggest that a retinoic acid responsive gene, MK, may play a role in the pathophysiology of renal proximal tubules and tumorigenesis in many types of neoplasms.
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PMID:A retinoid responsive cytokine gene, MK, is preferentially expressed in the proximal tubules of the kidney and human tumor cell lines. 843 39

The nuclear protein prothymosin alpha is thought to play a critical role in cellular proliferation. Transcription of the gene encoding prothymosin alpha has been shown to be activated by the proto-oncogene c-myc. Also, prothymosin alpha mRNA expression correlates with that of c-myc in human colon cancer. We compared the previously reported embryonic expression pattern of the proto-oncogene c-myc and the pattern of the prothymosin alpha gene by in situ hybridization. Prothymosin alpha is transcribed in all tissues expressing c-myc, including brown adipose tissue, salivary gland, thymus and liver. In addition, we show that the prothymosin alpha gene is active in tissues expressing specifically N-myc such as the neuronal anlage and hair follicles in skin. Therefore, during mouse foetal development the temporal, spatial and tissue-specific expression patterns of both myc proto-oncogenes coincide with the pattern of prothymosin alpha.
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PMID:The pattern of prothymosin alpha gene expression coincides with that of myc proto-oncogenes during mouse embryogenesis. 886 47

Novel imidazoacridinone derivatives, C1310 and C1311, have been evaluated for their potential to inhibit tumour cell growth in vitro and in vivo. A cell line panel, including seven human and murine colon carcinoma cell lines and three in vivo models, was used. The compounds were found to be potent inhibitors of tumour cell growth with IC50 values ranging between 10 nM and 2 microM in human colon cancer cell lines. Statistically significant tumour growth delay (P < 0.01) was observed after a single intraperitoneal (i.p.) dose of C1311 (100 mg kg-1 body weight) in MAC15A, MAC29 murine and HT29 human adenocarcinomas of the colon. Rapid accumulation of fluorescence of both C1310 and C1311 was seen in the nuclei of HT29 human colon tumour cells in culture. C1311 was also found to bind into calf thymus DNA as shown by spectrophotometric titration and thermal denaturation and to cause early inhibition of thymidine incorporation in HT29 cells in vitro. The results of this study suggest that C1311 should be considered as a candidate for clinical development.
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PMID:Preclinical evaluation of novel imidazoacridinone derivatives with potent activity against experimental colorectal cancer. 891 31


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