EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Circulating cancer cells in the blood play a central role in the metastatic process. Their number can be very small and techniques for their detection need to be both sensitive and specific. Polymerase chain reaction (PCR) has been successfully used to detect small numbers of tumour cells in haematological cancer in which abnormalities in DNA are sufficiently consistent to make this possible. For most solid tumours this not yet feasible. However, we have found that reverse transcriptase (RT)-PRC for tissue-specific gene expression is a useful technique for identifying small numbers of circulating cells in melanoma and neuroblastoma patients. In this report we describe detection of colon carcinoma cells by RT-PCR using CK 20 mRNA as a marker. Unlike other cytokeratin genes examined (CK 8 and CK 19), CK 20 was not transcribed in normal haematopoietic cells. This suggests a role for RT-PCR in the detection of colon carcinoma metastasis in blood and bone marrow, using CK 20 as the target gene. Future analysis of clinical material will determine the clinical significance of this technique.
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PMID:Detection of epithelial cancer cells in peripheral blood by reverse transcriptase-polymerase chain reaction. 753 Sep 83

Keratinocyte growth factor (KGF) is synthesized and secreted exclusively by mesenchymal cells, and acts through its receptor (KGFR) to stimulate epithelial proliferation. In vivo, KGF and KGFR comprise a mesenchymal-epithelial cell paracrine system that can mediate epithelial cell mitosis. In preliminary work, we noted that KGF was expressed in the rhesus monkey placenta, and we now report on the expression of placental KGF and KGFR mRNAs during the course of gestation in this species. In-situ hybridization revealed that during early gestation, KGF mRNA was strongly expressed in placental mesenchymal cells. These cells, which were also immunoreactive for vimentin, were mainly located on the periphery of the mesenchymal cores of both anchoring and floating villi. KGFR mRNA was expressed in the adjacent trophoblastic epithelium, which was immunoreactive for cytokeratin. In-situ hybridization revealed that KGF mRNA expression was very high in the youngest placentae (34-days gestation) and decreased gradually to minimal levels by late gestation (157 days). Northern blot analysis indicated also that the KGF MRNA signal was strongest in early gestation samples and weakest by late gestation. Analysis for KGFR mRNA by a reverse transcriptase-polymerase chain reaction technique showed that KGFR mRNA expression could be detected at all stages. However, in-situ hybridization indicated that KGFR mRNA expression was highest in early gestation placentae and least in the oldest placentae. Autoradiographs of frozen sections of placenta that had been incubated with [125I]KGF to detect receptor binding showed that grain density over the trophoblast was highest in the youngest and least in the oldest placentae. PCNA and Ki-67 expression followed this same temporal trend. We conclude that the KGF/KGFR system may be important in proliferation of the placental trophoblast during early- to mid-pregnancy in rhesus monkeys.
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PMID:Keratinocyte growth factor and its receptor in the rhesus macaque placenta during the course of gestation. 873 Aug 82

A two-step reverse-transcriptase-based polymerase chain reaction (PCR) with nested primer pairs was developed to amplify sensitive and specific cytokeratin-19 (CK-19) mRNA sequences from human breast cancer cells. No CK-19 pseudogene interference was seen. The larger DNA-derived amplification products could be clearly discriminated from mRNA-derived products. The CK-19 message was not amplified from bone marrow or blood of healthy volunteers and patients with haematological malignancies nor from myeloid and lymphoid cell lines. Breast cancer cells were diluted in buffy coat cells up to 10(-6) and CK-19 mRNA sought by PCR. The CK-19 message was detected in 14 of 26 blood samples and 14 of 24 marrow samples but in neither of two peripheral blood stem cell samples taken from 35 breast cancer patients. By sequence-analysis control of two of these samples and two cell lines, the amplified DNA fragments were confirmed to be homologous with the CK-19 sequence. The CK-19 message was further sought in matched blood/marrow samples taken from 13 untreated women in the same cohort at the time of diagnosis. In 3 of these, CK-19 RNA was detected in blood and marrow and, in 3 others, only in blood, but never in marrow alone. The results show that CK-19 assay by reverse transcriptase/PCR is a sensitive and specific technique for the detection of cancer cells in bone marrow and blood. It could be helpful in diagnosis and monitoring of metastatic breast cancer and detection of micrometastases. This should be evaluated on larger numbers of patients, with different clinical samples and epithelial malignancies.
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PMID:Reverse transcriptase/polymerase chain reaction detection of cytokeratin-19 mRNA in bone marrow and blood of breast cancer patients. 889 79

The benefit of high-dose therapy and blood stem cell reinfusion for women with high-risk breast cancer is currently under investigation. Contaminations of autologous blood stem cells with cancer cells have been described. Cancer micrometastases may be detected by immunocytochemistry, culture techniques and cytokeratin-19 mRNA reverse transcriptase PCR. Women with breast cancer received adjuvant HD-CTM with peripheral blood stem cell (PBSC) support after surgical therapy and 4 cycles conventional chemotherapy. Peripheral blood stem cells were mobilised by G-CsF and harvested after the third or fourth cycle of standard therapy. Aliquots of PBSC-collections (10(7)-2*10(7) cells) were subjected to CK19-mRNA reverse transcriptase PCR. RNA was extracted by standard methods and reverse transcription was performed with MMV-RT. Integrity of RNA was checked by coamplification of housekeeping sequences. Aliquots of the RT-mix were subjected to PCR-amplification with outer and inner primer pairs, subsequently. A second aliquot of 2*10(7) cells was cultured over 42 days in liquid culture. Cytospins were prepared weekly from cultured cells and evaluated by light microscopy with or without prior immunocytochemistry. Ten leukaphereses from 6 women were available for PCR-analysis and cell culture. Six leukaphereses were negative for CK19-mRNA and for detection of cancer cells by culture technique, two samples were positive for CK19-mRNA and culturally enriched cells and two samples were positive for CK19-mRNA and negative for cultured cancer cells. No sample was positive for cultured cells and negative for CK19-mRNA. Overall, the results corresponded in 80%. Two sensitive techniques for the detection of cancer micrometastases were applied to aliquots from 10 leukaphereses of six breast cancer patients with corresponding results in 80%. PCR-mediated detection of cancer cells was confirmed by culture technique and light microscopy, however, further comparison of CK19-PCR with standard techniques like cell culture and immunocytochemistry is still necessary.
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PMID:Detection of cancer cells in peripheral blood stem cells of women with breast cancer by RT-PCR and cell culture. 889 63

Atrial natriuretic peptide (ANP) is a vasoactive molecule with a potential role in modulating uteroplacental blood flow. We examined the expression of ANP in the third-trimester fetomaternal interface by immunohistochemistry performed on sections of placental tissue as well as by reverse transcriptase-polymerase chain reaction (RT-PCR) and RIA performed on isolated, purified term trophoblasts. Results from immunohistochemical studies on ten normal term placental samples revealed labeling of extravillous interstitial and cytotrophoblastic shell trophoblasts. The trophoblastic identity of the cells was determined by labeling of adjacent serial sections with anti-cytokeratin antibody. Labeling of decidual tissue was also observed in some samples (3 of 10 samples), whereas villous trophoblastic tissue showed no labeling. RT-PCR analysis of RNA extracted from isolated third-trimester trophoblasts revealed the presence of a 0.45-kb and band corresponding to ANP mRNA. Sequencing of the amplified cDNA confirmed its identity. RIA on lysates of isolated trophoblasts revealed the presence of ANP at a level of 41 pg +/- 8 pg/10(7) cells (n = 4; range = 16.8-50.4 pg/10(7) cells). These results indicate that placental cytotrophoblastic tissue is a source of ANP. This molecule might play a role in the regulation of uteroplacental and/or fetoplacental blood flow.
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PMID:Expression of atrial natriuretic peptide by third-trimester placental cytotrophoblasts in women. 892 3

The cytokeratin 18 related molecules of human hepatocellular carcinoma have been previously recognized through a series of biochemical and immunological approaches. It is suggested that these molecules undergo modulation from human hepatocyte cytokeratin 18. To prove whether these molecules are produced by modulation or protein degradation, we checked the cytokeratin profile of human hepatoma cell line PLC/PRF/5 with the methods used before. These results revealed that the PLC cells have the same cytokeratin 18 related molecules as human hepatocellular carcinoma tissue. The gene expression of the cytokeratin 18 in non-tumor liver tissues, hepatocellular carcinoma and PLC/PRF/5 cells were investigated. First, the mRNAs of non-tumor liver tissues, hepatocellular carcinoma tissues and PLC/PRF/5 cells were collected by the acid guanidinium thiocyanate phenol chloroform method. After transcription into cDNA by reverse transcriptase polymerase chain reaction, the cDNAs of each specimen were amplified by PCR and then digested by SmaI and BamHI restriction enzymes. The digested cDNA fragments were electrophoresed in agarose gel and the base pairs were found to be the same in length between neoplastic and non-neoplastic hepatocytes.
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PMID:The alteration of cytokeratin 18 molecule and its mRNA expression during tumor transformation in hepatoma. 926 84

Didanosine (ddI) that inhibits the reverse transcriptase of human immunodeficiency virus (HIV) causes steatosis and fulminant hepatitis in some patients with HIV. We studied hepatic histopathologic changes with particular attention to ddI-induced Mallory body formation. Three liver biopsies were performed on three patients with HIV who were treated with ddI; an autopsy was performed on a patient with HIV who was also treated with ddI. All hepatic specimens were studied with a routine liver immunohistochemical panel including antibodies to ubiquitin and cytokeratin (CAM 5.2). Morphologically, all hepatic specimens showed focal to diffuse steatosis with a predominance of macrovesicular fatty change. Fibrosis was minimal in three cases. No secondary bacterial and fungal infections were noted. Single or clusters of "empty cells" were present, and some contained Mallory bodies validated by ubiquitin stain. Empty cells are hepatocytes that fail to stain positive for cytokeratin. The Mallory bodies were different from the others because they were randomly distributed and occurred in noncirrhotic hepatic tissue. In the autopsy specimen, the Mallory bodies had a centrilobular location with central fibrosis (central sclerosing hyaline necrosis).
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PMID:2',3'-Dideoxyinosine-induced Mallory bodies in patients with HIV. 929 55

Conflicting results have been reported on the use of cytokeratin-19 (CK-19) in the detection of tumor cells in the peripheral blood of patients with solid tumors. We investigated the expression of CK-19 in lung cancer cell lines and in human lung tumor samples using a nested reverse transcriptase (RT)-PCR to determine the sensitivity and specificity of this method. In addition, blood samples of lung cancer patients and healthy controls were analyzed for the presence of CK-19 transcripts. Amplification products were visualized by ethidium bromide staining and radioactive hybridization with a CK-19-specific probe. Application of a previously described nested RT-PCR for the detection of CK-19 resulted in amplification of the processed pseudogene. Therefore, a more stringent RT-PCR was developed by increasing the annealing temperature. RT-PCR amplification products for CK-19 were detected in 38 of 41 lung cancer cell lines. The three negative cell lines were all variant small-cell lung cancer cell lines. Concordant results were observed between CK-19 detection by immunohistochemistry and by RT-PCR. In serial RNA dilution experiments, CK-19 transcripts could be detected in 18 to 80 pg of total cellular RNA in three cell lines and in 60 ng total RNA in one cell line. The nested RT-PCR had the sensitivity of detecting 50 tumor cells in 10(6) peripheral blood mononuclear cells (PBMNC), and CK-19 transcripts were randomly detected in normal PBMNC. This study shows the necessity in processing parallel samples without reverse transcriptase enzyme to avoid amplification of pseudogenes. A serious problem in the detection of tissue-specific transcripts in PBMNC is the detection of illegitimate transcription levels. In conclusion, although CK-19 may be a useful marker for the detection of lung cancer cells, its application for the detection of circulating tumor cells is not recommended.
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PMID:Detection of cytokeratin-19 transcripts by reverse transcriptase-polymerase chain reaction in lung cancer cell lines and blood of lung cancer patients. 931 44

The Fas antigen is a cell surface receptor that, when engaged by Fas ligand or specific agonistic antibodies, triggers apoptosis. The effect of an agonistic monoclonal antibody to mouse Fas antigen (Fas mAb, clone J02) on the viability of cells from dispersed mouse corpora lutea (CL cultures) was tested. Cultures were prepared by enzymatic digestion of CL from day 4-7 pseudopregnant mice. Cultures were pretreated with 0, 1, 10, 100, or 1000 U/ml murine interferon-gamma (IFN) at 72 h of culture. IFN has been shown to increase Fas antigen expression in a number of cell types. At 96 h (time zero), cultures were treated with Fas mAb or IgG. By 4 h after Fas mAb treatment, discrete homogeneous patches of cells within the cultures showed characteristic signs of apoptosis, including blebbing of cell membranes, detachment, and disappearance from the culture. CL cultures contain luteal, stromal, and endothelial cells; fibroblasts; and surface epithelial cells (OSE). Cells dying in response to Fas mAb were identified as OSE. Affected cells had the cobblestone appearance and distinct nuclei typical of epithelial cells. Unlike luteal cells, OSE did not stain with the lipophilic dye, Nile red. The cells did not stain with acetylated low density lipoprotein conjugated to the fluorescent marker octadecyl indocarbocyanine, a marker for endothelial cells and monocytes. Cells in patches stained positively for cytokeratin, a marker for epithelial cells. Fas-mediated cytotoxicity was quantified by counting the number of cells present in discrete patches of OSE 0 and 8 h after Fas mAb treatment. Fas mAb treatment had no effect in cultures pretreated with 0 or 1 U/ml IFN, but induced significant death of OSE in cultures pretreated with 10, 100, and 1000 U/ml IFN (37 +/- 11%, 54 +/- 18%, and 60 +/- 11%, respectively). There was no apparent effect of Fas mAb on other cell types within the CL cultures. To confirm that cells dying in response to Fas mAb were OSE, experiments were also performed on enriched cultures of OSE prepared by enzymatic digestion of the outer surface of the ovary. In enriched OSE cultures pretreated with 200 U/ml IFN, there was 44% killing in response to Fas mAb, whereas in cells not pretreated with IFN, there was no effect. In situ fluorescent end labeling of DNA in CL cultures indicated that treatment with IFN and Fas mAb induced DNA fragmentation in OSE typical of apoptosis. Immunocytochemistry of CL cultures indicated that Fas antigen was expressed in OSE pretreated with IFN. Quantitative reverse transcriptase-PCR showed that IFN pretreatment increased Fas antigen messenger RNA levels 2.3-fold in enriched cultures of OSE. In summary, OSE in CL cultures and enriched cultures of OSE undergo apoptosis in response to Fas mAb when pretreated with IFN. In vivo, OSE undergo programmed cell death before ovulation and rapidly proliferate to repair the surface of the ovulatory follicle after ovulation. Most ovarian cancers are derived from the OSE. The results have implications for both normal ovarian function and oncogenesis in the ovary.
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PMID:Fas antigen-mediated apoptosis of ovarian surface epithelial cells. 934 78

Disseminated epithelial tumor cells have been detected in the bone marrow and blood of cancer patients by means of immunocytochemical or immunofluorescent staining of cytocentrifuge slides, multiparameter flow cytometry, and reverse transcriptase-polymerase chain reaction. However, it is hardly possible using such methods to detect tumor cells at a frequency below 10(-6). To increase the sensitivity of these detection techniques we have developed a new technology for the enrichment of disseminated epithelial tumor cells from hematopoietic cell samples by high-gradient magnetic cell sorting (MACS). Cells are permeabilized and fixed and carcinoma cells are magnetically labeled specifically with an anti-cytokeratin 8 monoclonal antibody (mAb) directly conjugated to superparamagnetic microbeads. Magnetically labeled cells are enriched on high-gradient magnetic columns. Tumor cells are detected in the enriched cell fraction by flow cytometry, fluorescence microscopy, or immunocytochemisty. In this study we demonstrated the method using a model system in which five to 5,000 cells from a breast cancer cell line were seeded into blood cell samples from a healthy donor containing 1.2 x 10(8) leukocytes. Tumor cells were 10,477+/-4242 (n=25)-fold magnetically enriched, and 57.7%+/-16.9% (n=33) of the initially seeded tumor cells were recovered. Applying the method to 20-40 mL blood samples from patients with advanced carcinomas of the breast, prostate, colon, rectum, or lung, we were able to detect between one and 6.8 x 10(4) cytokeratin-expressing tumor cells in 21 of 34 patients. This corresponds to frequencies of tumor cells between 6.8 x 10(-9) and 1.1 x 10(-3) among nucleated cells in the original sample. Enriched tumor cells were further analyzed for expression of tissue-specific and prognostic markers such as breast mucin glycoproteins, erbB2, and CD44v6 for additional characterization and to confirm their tumor origin. The technique described could become a valuable tool for the quantification and molecular characterization of metastatic carcinoma cells in hematopoietic tissue, and may ultimately prove useful in the diagnosis, prognosis, and monitoring of patients with carcinoma.
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PMID:Immunomagnetic enrichment of disseminated epithelial tumor cells from peripheral blood by MACS. 950 22

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