Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

It has been reported that cytokeratin 8 (CK8) can be expressed in several cancers and expression of CK8 is correlated with increased invasiveness of the tumor in vitro and in vivo. In the present study, we investigated expressions of CK8 in human lung cancer cell lines. In addition, we also evaluated the clinical significance of CK8 measurements in sera of patients with lung cancer. Expression of mRNA for CK8 was semi-quantitatively evaluated by the competitive reverse transcriptase-polymerase chain reaction (competitive RT-PCR), using human lung cancer cell lines. The level of CK8 protein in culture supernatants of lung cancer cell lines and 70 sera of patients with lung cancer was measured by enzyme-linked immunosorbent assay (ELISA). Levels of serum CK8 according to clinical parameters were also examined. The level of expression of CK8 mRNA in non-small cell lung cancer (NSCLC) cell lines was significantly high compared with that of small cell lung cancer (SCLC) cell lines (P<0.05). The level of CK8 in culture supernatants in NSCLC was significantly high compared with that of SCLC. The level of serum CK8 in patients with NSCLC was significantly high compared with that of normal non-smokers and compared with that of SCLC (P<0.05). Patients with a CK8 value of 50.0 ng/ml, or higher, had a statistically significant diminished survival compared with those patients whose CK8 values were lower. In conclusion, CK8 was preferentially expressed in NSCLC. Increasing values of CK8 were significantly associated with tumor progression and decreased survival in patients with NSCLC. Therefore, CK8 in sera may become a novel tumor marker in patients with lung cancer.
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PMID:Expression of cytokeratin 8 in lung cancer cell lines and measurement of serum cytokeratin 8 in lung cancer patients. 1236 90

It has been suggested that thyroid transcription factor-1 (TTF-1) is frequently expressed in human lung cancer, especially in adenocarcinoma and small cell lung cancer, and the TTF-1 expression is closely related with the expression of surfactant protein. We hypothesized that TTF-1 is expressed in human lung cancer cell lines and its expression might be related to the expression of surfactant protein. To test this, expressions of TTF-1 and surfactant protein A (SP-A) were immunohistochemically evaluated in 16 human lung cancer cell lines. In addition, expressions of mRNAs for TTF-1 and SP-A were analyzed by reverse transcriptase-polymerase chain reaction (RT-PCR) and sequencing. As a result, nuclear staining of TTF-1 was observed in two of six adenocarcinoma cell lines, none of seven small cell lung cancer cell lines, and none of three squamous lung cancer cell lines. Among the 16 cell lines, six cell lines (PC3, LC2/Ad, A549, RERF-LC-OK, HI1017, and PC9) expressed significant amounts of mRNA for TTF-1. In contrast, cytoplasmic staining of TTF-1 was observed in five of six adenocarcinoma cell lines, in six of seven small cell lung cancer cell lines, and in all three squamous cell lung cancer cell lines. One of the two adenocarcinoma cell lines those showed positive nuclear staining and cytoplasmic SP-A staining released a significant amount of SP-A in culture supernatant. Our present study demonstrates that the frequency of TTF-1 expression in the nucleus was very low in human lung cancer cell lines; however, their cytoplasmic positivities should be further investigated.
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PMID:Expression of thyroid transcription factor-1 in 16 human lung cancer cell lines. 1249 91

[Arg(6),D-Trp(7,9),N(me)Phe(8)]-substance P (6-11) (SP-G) is a novel anticancer agent that has recently completed phase I clinical trials. SP-G inhibits mitogenic neuropeptide signal transduction and small cell lung cancer (SCLC) cell growth in vitro and in vivo. Using the SCLC cell line series GLC14, 16 and 19, derived from a single patient during the clinical course of their disease and the development of chemoresistance, it is shown that there was an increase in responsiveness to neuropeptides. This was paralleled by an increased sensitivity to SP-G. In a selected panel of tumour cell lines (SCLC, non-SCLC, ovarian, colorectal and pancreatic), the expression of the mitogenic neuropeptide receptors for vasopressin, gastrin-releasing peptide (GRP), bradykinin and gastrin was examined, and their sensitivity to SP-G tested in vitro and in vivo. The tumour cell lines displayed a range of sensitivity to SP-G (IC(50) values from 10.5 to 119 microM). The expression of the GRP receptor measured by reverse transcriptase-polymerase chain reaction, correlated significantly with growth inhibition by SP-G. Moreover, introduction of the GRP receptor into rat-1A fibroblasts markedly increased their sensitivity to SP-G. The measurement of receptor expression from biopsy samples by polymerase chain reaction could provide a suitable diagnostic test to predict efficacy to SP-G clinically. This strategy would be of potential benefit in neuropeptide receptor-expressing tumours in addition to SCLC, and in tumours that are relatively resistant to conventional chemotherapy.
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PMID:Increased gastrin-releasing peptide (GRP) receptor expression in tumour cells confers sensitivity to [Arg6,D-Trp7,9,NmePhe8]-substance P (6-11)-induced growth inhibition. 1277 99

Small blue cell tumors are a group of tumors that share a common histologic characteristic with H&E staining. This makes differentiation from one another difficult as they all appear small, blue and round. Even though they all appear the same, they are vastly different from each other. Several different techniques have been developed to help further delineate and classify these tumors which include: small cell lung cancer (SCLC); non-Hodgkin's lymphoma (NHL); Ewing's sarcoma; rhabdomyosarcoma; Merkel carcinoma; neuroblastoma; carcinoid tumors; and intra-abdominal desmpolastic small round cell tumor. Using immunoperoxidase staining, reverse transcriptase polymerase chain reaction and fluorescence in situ hybridization techniques, these tumors have been successfully differentiated from one another. This separation makes staging and treatment of these tumors more effective, as not all of these tumors respond to the same modality of treatment. The following review summarizes some of the recent findings in the various small blue cell tumors and with the potential of novel therapies.
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PMID:Recent advances in the molecular biology, diagnosis and novel therapies for various small blue cell tumors. 1292 79

Bronchoscopy is a standard procedure in the workup of patients with suspicious pulmonary lesions. We wondered whether it is possible to isolate malignancy-associated mRNA from cell-free lavage supernatant. Extracellular mRNA from cell-free lavage supernatant of 25 patients with lung cancer (23 with non-small cell lung cancer, 2 with small cell lung cancer) was isolated, reverse-transcribed, and amplified by reverse transcriptase polymerase chain reaction. The quantity and quality of the isolated RNA were checked after cDNA synthesis by amplification with beta-actin-specific primers. Afterwards, a panel of eight genes known to be expressed in lung tumors was used for the detection of tumor-associated mRNA expression in lavage supernatant and serum. mRNA coding for beta-actin could be isolated from lavage supernatant of all 25 patients. In addition, the expression of at least one tumor-associated gene was detectable in all patients. These results show that intact mRNA can be isolated from cell-free lavage supernatant and that its quantity and quality are sufficient for the detection of tumor-associated gene expression alterations. This may open new possibilities for the diagnosis of lung cancer.
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PMID:Detection of tumor-specific mRNA in cell-free bronchial lavage supernatant in patients with lung cancer. 1525 53

Expression of three major resistance genes MDR1, MRP1 and LRP was investigated in small cell lung cancer, non-small cell lung cancer and metastasis. Single biopsies of bronchoscopy from 73 patients were performed to investigate expression of these three resistance genes by reverse transcriptase-polymerase chain reaction. Relations between gene expression and patient age, smoking status, histology, and chemotherapy were evaluated. A more frequent expression of MDR1 (77 versus 66%), MRP1 (91 versus 72%) and LRP (77 versus 63%) genes was detected in the malignant biopsies than in the non-malignant, respectively. In the metastasis biopsies, expression of these genes was markedly increased. No significant difference was observed between specimens before and after chemotherapy. Biopsies from progressing cancer showed higher MDR1, MRP1 and LRP gene expression. In conclusion, these data reveal a major role of MRP1 in intrinsic resistance and the high gene expression of MDR1 and MRP1 in relapsed diseases.
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PMID:Detection of drug-resistance genes using single bronchoscopy biopsy specimens. 1767 23

Expression of microRNAs (miRNAs) is characteristically altered in cancer, and they may play a role in cancer development and progression. The authors performed microarray and real-time quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) analyses to determine the miRNA expression profile of primary small cell lung cancer. Here we show that at least 24 miRNAs are differentially expressed between normal lung and primary small cell lung cancer (SCLC) tumors. These include miR-301, miR-183/96/182, miR-126, and miR-223, which are microRNAs deregulated in other tumor types as well; and other miRNAs, such as miR-374 and miR-210, not previously reported in association with lung cancer. The aberrant miRNA profile of SCLC may offer new insights in the biology of this aggressive tumor, and could potentially provide novel diagnostic markers.
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PMID:Differentially expressed microRNAs in small cell lung cancer. 1989 20

Chromosomal rearrangements of the NTRK1 gene, which encodes the high affinity nerve growth factor receptor (tropomyosin related kinase, TRKA), have been observed in several epithelial cancers, such as colon cancer, papillary thyroid carcinoma or non small cell lung cancer. The various NTRK1 fusions described so far lead to constitutive activation of TRKA kinase activity and are oncogenic. We further investigated here the existence and the frequency of NTRK1 gene rearrangements in colorectal cancer. Using immunohistochemistry and quantitative reverse transcriptase PCR, we analyzed a series of human colorectal cancers. We identified two TRKA positive cases over 408, with NTRK1 chromosomal rearrangements. One of these rearrangements is a TPM3-NTRK1 fusion already observed in colon cancer, while the second one is a TPR-NTRK1 fusion never described in this type of cancer. These findings further confirm that translocations in the NTRK1 gene are recurring events in colorectal cancer, although occurring at a low frequency (around 0.5%).
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PMID:Chromosomal rearrangements involving the NTRK1 gene in colorectal carcinoma. 2600 71

Increasing evidence that non-small cell lung cancer is a systemic disease from the outset confirms the rationale for adjuvant chemotherapy. However, clinical trial evidence of benefit is still awaited. The position is clearer in the case of neoadjuvant therapy because long-term follow up of two trials now shows that patients randomized to chemotherapy before surgery were significantly more likely to survive to 5 years than patients treated with surgery alone. Early data suggest that neoadjuvant chemotherapy based on docetaxel (Taxotere; Aventis, Antony, France) (possibly used sequentially with other agents) may be as effective as older regimens and better tolerated. Because p53 status influences the expression of microtubule-associated proteins and hence the sensitivity of a tumor to taxanes, it is possible that molecular markers could be used to customize chemotherapy to individual patients. Generally, it is becoming clearer that molecular staging is a more sensitive means of demonstrating tumor dissemination than light microscopy. The Cancer and Leukemia Group B is undertaking a prospective study using reverse transcriptase-polymerase chain reaction to detect MUC-I RNA in bone marrow and hilar and mediastinal lymph nodes removed at resection with the aim of distinguishing between stage I patients likely to remain disease-free for long periods and those at high risk of relapse. A study of small cell lung cancer is using automated fluorescence microscopy to detect keratin-positive cells in the marrow and blood of patients who have a complete response to initial therapy but are nevertheless at high overall risk of relapse. The identification of genetic lesions in a high proportion of patients with non-small cell lung cancer may guide the development of new therapies aimed at increasing rates of apoptosis among tumor cells.
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PMID:Advances in the treatment of non-small cell lung cancer: Molecular markers take the stage. 2814 79


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