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: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Polysialic acid (PSA) is a carbohydrate composed of a linear homopolymer of alpha-2-8-linked sialic acid residues and is mainly attached to the neural cell adhesion molecule (NCAM). Because of the large negative charge of PSA, presence of PSA attenuates the adhesive property of NCAM and increases the cellular motility. PSA expression on NCAM is developmentally regulated, and PSA plays important roles in formation and remodeling of the neural system through regulation of the adhesive property of NCAM. Expression of the polysialated form of NCAM has been also demonstrated in some malignant tumors, such as Wilms' tumor and small cell lung cancer. Despite the possible importance as an onco-developmental antigen, however, significance of PSA expression in most malignant tumors has not been revealed. Therefore, PSA expression in non-small cell lung cancer was assessed in the present study. PSA was expressed only in 5 (20.8%) of 24 pathological stage I cases, whereas it was expressed in most stage IV cases (76.8%, 11 of 14 cases). PSA expression was correlated with nodal metastasis and distant metastasis, but not with local extent of the primary tumor. Next, expression of polysialyltransferase genes (PST and STX genes) which controlled formation of PSA, was examined. The PST gene was constantly expressed in both normal lung tissue and tumor tissue of all cases. In contrast, the STX gene was not expressed in normal lung tissue of any case, and STX gene expression in tumor tissue was closely correlated with tumor progression. The STX gene was expressed only in 1 (4.2%) of 24 stage I cases, whereas it was expressed in most stage IV cases (85.7%, 12 of 14 cases). These results suggested that the PSA and STX genes could be new targets of cancer therapy as well as important clinical markers.
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PMID:Expression of polysialic acid and STX, a human polysialyltransferase, is correlated with tumor progression in non-small cell lung cancer. 1085 Apr 59

Loss of chromosome 10q is a critical step during the progression and metastasis formation of lung cancer. We recently defined 3 distinct regions of allelic imbalances and considered the DMBT1 gene at 10q25-q26 an interesting candidate for the most telomeric region. Therefore, we investigated DMBT1 in 25 cancer cell lines and 39 primary tumors of the respiratory tract. The analysis by RT-PCR and Northern blot hybridization revealed that the gene is expressed in all tumors and cell lines and diminished in the SCLC line H187, indicating that RT-PCR is critical when used as the single method for the evaluation of gene expression. No mutations were found by SSCP analysis of the cDNA and the partially known genomic sequence. Similarly, Southern blot hybridization was unable to detect homozygous deletions. Allelotyping of the markers D10S587, D10S1708 and D10S1723 located near or within the DMBT1 gene did not reach the peak incidence of the 3 minimally deleted regions that we recently defined. In summary, our data do not confirm previous findings reporting frequent loss of DMBT1 expression in lung cancer. However, they strengthen the notion that the responsible gene on chromosome 10q25-q26 mediating tumor progression and metastasis formation in respiratory tract cancer remains enigmatic.
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PMID:Analysis of the DMBT1 gene in carcinomas of the respiratory tract. 1096 42

Small cell lung cancer (SCLC) is a frequently occurring, highly aggressive tumor with a generally poor clinical outcome. In order to approach the genetic mechanisms behind the tumor progression, a general screen for DNA copy number alterations was performed using comparative genomic hybridization (CGH). In the series of 23 cases analyzed, CGH alterations were frequently detected ranging from 9 to 22 abnormalities in the individual tumors. The most frequent losses were detected on chromosome arms 3p (23/23), 13q14-21 (23/23), 4p (20/23), 4q (20/23), and 2q22-24 (18/23), while gains preferentially involved chromosome arms 19p (18/23), 19q (17/23), 1p31-35 (15/23), 17q22-25 (11/23), and 5p14-15.3 (9/23). In addition, high level amplification at chromosome arms 1p32-33 and 2p22-24 were found in three and two cases, respectively. Candidate genes for these amplifications include the l-MYC (1p32) and n-MYC (2p24.1) oncogenes, which have been previously found to be overexpressed in SCLC. Taken together, the findings demonstrate a high level of chromosomal instability in SCLC, which is well in agreement with the highly malignant phenotype of this tumor type. Subchromosomal regions involved in gains and losses were delineated and the amplifications of 1p32-33 and 2p22-24 were demonstrated, thus providing starting points for the exact characterization of molecular events involved in SCLC tumor progression.
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PMID:High level amplification of 1p32-33 and 2p22-24 in small cell lung carcinomas. 1149 21

Most cellular proto-oncogenes encode proteins that participate in signaling pathways by which cells receive and execute instructions that lead to mitogenesis, differentiation, lineage determination, cell migration, extracellular matrix production, and apoptosis, among others. These proto-oncogene protein products include transmembrane receptor tyrosine kinases and receptor substrates, serine/threonine kinases, receptor adaptor molecules, low-molecular-weight GTPases, and transcription factors that, when overexpressed or mutationally activated, can lead to cell transformation and tumor progression. The large number of oncogenic protein tyrosine kinases plus the rare presence of phosphotyrosine in nontransformed cells argue persuasively that tyrosine phosphorylation and activation of signaling molecules downstream from receptor tyrosine kinases are critical events in growth control and transformation and are, therefore, rational targets for anticancer molecular therapies. We will review some of the more recent treatment strategies in non-small cell and small cell lung cancer targeted to dysregulated signaling pathways that are causally associated with tumor maintenance and progression.
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PMID:Overview of rationale and clinical trials with signal transduction inhibitors in lung cancer. 1189 10

Preclinical studies have provided evidence that matrix metalloproteinases (MMPs), a family of zinc-containing proteolytic enzymes, facilitate tumor invasion, the establishment of metastases, and the promotion of tumor-related angiogenesis. Matrix metalloproteinase inhibitors (MMPIs) have been shown to inhibit tumor growth and dissemination in preclinical models. Not all lung cancers express the MMPs believed to be most important in promoting the neoplastic process, and there are conflicting reports regarding the prognostic significance of MMPs in lung cancer. However, it is possible that these observations are because of limitations in the procedures for measuring MMPs. Many investigators believe that MMPs are universally involved in tumor progression; this hypothesis was the basis for initiating seven phase III MMPI trials in lung cancer. Four studies were closed at completion of the predefined accrual goal, and three were closed early. There were no significant differences in survival in a non-small cell lung cancer prinomastat study, and in a small cell lung cancer marimastat trial. The results of the remaining five studies have not been reported. At this point it appears that MMPIs will probably not play a major role in the treatment of advanced lung cancer patients.
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PMID:Matrix metalloproteinases and matrix metalloproteinase inhibitors in lung cancer. 1189 17

In a series of 130 consecutive patients suffering from small cell lung cancer (SCLC), we compared response evaluations according to standard criteria of the WHO with response evaluations according to changes in the neuron-specific enolase (NSE) levels during systemic therapy. For assessment by changes in the marker levels, the difference between two consecutive levels must exceed 30%. This value is based on the formula: Dc = 2(square root 2) x CV (CV: inter-assay coefficient of variation of the NSE test, set at 10 %). Of the 130 patients who entered this study, 18 patients received best supportive care and were excluded from the therapy monitoring. In the remaining 112 patients, 502 evaluations for response to therapy by both methods were performed, ie. 4.5 observations per patient. We found a concordance between the response evaluations according to the marker criteria and the clinical assessment in 69.7 % of the observations when including cases with positive lead-time and those with a temporary drop in the NSE levels due to a short-term response to therapy. The latter cases met the criteria consistent with the clinical evaluations at the next observation. The concordance with the clinical response evaluation increased to 84.2% when considering only those changes in the NSE levels where at least one of the consecutive marker levels was in the pathological range (> 14.5 ng/ml). Most discordant results were due to insufficient changes in the NSE levels at clinical remission or progression. A further limitation to the general use of NSE for therapy monitoring was founded on the marker negativity throughout the follow-up period, despite tumor progression or relapse. Changes in the levels between pretreatment NSE and after the first cycle of chemotherapy were shown to provide prognostic information. Patients with a drop in the NSE levels proved to have a significantly better survival probability than those with unchanging or rising marker values (p = 0.004). It is concluded that in the majority of evaluations, changes in the NSE levels are consistent with clinical findings based on imaging techniques but remain of doubtful utility in an individualpatient. NSE measurement can only be recommended as an adjunct to the clinical assessment in the follow-up of SCLC patients.
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PMID:Comparison of changes in the NSE levels with clinical assessment in the therapy monitoring of patients with SCLC. 1216 5

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

Cell adhesion is a basic count in inter- and intracellular communication and plays an important role in tumor progression. In this study, the expression of E-selectin, ICAM-1 and VCAM-1 were evaluated by means of immunohistochemistry in a group of 153 lung cancer specimens. E-selectin immunoreactivity was localized mostly on endothelial cell venules and capillaries with an average staining intensity of 75% of cells in the NSCLC, while in SCLC the intensity of the staining was 69%. The staining pattern for ICAM-1 reached an average intensity of 57%, in both NSCLC and SCLC. Finally, VCAM-1 immunoreactivity was detected only in NSCLC with an average intensity of 12% on endothelial cell venules and capillaries. This study provides a contribution towards the understanding of the basic mechanisms of cell adhesion in lung cancer progression.
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PMID:Expression of surface protein receptors in lung cancer. 1255 29

The underlying molecular mechanisms leading to microsatellite alteration and mutations in human lung cancer remain unknown. Since Flap endonuclease1 (Fen1), which functions in the base excision repair system, has been shown to be involved in tumor progression of mouse models with microsatellite instability in a haplo-insufficient manner, we performed expression and mutation analyses for FEN1 in human lung cancer cell lines. Reverse transcriptase PCR analysis revealed that all 49 lung cancer cell lines (20 small cell lung cancers (SCLCs) and 29 non-small cell lung cancers (NSCLCs)) expressed FEN1. In addition, microarray analysis showed that FEN1 expression was elevated significantly by 1.65-fold (P=0.001) in SCLC cell lines compared to normal lung controls (normal human lung cultures and immortalized normal human bronchial epithelial cell lines). FEN1 protein was abundantly expressed in all 23 lung cancer cell lines (10 SCLCs and 13 NSCLCs) and was expressed at lower levels in three of four normal lung epithelial culture controls. Direct sequencing of genomic DNAs revealed no FEN1 mutation in seven SCLCs and nine NSCLCs. As part of this analysis we discovered and sequenced a FEN1 pseudogene (GenBank accession #AY249897) located at 1p22.2. This pseudogene is amplified from cDNA preparations contaminated with genomic DNA and must be taken into account in any FEN1 mutation analysis studies. Our results suggest that alterations of FEN1 are not likely to contribute to development of lung cancer.
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PMID:Increased expression and no mutation of the Flap endonuclease (FEN1) gene in human lung cancer. 1456 54

PS-341 (bortezomib) represents a new class of therapeutics that targets the ubiquitin-proteasome pathway. It has broad-spectrum single-agent anticancer activity and can potentiate chemotherapy and radiation in preclinical models. Early phase clinical studies have shown tolerability and activity in multiple myeloma, lymphoma, prostate cancer, and lung cancers. By its mechanism of inhibiting protein degradation, PS-341 targets a wide range of pathways relevant to tumor progression and therapy resistance and can directly modulate expression of cyclins, p27(Kip1), p53, nuclear factor-kappaB, Bcl-2, and Bax. PS-341 is currently in phase I/II clinical development in both non-small cell lung cancer and small cell lung cancer. This article will review the preclinical and clinical experience with PS-341 as it relates to lung cancer.
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PMID:Proteasome inhibition with PS-341 (bortezomib) in lung cancer therapy. 1498 79


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