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2. Pathology of Lung Cancer

Author

Wistuba, Ignacio I., Gazdar, Adi F., Syrigos, Konstantinos N., editor, Nutting, Christopher M., editor, and Roussos, Charis, editor

Published
2006
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20. Editorial: A risky business-identifying susceptibility loci for lung cancer

Author

Gazdar, A. F., Boffetta, P., Gazdar, A.F., and Boffetta, P.

Subjects
lung cancer, editorial, education, respiratory system, susceptibility loci, respiratory tract diseases
Abstract

Comment on Replication of lung cancer susceptibility loci at chromosomes 15q25, 5p15, and 6p21: a pooled analysis from the International Lung Cancer Consortium

Published
2010

21. Proportion of Never-Smoker Non-Small Cell Lung Cancer Patients at Three Diverse Institutions.

Author

Pelosof, Lorraine, Chul Ahn, Ang Gao, Horn, Leora, Madrigales, Alejandra, Cox, Joan, McGavic, Dauphne, Minna, John D., Gazdar, Adi F., Schiller, Joan, Ahn, Chul, and Gao, Ang

Subjects
LUNG cancer, PIPE smokers, INCURABLE diseases, REGRESSION analysis, MULTIVARIATE analysis
Abstract

Background: Approximately 10% to 15% of lung cancer cases in the United States occur in never smokers, but there has been much debate about whether this rate is increasing. To determine whether the proportion of never smokers among lung cancer cases is increasing, we conducted a retrospective study using registries from The University of Texas Southwestern Medical Center, Parkland Hospital, and Vanderbilt University.Methods: Registries were queried for demographic information from 1990 to 2013 including sex, age, stage, and self-reported smoking history. Ten thousand five hundred ninety-three non-small cell lung cancer (NSCLC) case patients and 1510 small cell lung cancer (SCLC) case patients were captured, and logistic regression analysis was performed. All statistical tests were two-sided.Results: The proportion of never-smoker NSCLC patients increased from 8.0% in the years 1990 to 1995 to 14.9% in 2011 to 2013 (P < .001). This increase was also observed using multivariable logistic regression after controlling for sex, stage at diagnosis, and race/ethnicity. The percentage of never smokers among SCLC case patients (1.5% in 1990-1995 to 2.5% in 2011-2013, P = .36) or squamous cell NSCLC case patients did not statistically significantly change during this period.Conclusions: This study demonstrates an increasing proportion of NSCLC patients who have never smoked in a large, diverse patient population between 1990 and 2013. Given that this increase appears independent of sex, stage, and race/ethnicity and also occurred in our county hospital, this trend is unlikely due to changes in referral patterns and suggests that the actual incidence of lung cancer in never smokers is increasing. [ABSTRACT FROM AUTHOR]

Published
2017
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22. Role of CPS1 in Cell Growth, Metabolism, and Prognosis in LKB1-Inactivated Lung Adenocarcinoma.

Author

Çeliktaş, Müge, Tanaka, Ichidai, Tripathi, Satyendra Chandra, Fahrmann, Johannes F., Aguilar-Bonavides, Clemente, Villalobos, Pamela, Delgado, Oliver, Dhillon, Dilsher, Dennison, Jennifer B., Ostrin, Edwin J., Hong Wang, Behrens, Carmen, Do, Kim-Anh, Gazdar, Adi F., Hanash, Samir M., Taguchi, Ayumu, Chandra Tripathi, Satyendra, and Wang, Hong

Subjects
LUNG cancer, TUMOR suppressor proteins, GROWTH factors, CELL lines, CARBAMOYL phosphate synthase, GENETIC overexpression
Abstract

Background: Liver kinase B1 (LKB1) is a tumor suppressor in lung adenocarcinoma (LADC). We investigated the proteomic profiles of 45 LADC cell lines with and without LKB1 inactivation. Carbamoyl phosphate synthetase 1 (CPS1), the first rate-limiting mitochondrial enzyme in the urea cycle, was distinctively overexpressed in LKB1-inactivated LADC cell lines. We therefore assessed the role of CPS1 and its clinical relevance in LKB1-inactivated LADC.Methods: Mass spectrometric profiling of proteome and metabolome and function of CPS1 were analyzed in LADC cell lines. CPS1 and LKB1 expression in tumors from 305 LADC and 160 lung squamous cell carcinoma patients was evaluated by immunohistochemistry. Kaplan-Meier and Cox regression analyses were applied to assess the association between overall survival and CPS1 and LKB1 expression. All statistical tests were two-sided.Results: CPS1 knockdown reduced cell growth, decreased metabolite levels associated with nucleic acid biosynthesis pathway, and contributed an additive effect when combined with gemcitabine, pemetrexed, or CHK1 inhibitor AZD7762. Tissue microarray analysis revealed that CPS1 was expressed in 65.7% of LKB1-negative LADC, and only 5.0% of LKB1-positive LADC. CPS1 expression showed statistically significant association with poor overall survival in LADC (hazard ratio = 3.03, 95% confidence interval = 1.74 to 5.25, P < .001).Conclusions: Our findings suggest functional relevance of CPS1 in LKB1-inactivated LADC and association with worse outcome of LADC. CPS1 is a promising therapeutic target in combination with other chemotherapy agents, as well as a prognostic biomarker, enabling a personalized approach to treatment of LADC. [ABSTRACT FROM AUTHOR]

Published
2017
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23. Lung cancer. 9: Molecular biology of lung cancer: clinical implications.

Author

Fong K M, Sekido Y, Gazdar A F, Minna J D, Fong, K M, Sekido, Y, Gazdar, A F, and Minna, J D

Subjects
LUNG cancer, EPIGENESIS, ONCOGENES, TUMOR suppressor genes, APOPTOSIS, CANCER invasiveness, COMPARATIVE studies, GROWTH factors, LUNG tumors, RESEARCH methodology, MEDICAL cooperation, METASTASIS, MOLECULAR biology, RESEARCH, TRANSFERASES, EVALUATION research, DNA methylation, PATHOLOGIC neovascularization
Abstract

It has been hypothesised that clinically evident lung cancers have accumulated many different genetic or epigenetic abnormalities in oncogenes and/or tumour suppressor genes. This notion has important clinical ramifications. Recent developments in our knowledge of the molecular biology of lung cancer are reviewed, with particular reference to genetic abnormalities in tumour suppressor gene inactivation and overactivity of growth promoting oncogenes. These changes lead to the "hallmarks of lung cancer". These hallmarks are the new rational targets for early detection, prevention, and treatment of lung cancer. [ABSTRACT FROM AUTHOR]

Published
2003
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24. Microtubule affinity-regulating kinase 2 is associated with DNA damage response and cisplatin resistance in non-small cell lung cancer.

Author

Hubaux, Roland, Thu, Kelsie L., Vucic, Emily A., Pikor, Larissa A., Kung, Sonia H.Y., Martinez, Victor D., Mosslemi, Mitra, Becker‐Santos, Daiana D., Gazdar, Adi F., Lam, Stephen, and Lam, Wan L.

Abstract

Microtubule affinity-regulating kinases (MARKs) are involved in several cellular functions but few studies have correlated MARK kinase expression with cancer, and none have explored their role in lung cancer. In this study, we identified MARK2 as frequently disrupted by DNA hypomethylation and copy gain, resulting in concordant overexpression in independent lung tumor cohorts and we demonstrate a role for MARK2 in lung tumor biology. Manipulation of MARK2 in lung cell lines revealed its involvement in cell viability and anchorage-independent growth. Analyses of both manipulated cell lines and clinical tumor specimens identified a potential role for MARK2 in cell cycle activation and DNA repair. Associations between MARK2 and the E2F, Myc/Max and NF-κB pathways were identified by luciferase assays and in-depth assessment of the NF-κB pathway suggests a negative association between MARK2 expression and NF-κB due to activation of non-canonical NF-κB signaling. Finally, we show that high MARK2 expression levels correlate with resistance to cisplatin, a standard first line chemotherapy for lung cancer. Collectively, our work supports a role for MARK2 in promoting malignant phenotypes of lung cancer and potentially modulating response to the DNA damaging chemotherapeutic, cisplatin. [ABSTRACT FROM AUTHOR]

Published
2015
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25. Tumor cell lines established in vitro: an independent prognostic factor for survival in non-small-cell lung cancer.

Author

Stevenson, Henry, Gazdar, Adi F., Phelps, Ruby, Linnoila, R. Ilona, Ihde, Daniel C., Ghosh, Bimal, Walsh, Thomas, Woods, Edward L., Oie, Herbert, O'Connor, Teresa, Makuch, Robert, Kramer, Barnett S., Mulshine, James L., Stevenson, H, Gazdar, A F, Phelps, R, Linnoila, R I, Ihde, D C, Ghosh, B, and Walsh, T

Subjects
*CANCER cell proliferation, *LUNG cancer, *LUNG cancer treatment, *TREATMENT of lung tumors, *ANALYSIS of variance, *CELL physiology, *COMPARATIVE studies, *LACTATE dehydrogenase, *LONGITUDINAL method, *LUNG tumors, *RESEARCH methodology, *MEDICAL cooperation, *METASTASIS, *PALLIATIVE treatment, *PROGNOSIS, *RESEARCH, *STATISTICS, *SURVIVAL, *EVALUATION research, *CANCER cell culture
Abstract

Objective: To determine the relation between in-vitro establishment of tumor cell lines and survival in patients with non-small-cell lung cancer.Design: Cohort study.Setting: Single-institution tertiary care center.Patients: One hundred twenty-three consecutive patients with non-small-cell lung cancer from whom a viable tumor specimen could be obtained.Intervention: Tumor tissue was removed at the time of entry into a therapeutic protocol. The tumor tissue was processed in the laboratory for attempted cell-line establishment. Patients classified as potentially curable (stages I, II, and IIIA) were treated with surgical resection, radiation therapy, or a combination. Patients suitable for palliative therapy only (stages IIIB and IV) were treated with radiation therapy with or without chemotherapy. Chemotherapy was based on in-vitro drug sensitivity when available. Cell-line establishment was correlated to clinical outcome.Measurements and Main Results: Univariate analysis of survival was done using the log-rank test; multivariate analysis was done by Cox modeling step-up and step-down techniques. Cell lines were established from the tumor specimens of 25 patients (20%). Those patients experienced a median survival of 7 months compared with 18 months in patients from whom cell lines could not be established (P less than 0.001). In the 61 patients with potentially curable disease, 8 patients (13%) with cell lines established had a median survival of 8 months compared with 32 months for those without cell lines established (P = 0.001). In the 62 palliative group patients, the median survival of the 17 patients (27%) from whom tumor cell lines were established was 5 months compared with 7 months for those without cell lines (P = 0.15). Multivariate analysis in both groups showed cell-line establishment to be a significant indicator of prognosis (P less than 0.0001 for curable group; P less than 0.01 for palliative group).Conclusion: In-vitro tumor growth is related to decreased patient survival, which in turn reflects the biologic aggressiveness of cancers giving rise to these tumor cell lines. [ABSTRACT FROM AUTHOR]

Published
1990
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26. miR-337-3p and Its Targets STAT3 and RAP1A Modulate Taxane Sensitivity in Non-Small Cell Lung Cancers.

Author

Du, Liqin, Subauste, Maria C., DeSevo, Christopher, Zhao, Zhenze, Baker, Michael, Borkowski, Robert, Schageman, Jeoffrey J., Greer, Rachel, Yang, Chin-Rang, Suraokar, Milind, Wistuba, Ignacio I., Gazdar, Adi F., Minna, John D., and Pertsemlidis, Alexander

Subjects
LUNG cancer, MESSENGER RNA, CANCER cells, TAXANES, PACLITAXEL, BIOMARKERS
Abstract

NSCLC (non-small cell lung cancer) often exhibits resistance to paclitaxel treatment. Identifying the elements regulating paclitaxel response will advance efforts to overcome such resistance in NSCLC therapy. Using in vitro approaches, we demonstrated that over-expression of the microRNA miR-337-3p sensitizes NCI-H1155 cells to paclitaxel, and that miR-337- 3p mimic has a general effect on paclitaxel response in NSCLC cell lines, which may provide a novel adjuvant strategy to paclitaxel in the treatment of lung cancer. By combining in vitro and in silico approaches, we identified STAT3 and RAP1A as direct targets that mediate the effect of miR-337-3p on paclitaxel sensitivity. Further investigation showed that miR-337-3p mimic also sensitizes cells to docetaxel, another member of the taxane family, and that STAT3 levels are significantly correlated with taxane resistance in lung cancer cell lines, suggesting that endogenous STAT3 expression is a determinant of intrinsic taxane resistance in lung cancer. The identification of a miR-337-3p as a modulator of cellular response to taxanes, and STAT3 and RAP1A as regulatory targets which mediate that response, defines a novel regulatory pathway modulating paclitaxel sensitivity in lung cancer cells, which may provide novel adjuvant strategies along with paclitaxel in the treatment of lung cancer and may also provide biomarkers for predicting paclitaxel response in NSCLC. [ABSTRACT FROM AUTHOR]

Published
2012
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27. Mitochondrial DNA mutations in respiratory complex-I in never-smoker lung cancer patients contribute to lung cancer progression and associated with EGFR gene mutation.

Author

Dasgupta, Santanu, Soudry, Ethan, Mukhopadhyay, Nitai, Shao, Chunbo, Yee, John, Lam, Stephan, Lam, Wan, Zhang, Wei, Gazdar, Adi F, Fisher, Paul B, and Sidransky, David

Subjects
MITOCHONDRIAL DNA, GENETIC mutation, LUNG cancer, CANCER invasiveness, CIGARETTE smokers, EPIDERMAL growth factor receptors, DISEASE prevalence
Abstract

Mitochondrial DNA (mtDNA) mutations were reported in different cancers. However, the nature and role of mtDNA mutation in never-smoker lung cancer patients including patients with epidermal growth factor receptor ( EGFR) and KRAS gene mutation are unknown. In the present study, we sequenced entire mitochondrial genome (16.5 kb) in matched normal and tumors obtained from 30 never-smoker and 30 current-smoker lung cancer patients, and determined the mtDNA content. All the patients' samples were sequenced for KRAS (exon 2) and EGFR (exon 19 and 21) gene mutation. The impact of forced overexpression of a respiratory complex-I gene mutation was evaluated in a lung cancer cell line. We observed significantly higher ( P = 0.006) mtDNA mutation in the never-smokers compared to the current-smoker lung cancer patients. MtDNA mutation was significantly higher ( P = 0.026) in the never-smoker Asian compared to the current-smoker Caucasian patients' population. MtDNA mutation was significantly ( P = 0.007) associated with EGFR gene mutation in the never-smoker patients. We also observed a significant increase ( P = 0.037) in mtDNA content among the never-smoker lung cancer patients. The majority of the coding mtDNA mutations targeted respiratory complex-I and forced overexpression of one of these mutations resulted in increased in vitro proliferation, invasion, and superoxide production in lung cancer cells. We observed a higher prevalence and new relationship between mtDNA alterations among never-smoker lung cancer patients and EGFR gene mutation. Moreover, a representative mutation produced strong growth effects after forced overexpression in lung cancer cells. Signature mtDNA mutations provide a basis to develop novel biomarkers and therapeutic strategies for never-smoker lung cancer patients. J. Cell. Physiol. 227: 2451-2460, 2012. © 2011 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published
2012
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28. Divergent Genomic and Epigenomic Landscapes of Lung Cancer Subtypes Underscore the Selection of Different Oncogenic Pathways during Tumor Development.

Author

Lockwood, William W., Wilson, Ian M., Coe, Bradley P., Chari, Raj, Pikor, Larissa A., Thu, Kelsie L., Solis, Luisa M., Nunez, Maria I., Behrens, Carmen, Yee, John, English, John, Murray, Nevin, Tsao, Ming-Sound, Minna, John D., Gazdar, Adi F., Wistuba, Ignacio I., MacAulay, Calum E., Lam, Stephen, and Lam, Wan L.

Subjects
GENOMICS, LUNG cancer, TUMORS, ADENOCARCINOMA, DNA, ENZYMES
Abstract

For therapeutic purposes, non-small cell lung cancer (NSCLC) has traditionally been regarded as a single disease. However, recent evidence suggest that the two major subtypes of NSCLC, adenocarcinoma (AC) and squamous cell carcinoma (SqCC) respond differently to both molecular targeted and new generation chemotherapies. Therefore, identifying the molecular differences between these tumor types may impact novel treatment strategy. We performed the first large-scale analysis of 261 primary NSCLC tumors (169 AC and 92 SqCC), integrating genome-wide DNA copy number, methylation and gene expression profiles to identify subtype-specific molecular alterations relevant to new agent design and choice of therapy. Comparison of AC and SqCC genomic and epigenomic landscapes revealed 778 altered genes with corresponding expression changes that are selected during tumor development in a subtype-specific manner. Analysis of >200 additional NSCLCs confirmed that these genes are responsible for driving the differential development and resulting phenotypes of AC and SqCC. Importantly, we identified key oncogenic pathways disrupted in each subtype that likely serve as the basis for their differential tumor biology and clinical outcomes. Downregulation of HNF4a target genes was the most common pathway specific to AC, while SqCC demonstrated disruption of numerous histone modifying enzymes as well as the transcription factor E2F1. In silico screening of candidate therapeutic compounds using subtype-specific pathway components identified HDAC and PI3K inhibitors as potential treatments tailored to lung SqCC. Together, our findings suggest that AC and SqCC develop through distinct pathogenetic pathways that have significant implication in our approach to the clinical management of NSCLC. [ABSTRACT FROM AUTHOR]

Published
2012
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29. Lung Adenocarcinoma of Never Smokers and Smokers Harbor Differential Regions of Genetic Alteration and Exhibit Different Levels of Genomic Instability.

Author

Thu, Kelsie L., Vucic, Emily A., Chari, Raj, Zhang, Wei, Lockwood, William W., English, John C., Rong Fu, Pei Wang, Feng, Ziding, MacAulay, Calum E., Gazdar, Adi F., Lam, Stephen, and Lam, Wan L.

Subjects
LUNG cancer, CIGARETTE smokers, GENETICS, GENOMICS, GENETIC mutation
Abstract

Recent evidence suggests that the observed clinical distinctions between lung tumors in smokers and never smokers (NS) extend beyond specific gene mutations, such as EGFR, EML4-ALK, and KRAS, some of which have been translated into targeted therapies. However, the molecular alterations identified thus far cannot explain all of the clinical and biological disparities observed in lung tumors of NS and smokers. To this end, we performed an unbiased genome-wide, comparative study to identify novel genomic aberrations that differ between smokers and NS. High resolution whole genome DNA copy number profiling of 69 lung adenocarcinomas from smokers (n = 39) and NS (n = 30) revealed both global and regional disparities in the tumor genomes of these two groups. We found that NS lung tumors had a greater proportion of their genomes altered than those of smokers. Moreover, copy number gains on chromosomes 5q, 7p, and 16p occurred more frequently in NS. We validated our findings in two independently generated public datasets. Our findings provide a novel line of evidence distinguishing genetic differences between smoker and NS lung tumors, namely, that the extent of segmental genomic alterations is greater in NS tumors. Collectively, our findings provide evidence that these lung tumors are globally and genetically different, which implies they are likely driven by distinct molecular mechanisms. [ABSTRACT FROM AUTHOR]

Published
2012
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30. Preneoplasia of lung cancer.

Author

Srivastava, Sudhir, Grizzle, William E., Gazdar, Adi F., and Brambilla, Elisabeth

Subjects
PRECANCEROUS conditions, LUNG cancer, SQUAMOUS cell carcinoma, ADENOCARCINOMA, TUMOR suppressor genes, APOPTOSIS, TELOMERASE, NEOVASCULARIZATION
Abstract

As with other epithelial cancers, lung cancer develops over a period of several years or decades via a series of progressive morphological changes accompanied by molecular alterations that commence in histologically normal epithelium. However the development of lung cancer presents certain unique features that complicates this evaluation. Anatomically the respiratory tree may be divided into central and peripheral compartments having different gross and histological anatomies as well as different functions. In addition, there are three major forms of lung cancer and many minor forms. Many of these forms arise predominantly in either the central or peripheral compartments. Squamous cell and small cell carcinomas predominantly arise in the central compartment, while adenocarcinomas predominantly arise peripherally. Large cell carcinomas are not a single entity but consist of poorly differentiated forms of the other types and, possibly, some truly undifferentiated "stem cell like" tumors. The multistage origin of squamous cell carcinomas, because of their central location, can be followed more closely than the peripherally arising adenocarcinomas. Squamous cell carcinomas arise after a series of reactive, metaplastic, premalignant and preinvasive changes. However, long term observations indicate that not all tumors follow a defined histologic course, and the clinical course, especially of early lesions, is difficult to predict. Peripheral adenocarcinomas are believed to arise from precursor lesions known as atypical adenomatous hyperplasias and may have extensive in situ growth before becoming invasive. Small cell carcinomas are believed to arise from severely molecularly damaged epithelium without going through recognizable preneoplastic changes. The molecular changes that occur prior to the onset on invasive cancers are extensive. As documented in this chapter, they encompass all of the six classic Hallmarks of Cancer other than invasion and metastasis, which by definition occur beyond preneoplasia. A study of preinvasive lung cancer has yielded much valuable biologic information that impacts on clinical management. [ABSTRACT FROM AUTHOR]

Published
2011

32. Lung Cancer Cell Lines as Tools for Biomedical Discovery and Research.

Author

Gazdar, Adi F., Girard, Luc, Lockwood, William W., Lam, Wan L., and Minna, John D.

Subjects
*LUNG cancer, *CANCER cells, *CELL lines, *MEDICINE, *BIOMEDICAL materials
Abstract

Lung cancer cell lines have made a substantial contribution to lung cancer translational research and biomedical discovery. A systematic approach to initiating and characterizing cell lines from small cell and non–small cell lung carcinomas has led to the current collection of more than 200 lung cancer cell lines, a number that exceeds those for other common epithelial cancers combined. The ready availability and widespread dissemination of the lines to investigators worldwide have resulted in more than 9000 citations, including multiple examples of important biomedical discoveries. The high (but not perfect) genomic similarities between lung cancer cell lines and the lung tumor type from which they were derived provide evidence of the relevance of their use. However, major problems including misidentification or cell line contamination remain. Ongoing studies and new approaches are expected to reveal the full potential of the lung cancer cell line panel. [ABSTRACT FROM PUBLISHER]

Published
2010
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33. A Risky Business—Identifying Susceptibility Loci for Lung Cancer.

Author

Gazdar, Adi F. and Boffetta, Paolo

Subjects
*LUNG cancer, *NUCLEOTIDES, *GENOMES, *LUNG diseases, *CANCER
Abstract

In this article, the author comments on a study published within the issue which identified lung cancer susceptibility loci. As stated, researchers of the study examined six tag single-nucleotide polymorphisms (SNP) in lung cancer case and control subjects. Accordingly, the author contends that the study findings highlighted key points that can be gleaned from genome-wide association studies, particularly in relation to lung cancer.

Published
2010
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34. Lung cancer cell lines: Useless artifacts or invaluable tools for medical science?

Author

Gazdar, Adi F., Gao, Boning, and Minna, John D.

Subjects
*LUNG cancer & genetics, *CELL lines, *MEDICAL sciences, *CELL culture, *TUMOR suppressor genes, *CARCINOGENESIS, *GENETIC mutation, *CELL differentiation
Abstract

Abstract: Multiple cell lines (estimated at 300–400) have been established from human small cell (SCLC) and non-small cell lung cancers (NSCLC). These cell lines have been widely dispersed to and used by the scientific community worldwide, with over 8000 citations resulting from their study. However, there remains considerable skepticism on the part of the scientific community as to the validity of research resulting from their use. These questions center around the genomic instability of cultured cells, lack of differentiation of cultured cells and absence of stromal–vascular–inflammatory cell compartments. In this report we discuss the advantages and disadvantages of the use of cell lines, address the issues of instability and lack of differentiation. Perhaps the most important finding is that every important, recurrent genetic and epigenetic change including gene mutations, deletions, amplifications, translocations and methylation-induced gene silencing found in tumors has been identified in cell lines and vice versa. These “driver mutations” represented in cell lines offer opportunities for biological characterization and application to translational research. Another potential shortcoming of cell lines is the difficulty of studying multistage pathogenesis in vitro. To overcome this problem, we have developed cultures from central and peripheral airways that serve as models for the multistage pathogenesis of tumors arising in these two very different compartments. Finally the issue of cell line contamination must be addressed and safeguarded against. A full understanding of the advantages and shortcomings of cell lines is required for the investigator to derive the maximum benefit from their use. [Copyright &y& Elsevier]

Published
2010
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35. Lung cancer in never smokers--a different disease.

Author

Sun, Sophie, Schiller, Joan H., and Gazdar, Adi F.

Subjects
LUNG cancer, CIGARETTE smokers, SMOKING, TOBACCO use, EPIDEMIOLOGY, ETIOLOGY of diseases, PATHOLOGY
Abstract

Although most lung cancers are a result of smoking, approximately 25% of lung cancer cases worldwide are not attributable to tobacco use, accounting for over 300,000 deaths each year. Striking differences in the epidemiological, clinical and molecular characteristics of lung cancers arising in never smokers versus smokers have been identified, suggesting that they are separate entities. This Review summarizes our current knowledge of this unique and poorly understood disease. [ABSTRACT FROM AUTHOR]

Published
2007
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36. Chromosome 19 translocation, overexpression of Notch3, and human lung cancer.

Author

Dang, Thao P., Gazdar, Adi F., Dang, T P, Gazdar, A F, Virmani, A K, Sepetavec, T, Hande, K R, Minna, J D, Roberts, J R, and Carbone, D P

Subjects
*CHROMOSOMAL translocation, *LUNG cancer, *GENE expression
Abstract

Examines chromosomal translocation caused by genetic overexpression in human lung cancer. Genetic abnormalities in lung carcinomas; Function of Nothch3, a mammalian homologue of the Drosophila Notch receptor; Identification of somatically acquired translocation; Implication of Notch3 overexpression for the karyotypic abnormalities of chromosome 19.

Published
2000
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37. A Genome-Wide Screen for Promoter Methylation in Lung Cancer Identifies Novel Methylation Markers for Multiple Malignancies.

Author

Shames, David S., Girard, Luc, Boning Gao, Sato, Mitsuo, Lewis, Cheryl M., Shivapurkar, Narayan, Aixiang Jiang, Perou, Charles M., Kim, Young H., Pollack, Jonathan R., Fong, Kwun M., Chi-Leung Lam, Wong, Maria, Yu Shyr, Nanda, Rita, Olopade, Olufunmilayo I., Gerald, William, Euhus, David M., Shay, Jerry W., and Gazdar, Adi F.

Subjects
TUMORS, CANCER cells, METHYLATION, LUNG cancer, BREAST cancer, COLON cancer, CELL lines, GENE expression
Abstract

Background Promoter hypermethylation coupled with loss of heterozygosity at the same locus results in loss of gene function in many tumor cells. The ‘rules’ governing which genes are methylated during the pathogenesis of individual cancers, how specific methylation profiles are initially established, or what determines tumor type-specific methylation are unknown. However, DNA methylation markers that are highly specific and sensitive for common tumors would be useful for the early detection of cancer, and those required for the malignant phenotype would identify pathways important as therapeutic targets. Methods and Findings In an effort to identify new cancer-specific methylation markers,we employed a high-throughput global expression profiling approach in lung cancer cells. We identified 132 genes that have 59 CpG islands, are induced from undetectable levels by 5-aza-29-deoxycytidine in multiple non-small cell lung cancer cell lines, and are expressed in immortalized human bronchial epithelial cells. As expected, these geneswere also expressed in normal lung,but often not in companion primary lung cancers. Methylation analysis of a subset (45/132) of these promoter regions in primary lung cancer (n=20) and adjacent nonmalignant tissue (n=20) showed that 31 genes had acquired methylation in the tumors, but did not show methylation in normal lung or peripheral blood cells. We studied the eight most frequently and specifically methylated genes from our lung cancer dataset in breast cancer (n = 37), colon cancer (n = 24), and prostate cancer (n = 24) along with counterpart nonmalignant tissues. We found that seven loci were frequently methylated in both breast and lung cancers, with four showing extensive methylation in all four epithelial tumors. Conclusions By using a systematic biological screen we identified multiple genes that are methylated with high penetrance in primary lung, breast, colon, and prostate cancers. The cross-tumor methylation pattern we observed for these novel markers suggests that we have identified a partial promoter hypermethylation signature for these common malignancies. These data suggest that while tumors in different tissues vary substantially with respect to gene expression, there may be commonalities in their promoter methylation profiles that represent targets for early detection screening or therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published
2006
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38. Differential disruption of cell cycle pathways in small cell and non-small cell lung cancer.

Author

Coe, B. P., Lockwood, W. W., Girard, L., Chari, R., MacAulay, C., Lam, S., Gazdar, A. F., Minna, J. D., and Lam, W. L.

Subjects
LUNG cancer, SMALL cell lung cancer, GENE expression, GENETIC regulation, GENES, CELL cycle, CELL lines, COMPARATIVE studies, FACTOR analysis, LUNG tumors, RESEARCH methodology, MEDICAL cooperation, NUCLEIC acid hybridization, ONCOGENES, POLYMERASE chain reaction, RESEARCH, EVALUATION research, REVERSE transcriptase polymerase chain reaction, SMALL cell carcinoma, GENE expression profiling, GENOTYPES
Abstract

Lung cancer is the leading cause of cancer-related mortality in the world, with small cell lung cancer (SCLC) and non-small cell lung cancer (NSCLC) comprising the two major cell types. Although these cell types can be distinguished readily at the histological level, knowledge of their underlying molecular differences is very limited. In this study, we compared 14 SCLC cell lines against 27 NSCLC cell lines using an integrated array comparative genomic hybridisation and gene expression profiling approach to identify subtype-specific disruptions. Using stringent criteria, we have identified 159 of the genes that are responsible for the different biology of these cell types. Sorting of these genes by their biological functions revealed the differential disruption of key components involved in cell cycle pathways. Our novel comparative combined genome and transcriptome analysis not only identified differentially altered genes, but also revealed that certain shared pathways are preferentially disrupted at different steps in these cell types. Small cell lung cancer exhibited increased expression of MRP5, activation of Wnt pathway inhibitors, and upregulation of p38 MAPK activating genes, while NSCLC showed downregulation of CDKN2A, and upregulation of MAPK9 and EGFR. This information suggests that cell cycle upregulation in SCLC and NSCLC occurs through drastically different mechanisms, highlighting the need for differential molecular target selection in the treatment of these cancers. [ABSTRACT FROM AUTHOR]

Published
2006
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39. Epidermal growth factor receptor expression status in lung cancer correlates with its mutation.

Author

Suzuki, Makoto, Shigematsu, Hisayuki, Hiroshima, Kenzo, Iizasa, Toshihiko, Nakatani, Yukio, Minna, John D., Gazdar, Adi F., and Fujisawa, Takehiko

Subjects
LUNG cancer, GENETIC mutation, GROWTH factors, PROTEIN-tyrosine kinases
Abstract

Summary: The molecular mechanisms for frequent epidermal growth factor receptor (EGFR, a tyrosine kinase [TK]) and HER2 (the preferred coreceptor of EGFR) overexpression in lung cancer are poorly understood. Recent studies have shown the mutations of the TK domain in EGFR and HER2 to be present in lung cancer. The purpose of this study was to investigate the relationship between mutation status and expression of EGFR and HER2 in lung cancer. Immunostaining took place for EGFR and HER2, and mutational analyses for EGFR, HER2, and KRAS (a signaling protein) were conducted using 130 resected lung cancer specimens. Thirty-seven EGFR mutations (28%) and 8 HER2 mutations (6%), both of the TK domains, and 5 KRAS (4%) mutations were found, whereas 73 (56%) EGFR and 47 (36%) HER2 overexpressions were found. EGFR overexpression was seen more frequently in tumors with EGFR mutation (28/37, 76%) than in tumors without EGFR mutations (45/93, 48%; P = .0059). No correlation was found between HER2 mutation and HER2 expression. Multivariate regression revealed that EGFR mutation, adenocarcinoma histology, and HER2 expression were associated with EGFR expression, whereas female sex, EGFR mutation, and EGFR expression were associated with HER2 expression. In conclusion, EGFR and HER2 overexpression is frequent in lung cancer, and EGFR overexpression correlates with the EGFR TK domain mutations. [Copyright &y& Elsevier]

Published
2005
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40. Aberrant methylation of SPARC in human lung cancers.

Author

Suzuki, M., Hao, C., Takahashi, T., Shigematsu, H., Shivapurkar, N., Sathyanarayana, U. G., Iizasa, T., Fujisawa, T., Hiroshima, K., and Gazdar, A. F.

Subjects
LUNG cancer, GLYCOPROTEINS, METHYLATION, GLYCOCONJUGATES, LUNG tumors, GENE expression, ADENOCARCINOMA, CELL lines, COMPARATIVE studies, DNA, DNA probes, GENES, RESEARCH methodology, MEDICAL cooperation, NUCLEOTIDES, POLYMERASE chain reaction, RESEARCH, RESEARCH funding, RNA, SURVIVAL analysis (Biometry), EVALUATION research, REVERSE transcriptase polymerase chain reaction, DNA methylation
Abstract

SPARC (secreted protein acidic and rich in cysteine) is an extracellular Ca2+-binding matricellular glycoprotein associated with the regulation of cell adhesion and growth. We investigated loss of expression of SPARC gene and promoter methylation in lung cancers and correlated the data with clinicopathological features. We observed loss of SPARC expression in 12 of 20 (60%) lung cancer cell lines. Treatment of expression-negative cell lines with a demethylating agent restored expression in all cases. Methylation frequencies of SPARC gene were 55% in 20 lung cancer cell lines. Primary tumours had methylation at a rate of 69% (119 of 173), while nonmalignant lung tissues (n=60) had very low rates (3%). In lung adenocarcinomas, SPARC methylation correlated with a negative prognosis (P=0.0021; relative risk 4.65, 95% confidence interval 1.75-12.35, multivariate Cox's proportional-hazard model). Immunostaining revealed protein expression in bronchial epithelium (weak intensity) and in juxtatumoral stromal tissues (strong intensity) accompanied by frequent loss in cancer cells that correlated with the presence of methylation (P<0.001). Our findings are of biological interest and potentially of clinical importance in human lung cancers. [ABSTRACT FROM AUTHOR]

Published
2005
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41. Clinical and biological features associated with epidermal growth factor receptor gene mutations in lung cancers.

Author

Shigematsu, Hisayuki, Li Len, Takahashi, Takao, Nomura, Masaharu, Suzuki, Makoto, Wistuba, Ignacio I., Fong, Kwun M., Huei Lee, Toyooka, Shinichi, Shimizu, Nobuyoshi, Fujisawa, Takehiko, Ziding Feng, Roth, Jack A., Herz, Joachim, Minna, John D., Gazdar, Adi F., Lin, Li, Lee, Huei, and Feng, Ziding

Subjects
LUNG cancer, EPIDERMAL growth factor, GENETIC mutation, PROTEIN-tyrosine kinases, TUMORS
Abstract

Background: Mutations in the tyrosine kinase (TK) domain of the epidermal growth factor receptor (EGFR) gene in lung cancers are associated with increased sensitivity of these cancers to drugs that inhibit EGFR kinase activity. However, the role of such mutations in the pathogenesis of lung cancers is unclear.Methods: We sequenced exons 18-21 of the EGFR TK domain from genomic DNA isolated from 617 non-small-cell lung cancers (NSCLCs) and 524 normal lung tissue samples from the same patients and 36 neuroendocrine lung tumors collected from patients in Japan, Taiwan, the United States, and Australia and from 243 other epithelial cancers. Mutation status was compared with clinicopathologic features and with the presence of mutations in KRAS, a gene in the EGFR signaling pathway that is also frequently mutated in lung cancers. All statistical tests were two sided.Results: We detected a total of 134 EGFR TK domain mutations in 130 (21%) of the 617 NSCLCs but not in any of the other carcinomas, nor in nonmalignant lung tissue from the same patients. In NSCLC patients, EGFR TK domain mutations were statistically significantly more frequent in never smokers than ever smokers (51% versus 10%), in adenocarcinomas versus cancer of other histologies (40% versus 3%), in patients of East Asian ethnicity versus other ethnicities (30% versus 8%), and in females versus males (42% versus 14%; all P < .001). EGFR TK domain mutation status was not associated with patient age at diagnosis, clinical stage, the presence of bronchioloalveolar histologic features, or overall survival. The EGFR TK domain mutations we detected were of three common types: in-frame deletions in exon 19, single missense mutations in exon 21, and in-frame duplications/insertions in exon 20. Rare missense mutations were also detected in exons 18, 20, and 21. KRAS gene mutations were present in 50 (8%) of the 617 NSCLCs but not in any tumors with an EGFR TK domain mutation.Conclusions: Mutations in either the EGFR TK domain or the KRAS gene can lead to lung cancer pathogenesis. EGFR TK domain mutations are the first molecular change known to occur specifically in never smokers. [ABSTRACT FROM AUTHOR]

Published
2005
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42. Mutations and addiction to EGFR: the Achilles ‘heal’ of lung cancers?

Author

Gazdar, Adi F., Shigematsu, Hisayuki, Herz, Joachim, and Minna, John D.

Subjects
*GROWTH factors, *LUNG cancer, *ADENOCARCINOMA, *CANCER cells, *EPIDERMAL growth factor, *PROTEIN-tyrosine kinases, *GENETIC mutation, *THERAPEUTICS
Abstract

The epidermal growth factor receptor (EGFR) gene product is a receptor tyrosine kinase (TK) that affects many important downstream pathways. The recent finding that mutations in EGFR predict the response of lung cancers to therapies that target the TK domain of the gene product has generated considerable interest. The mutations are associated with adenocarcinoma histology, oriental origin, female gender and never-smoker status. Most mutations target structures in the TK domain that appear to be essential for the phosphorylation function of the gene. Cancer cells with mutant EGFR genes might become physiologically dependent on the continued activity of the gene for the maintenance of their malignant phenotype; however, this might also be a target for therapy. [Copyright &y& Elsevier]

Published
2004
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43. The relationship between aberrant methylation and survival in non-small-cell lung cancers.

Author

Toyooka, S., Suzuki, M., Maruyama, R., Toyooka, K. O., Tsukuda, K., Fukuyama, Y., T. Iizasa, Aoe, M., Date, H., Fujisawa, T., Shimizu, N., Gazdar, A. F., and Iizasa, T

Subjects
METHYLATION, ALKYLATION, LUNG cancer, GENES, CANCER patients, ADENOCARCINOMA, DNA metabolism, COMPARATIVE studies, LUNG tumors, RESEARCH methodology, MEDICAL cooperation, ONCOGENES, RESEARCH, SURVIVAL analysis (Biometry), EVALUATION research, RETROSPECTIVE studies, DNA methylation
Abstract

The present study examined the relationship between methylation of five genes (p16(INK4a), RASSF1A, APC, RARbeta and CDH13) and patient survival in 351 cases of surgically resected lung cancers. While there was no relationship between the other genes and survival, p16(INK4a) methylation was significantly related to unfavourable prognosis in lung adenocarcinomas. [ABSTRACT FROM AUTHOR]

Published
2004
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44. Molecular targets for cancer therapy and prevention.

Author

Gazdar, Adi F., Miyajima, Kuniharu, Reddy, Jyotsna, Sathyanarayana, Ubaradka G., Shigetmatsu, Hisayuki, Suzuki, Makoto, Takashi, Takao, Shivapurkar, Narayan, Shigematsu, Hisayuki, and Takahashi, Takao

Subjects
*LUNG cancer, *PROGNOSIS, *CANCER diagnosis, *RETINOIDS, *CYCLOOXYGENASE 2, *CELLULAR signal transduction, *CANCER invasiveness, *GROWTH factors, *ISOENZYMES, *LUNG tumors, *MEMBRANE proteins, *METASTASIS, *MOLECULAR biology, *OXIDOREDUCTASES, *PROTEIN-tyrosine kinases, *RNA, *TRETINOIN, *CHEMICAL inhibitors, *PREVENTION
Abstract

Despite major improvements in patient management, the prognosis for patients with lung cancer remains dismal. As our knowledge of the molecular biology of cancers has increased, new targets for therapeutic interventions have been identified. In this article, we discuss some of the more recent developments in this field. They include revisiting some of the established concepts, such as retinoid metabolism and the inhibition of cyclooxygenase-2 metabolism. In addition, newer targets, such as transforming growth factor-beta signaling, Janus-activated kinase/signal transducers and activators of transcription pathway, and cell invasion are discussed. These studies demonstrate that multiple, often overlapping, mechanisms of disruption are present in lung cancer cells, presenting a plethora of molecular targets. [ABSTRACT FROM AUTHOR]

Published
2004
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45. Loss of expression of death-inducing signaling complex (DISC) components in lung cancer cell lines and the influence of MYC amplification.

Author

Shivapurkar, Narayan, Reddy, Jyotsna, Matta, Hittu, Sathyanarayana, Ubaradka G, Huang, C X, Toyooka, Shinichi, Minna, John D, Chaudhary, Preet M, and Gazdar, Adi F

Subjects
LUNG cancer, APOPTOSIS, CANCER cells
Abstract

We have previously reported that the key apoptosis related gene caspase 8 (CASP8) is frequently silenced in small cell lung cancer (SCLC) tumors and cell lines usually, but not always, by aberrant promoter methylation. Because CASP8 is a key component of the death-inducing signaling complex (DISC) when specific death receptors (including DR4, DR5, FAS) are activated by their specific ligands (TRAIL/FASL), we examined expression of the components of the DISC complex in lung cancer cell lines. MYC family members are frequently amplified (MYC+ve) in SCLC, and MYC is a potent inducer of apoptosis. We examined 34 SCLC lines (12 of which were MYC+ve) and 22 NSCLC lines. CASP8 gene expression was frequently lost (79%) at message and protein levels in SCLC but not in non-SCLC (NSCLC). MYC amplification was present in 45% of SCLC cell lines, which had lost CASP8 expression, but not in any of the CASP8 positive lines. The frequency of CASP8 loss was significantly higher in MYC+ve SCLC compared to MYC-ve SCLC or in NSCLC. Analyses of other DISC components showed significantly higher rates of loss of expression of CASP10, DR5, FAS and FASL in SCLC compared to NSCLC. The loss of expression of proapoptotic DISC components was significantly higher in MYC+ve SCLC cell lines and these lines were completely resistant to TRAIL. Expression of CASP10 (a caspase closely related to CASP8) was frequently absent at the protein level in both SCLC and NSCLC lines. Expression of c-FLIP (proteolytically inactive homolog of CASP8) was inversely related to expression of CASP8. Our major conclusions are: (a) The death receptor pathway is differently inactivated at multiple levels in lung cancer cell lines; and (b) MYC amplification in SCLC is associated with inactivation of most components of the DISC complex, with resistance to TRAIL and with expression of c-FLIP. These findings may have considerable clinical and therapeutic implications.Oncogene (2002) 21, 8510–8514. doi:10.1038/sj... [ABSTRACT FROM AUTHOR]

Published
2002
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46. Molecular Pathogenesis of Lung Cancer and Potential Translational Applications.

Author

Minna, John D., Kwun Fong, Zöchbauer-Müller, Sabine, Gazdar, Adi F., Henschke, Claudia I., Yankelevitz, David F., Libby, Daniel, and Kimmel, Marek

Subjects
MOLECULAR pathology, LUNG cancer
Abstract

Examines the molecular pathogenesis of lung cancer. Detection of genetic abnormalities in preneoplastic smoking damaged lung tissues; Comparison of the genetic changes in small cell lung cancer and non-small cell lung cancer; Expression profiling of lung cancer.

Published
2002

47. MOLECULAR PATHOGENESIS OF LUNG CANCER.

Author

Zochbauer-Muller, Sabine, Gazdar, Adi F., and Minna, John D.

Subjects
*LUNG cancer, *MOLECULAR biology, *CYTOLOGY, *NEOVASCULARIZATION
Abstract

Summarizes the medical advances that have been made to understand the molecular and cellular biology of lung cancer. Information on lung cancer; Role of angiogenesis in the multistage development of lung cancer; Risk factors of lung cancer; Discussion on the growth factors and receptors of autocrine and paracrine systems.

Published
2002

48. Epigenetic inactivation of RASSF1A in lung and breast cancers and malignant phenotype suppression.

Author

Burbee, David G., Forgas, Eva, Zöchbauer-Müller, Sabine, Shivakumar, Latha, Kwun Fong, Boning Gao, Randle, Dwight, Kondo, Masashi, Virmani, Arvind, Bader, Scott, Sekido, Yoshitaka, Latif, Farida, Milchgrub, Sara, Toyooka, Shinichi, Gazdar, Adi F., Lerman, Michael I., Zabarovsky, Eugene, White, Michael, Minna, John D., and Burbee, D G

Subjects
LUNG cancer, BREAST cancer, PHENOTYPES, BREAST tumors, COMPARATIVE studies, DNA, GENES, LUNG tumors, RESEARCH methodology, MEDICAL cooperation, ONCOGENES, POLYMERASE chain reaction, PROTEINS, RESEARCH, EVALUATION research, SMALL cell carcinoma, DNA methylation, CANCER cell culture
Abstract

Background: The recently identified RASSF1 locus is located within a 120-kilobase region of chromosome 3p21.3 that frequently undergoes allele loss in lung and breast cancers. We explored the hypothesis that RASSF1 encodes a tumor suppressor gene for lung and breast cancers.Methods: We assessed expression of two RASSF1 gene products, RASSF1A and RASSF1C, and the methylation status of their respective promoters in 27 non-small-cell lung cancer (NSCLC) cell lines, in 107 resected NSCLCs, in 47 small-cell lung cancer (SCLC) cell lines, in 22 breast cancer cell lines, in 39 resected breast cancers, in 104 nonmalignant lung samples, and in three breast and lung epithelial cultures. We also transfected a lung cancer cell line that lacks RASSF1A expression with vectors containing RASSF1A complementary DNA to determine whether exogenous expression of RASSF1A would affect in vitro growth and in vivo tumorigenicity of this cell line. All statistical tests were two-sided.Results: RASSF1A messenger RNA was expressed in nonmalignant epithelial cultures but not in 100% of the SCLC, in 65% of the NSCLC, or in 60% of the breast cancer lines. By contrast, RASSF1C was expressed in all nonmalignant cell cultures and in nearly all cancer cell lines. RASSF1A promoter hypermethylation was detected in 100% of SCLC, in 63% of NSCLC, in 64% of breast cancer lines, in 30% of primary NSCLCs, and in 49% of primary breast tumors but in none of the nonmalignant lung tissues. RASSF1A promoter hypermethylation in resected NSCLCs was associated with impaired patient survival (P =.046). Exogenous expression of RASSF1A in a cell line lacking expression decreased in vitro colony formation and in vivo tumorigenicity.Conclusion: RASSF1A is a potential tumor suppressor gene that undergoes epigenetic inactivation in lung and breast cancers through hypermethylation of its promoter region. [ABSTRACT FROM AUTHOR]

Published
2001
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49. Searching for microsatellite mutations in coding regions in lung, breast, ovarian and colorectal cancers.

Author

Forgacs, Eva, Wren, Jonathan D, Kamibayashi, Craig, Kondo, Masashi, Xu, Xie L, Markowitz, Sanford, Tomlinson, Gail E, Muller, Carolyn Y, Gazdar, Adi F, Garner, Harold R, and Minna, John D

Subjects
MICROSATELLITE repeats, GENETIC mutation, LUNG cancer, BREAST cancer, COLON cancer
Abstract

RepX represents a new informatics approach to probe the UniGene database for potentially polymorphic repeat sequences in the open reading frame (ORF) of genes, 56% of which were found to be actually polymorphic. We now have performed mutational analysis of 17 such sites in genes not found to be polymorphic (<0.03 frequency) in a large panel of human cancer genomic DNAs derived from 31 lung, 21 breast, seven ovarian, 21 (13 microsatellite instability (MSI)+ and eight MSI-) colorectal cancer cell lines. In the lung, breast and ovarian tumor DNAs we found no mutations (<0.03–0.04 rate of tumor associated open reading frame mutations) in these sequences. By contrast, 18 MSI+ colorectal cancers (13 cancer cell lines and five primary tumors) with mismatch repair defects exhibited six mutations in three of the 17 genes (SREBP-2, TAN-1, GR6) (P<0.000003 compared to all other cancers tested). We conclude that coding region microsatellite alterations are rare in lung, breast, ovarian carcinomas and MSI (-) colorectal cancers, but are relatively frequent in MSI (+) colorectal cancers with mismatch repair deficits. Oncogene (2001) 20, 1005–1009. [ABSTRACT FROM AUTHOR]

Published
2001
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50. Promoter methylation and silencing of the retinoic acid receptor-beta gene in lung carcinomas.

Author

Virmani, Arvind K., Rathi, Asha, Virmani, A K, Rathi, A, Zöchbauer-Müller, S, Sacchi, N, Fukuyama, Y, Bryant, D, Maitra, A, Heda, S, Fong, K M, Thunnissen, F, Minna, J D, and Gazdar, A F

Subjects
PROMOTERS (Genetics), GENETIC transcription, LUNG cancer, CELL receptors, COMPARATIVE studies, GENES, LUNG tumors, RESEARCH methodology, MEDICAL cooperation, METHYLATION, GENETIC mutation, POLYMERASE chain reaction, RESEARCH, EVALUATION research, REVERSE transcriptase polymerase chain reaction, SMALL cell carcinoma, CANCER cell culture
Abstract

Background: Retinoic acid plays an important role in lung development and differentiation, acting primarily via nuclear receptors encoded by the retinoic acid receptor-beta (RARbeta) gene. Because receptor isoforms RARbeta2 and RARbeta4 are repressed in human lung cancers, we investigated whether methylation of their promoter, P2, might lead to silencing of the RARbeta gene in human lung tumors and cell lines.Methods: Methylation of the P2 promoter from small-cell lung cancer (SCLC) and non-small-cell lung cancer (NSCLC) cell lines and tumor samples was analyzed by the methylation-specific polymerase chain reaction (PCR). Expression of RARbeta2 and RARbeta4 was analyzed by reverse transcription-PCR. Loss of heterozygosity (LOH) was analyzed by PCR amplification followed by electrophoretic separation of PCR products. Statistical differences were analyzed by Fisher's exact test with continuity correction.Results: The P2 promoter was methylated in 72% (63 of 87) of SCLC and in 41% (52 of 127) of NSCLC tumors and cell lines, and the difference was statistically significant (two-sided P:<.001). By contrast, in 57 of 58 control samples, we observed only the unmethylated form of the gene. Four tumor cell lines with unmethylated promoter regions expressed both RARbeta2 and RARbeta4. Four tumor lines with methylated promoter regions lacked expression of these isoforms, but demethylation by exposure to 5-aza-2'-deoxycytidine restored their expression. LOH at chromosome 3p24 was observed in 100% (13 of 13) of SCLC lines and 67% (12 of 18) of NSCLC cell lines, and the difference was statistically significant (two-sided P: =.028).Conclusions: Methylation of the RARbeta P2 promoter is one mechanism that silences RARbeta2 and RARbeta4 expression in many lung cancers, particularly SCLC. Chemical demethylation is a potential approach to lung cancer therapy. [ABSTRACT FROM AUTHOR]

Published
2000
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