Your search keyword '"Hattinger C"' showing total 48 results

1. The pharmacogenomics of osteosarcoma

Author

Serra, M and Hattinger, C M

Published

2017

2. Genetic Heterogeneity in Ewing Tumors and Neuroblastomas

Author

Ambros, P. F., Ambros, I. M., Amann, G., Hattinger, C. M., Ladenstein, R., Kerbl, R., Rumpler, S., Luegmayr, A., Gadner, H., Abraham, Nader G., editor, Tabilio, Antonio, editor, Martelli, Massimo, editor, Asano, Shigetaka, editor, and Donfrancesco, Alberto, editor

Published

1999

3. Preclinical validation of Aurora kinases-targeting drugs in osteosarcoma

Author

Tavanti, E, Sero, V, Vella, S, Fanelli, M, Michelacci, F, Landuzzi, L, Magagnoli, G, Versteeg, R, Picci, P, Hattinger, C M, and Serra, M

Published

2013

4. Nucleotide excision repair gene variants and association with survival in osteosarcoma patients treated with neoadjuvant chemotherapy

Author

Biason, P, Hattinger, C M, Innocenti, F, Talamini, R, Alberghini, M, Scotlandi, K, Zanusso, C, Serra, M, and Toffoli, G

Published

2012

5. Peripheral primitive neuroectodermal tumour of the cervix

Author

Pauwels, P., Ambros, P., Hattinger, C., Lammens, M., Dal Cin, P., Ribot, J., Struyk, A., and van den Berghe, H.

Published

2000

6. Clinical impact of the methotrexate resistance-associated genes C-MYC and dihydrofolate reductase (DHFR) in high-grade osteosarcoma

Author

Scionti, I., Michelacci, F., Pasello, M., Hattinger, C. M., Alberghini, M., Manara, M. C., Bacci, G., Ferrari, S., Scotlandi, K., Picci, P., and Serra, Massimo

Published

2008

7. Analysis of dihydrofolate reductase and reduced folate carrier gene status in relation to methotrexate resistance in osteosarcoma cells

Author

Serra, M., Reverter-Branchat, G., Maurici, D., Benini, S., Shen, J.-N., Chano, T., Hattinger, C.-M., Manara, M.-C., Pasello, M., Scotlandi, K., and Picci, P.

Published

2004

8. Unequivocal identification of disseminated tumor cells in the bone marrow by combining immunological and genetic approaches – functional and prognastic information

Author

Ambros, PF, Méhes, G, Hattinger, C, Ambros, IM, Luegmayr, A, Ladenstein, R, and Gadner, H

Published

2001

9. Molecular Cytogenetics in Ewing Tumors: Diagnostic and Prognostic Information

Author

Hattinger, C. M., Zoubek, A., and Ambros, P. F.

Published

2000

10. Genome-wide association study identifies the GLDC/IL33 locus associated with survival of osteosarcoma patients

Author

Koster, R. (Roelof), Panagiotou, O.A. (Orestis A.), Wheeler, W. (William), Karlins, E. (Eric), Gastier-Foster, J.M. (Julie M.), Caminada-de-Toledo, S.R. (Silvia Regina), Petrilli, A.S. (Antonio S.), Flanagan, A.M. (Adrienne M.), Tirabosco, R. (Roberto), Andrulis, I.L. (Irene L.), Wunder, J.S. (Jay S.), Gokgoz, N. (Nalan), Patiño-García, A. (Ana), Lecanda, F. (Fernando), Serra, M. (Massimo), Hattinger, C. (Claudia), Picci, P. (Piero), Scotlandi, K. (Katia), Thomas, D.M. (David M.), Ballinger, M.L. (Mandy L.), Gorlick, R.G. (Richard G.), Barkauskas, D.A. (Donald A.), Spector, L. (Logan), Tucker, M. (Margaret), Hicks, B. (Belynda), Yeager, M. (Meredith), Hoover, R.N. (Robert N.), Wacholder, S. (Sholom), Chanock, S.J. (Stephen J.), Savage, S.A. (Sharon A.), and Mirabello, L. (Lisa)

Subjects

Osteosarcoma, Genome-wide association study, Overall survival, Osteosarcoma-specific survival

Abstract

Survival rates for osteosarcoma, the most common primary bone cancer, have changed little over the past three decades and are particularly low for patients with metastatic disease. We conducted a multi-institutional genome-wide association study (GWAS) to identify germline genetic variants associated with overall survival in 632 patients with osteosarcoma, including 523 patients of European ancestry and 109 from Brazil. We conducted a time-to-event analysis and estimated hazard ratios (HR) and 95% confidence intervals (CI) using Cox proportional hazards models, with and without adjustment for metastatic disease.

Published

2018

11. Mitochondria-targeted doxorubicin: A new therapeutic strategy against drug-resistant osteosarcoma

Author

Buondonno, I., primary, Gazzano, E., additional, Sea Rin, J., additional, Audrito, V., additional, Kopecka, J., additional, Fanelli, M., additional, Salaroglio, I.C., additional, Costamagna, C., additional, Roato, I., additional, Mungo, E., additional, Hattinger, C., additional, Deaglio, S., additional, Kelley, S., additional, Serra, M., additional, and Riganti, C., additional

Published

2016

12. The pharmacogenomics of osteosarcoma

Author

Serra, M, primary and Hattinger, C M, additional

Published

2016

13. GENOMIC SIGNATURE OF LEUKEMIC EVOLUTION IN HODGKIN LYMPHOMA

Author

Brusa G., Zuffa E., REMONDINI, DANIEL, Venturini L., Mancini M., Serra M., Hattinger C, Piccioli M., ZINZANI, PIER LUIGI, CAMMELLI, SILVIA, Santucci M. A., BARBIERI, ENZA, CONSORZIO INTERUNIVERSITARIO BIOTECNOLOGIE, Brusa G., Zuffa E., Remondini D., Venturini L., Mancini M., Serra M., Hattinger C, Piccioli M., Zinzani P.L., Cammelli S., Barbieri E., and Santucci M.A.

Abstract

Hodgkin’s lymphoma (HL) is a heterogeneous lymphoid malignancy curable in more than 80% of cases. Its morbility and mortality are mostly contingent upon chemo- and radio-therapy side effects including cardiovascular or pulmonary diseases, infections and second malignancies. Indeed, the high incidence of secondary cancers and leukemias in potentially cured LH patients supports that genomic instability and defective DNA repair system have a crucial role in secondary cancerogenesis/leukemogenesis processes as they let the emergence of genomic aberrations and clonal cell evolution towards a transformed phenotype. The aim of our study was to define the genomic profile associated with HL evolution towards secondary leukemia. To the purpose, formalin-fixed/paraffin-embedded biopsies from 4 LH patients who developed a secondary acute myeloid leukemia (AML) were analyzed by mean of array-based comparative genomic hybridization (aCGH). This method allows the identification of changes in DNA sequence copy number (amplifications or deletions) at high resolution. The microarrays used in our study contain 287 genomic targets involved in most human cancers, including oncogenes, tumor-suppressor genes and DNA sequences localized within chromosomal regions most frequently rearranged. DNAs from lymphonode biopsies of LH patient who developed AML were compared with pooled DNAs from reactive and LH lymphonodes (comparable for histotype and follow-up) from cured patients. CGH profiles of single LH patients were extensively altered. However, they shared a common pattern of structural genomic alterations. Bioinformatic analysis of CGH results performed with dedicated softwares let distinguish statistatically significant (ratio >1,2) amplifications relative to 3 DNA sequences (AFM137XA11, FGFR1, PPABP) and statistatically significant (ratio< 0,83) deletions in 4 (AFM217YD10, FGR(SRC2), GATA3, TOP1, WT1). CGH data relative to the above mentioned sequences were further validated by FISH and immunohistochemistry. In spite of the low number of LH patients our results suggest that the evolution to AML in LH patients may be genetically determined. The role of single genes in leukemic transformation requires further investigation.

Published

2005

14. Genomic instability in the development of non-Hodgkin lymphomas secondary to Hodgkin lymphoma

Author

BRUSA, GIANLUCA, ZUFFA, ELISA, REMONDINI, DANIEL, MORANDI, LUCA, ZINZANI, PIER LUIGI, MANCINI, MANUELA, BARBIERI, ENZA, SANTUCCI, MARIA ALESSANDRA, CASTELLANI, GASTONE, Serra M., Hattinger C. M., Corrado P., Brusa G., Zuffa E., Remondini D., Castellani G., Serra M., Hattinger C.M., Morandi L., Zinzani P.L., Mancini M., Corrado P., Barbieri E., and Santucci M.A.

Published

2007

15. Molecular alterations of monophasic synovial sarcoma: Loss of chromosome 3p does not alter RASSF1 and MLH1 transcriptional activity

Author

Pazzaglia, L., Benassi, M. S., Ragazzini, P., Gamberi, G., Ponticelli, F., Chiechi, A., Hattinger, C. M., Luca Morandi, Alberghini, M., Zanella, L., Picci, P., Mercuri, M., Pazzaglia, L., Benassi, Maria Serena, Ragazzini, P., Gamberi, G., Ponticelli, F., Chiechi, A., Hattinger, C.M., Morandi, L., Alberghini, M., Zanella, L., Picci, P., and Mercuri, M.

Subjects

Adult, Male, Histology, Transcription, Genetic, Down-Regulation, Synovial sarcoma, Sarcoma, Synovial, Biomarkers, Tumor, Humans, Vimentin, RNA, Messenger, Adaptor Proteins, Signal Transducing, Aged, Oligonucleotide Array Sequence Analysis, Neoplasms, Connective Tissue, CGH-microarray, Tumor Suppressor Proteins, Mucin-1, Nuclear Proteins, DNA, Neoplasm, Laser capture microdissection, Cell Biology, Middle Aged, Prognosis, Immunohistochemistry, Gene Expression Regulation, Neoplastic, 6 - Ciencias aplicadas::61 - Medicina [CDU], Keratins, Female, Chromosomes, Human, Pair 3, Gene expression, Chromosome Deletion, Anatomy, Carrier Proteins, MutL Protein Homolog 1, Microsatellite Repeats, Real-time PCR

Abstract

Differential diagnosis of monophasic synovial sarcoma requires the detection of specific biological markers. In this study we evaluated the presence of molecular alterations in 15 monophasic synovial sarcomas. Multiple changes affecting chromosome arms were detected by CGH-array in all microdissected cases available, and an association between gain or loss of specific regions harbouring cancer progression-associated genes and aneuploid status was found. The most frequent alteration was loss of 3p including 3p21.3-p23 region that, however, did not involve the promoter regions of the corresponding genes, RASSF1 and MLH1. Using Real-Time PCR, mRNA levels of both resulted moderately high compared to normal tissue; however, the weak to absent protein expression suggests RASSF1 and MLH1 posttranscription deregulation. Moreover, immunohistochemical analysis revealed that both mesenchymal and epithelial antigens were present in diploid tumours. These findings confirm the genetic complexity of monophasic synovial sarcoma and underline the need to integrate different analyses for a better knowledge of this tumour, essential to investigate new diagnostic and prognostic markers.

Published

2006

16. Demethoxy - 3' - De Amino - 3' Azirinidjl -4' - Methilsulphonjl - Dauno Rubicin (PNU159548): A promising new candidate for chemotherapeutic treatment of osteosarcoma patients

Author

Paselllo M., Hattinger C. M., Stoico G., Manara M. C., Benii S., Geroni C., MERCURI, MARIO, Paselllo M., Hattinger C.M., Stoico G., Manara M. C., Benii S., Geroni C., and Mercuri M.

Published

2005

17. Imputation and subset-based association analysis across different cancer types identifies multiple independent risk loci in the TERT-CLPTM1L region on chromosome 5p15.33

Author

Wang, Z., primary, Zhu, B., additional, Zhang, M., additional, Parikh, H., additional, Jia, J., additional, Chung, C. C., additional, Sampson, J. N., additional, Hoskins, J. W., additional, Hutchinson, A., additional, Burdette, L., additional, Ibrahim, A., additional, Hautman, C., additional, Raj, P. S., additional, Abnet, C. C., additional, Adjei, A. A., additional, Ahlbom, A., additional, Albanes, D., additional, Allen, N. E., additional, Ambrosone, C. B., additional, Aldrich, M., additional, Amiano, P., additional, Amos, C., additional, Andersson, U., additional, Andriole, G., additional, Andrulis, I. L., additional, Arici, C., additional, Arslan, A. A., additional, Austin, M. A., additional, Baris, D., additional, Barkauskas, D. A., additional, Bassig, B. A., additional, Beane Freeman, L. E., additional, Berg, C. D., additional, Berndt, S. I., additional, Bertazzi, P. A., additional, Biritwum, R. B., additional, Black, A., additional, Blot, W., additional, Boeing, H., additional, Boffetta, P., additional, Bolton, K., additional, Boutron-Ruault, M.-C., additional, Bracci, P. M., additional, Brennan, P., additional, Brinton, L. A., additional, Brotzman, M., additional, Bueno-de-Mesquita, H. B., additional, Buring, J. E., additional, Butler, M. A., additional, Cai, Q., additional, Cancel-Tassin, G., additional, Canzian, F., additional, Cao, G., additional, Caporaso, N. E., additional, Carrato, A., additional, Carreon, T., additional, Carta, A., additional, Chang, G.-C., additional, Chang, I.-S., additional, Chang-Claude, J., additional, Che, X., additional, Chen, C.-J., additional, Chen, C.-Y., additional, Chen, C.-H., additional, Chen, C., additional, Chen, K.-Y., additional, Chen, Y.-M., additional, Chokkalingam, A. P., additional, Chu, L. W., additional, Clavel-Chapelon, F., additional, Colditz, G. A., additional, Colt, J. S., additional, Conti, D., additional, Cook, M. B., additional, Cortessis, V. K., additional, Crawford, E. D., additional, Cussenot, O., additional, Davis, F. G., additional, De Vivo, I., additional, Deng, X., additional, Ding, T., additional, Dinney, C. P., additional, Di Stefano, A. L., additional, Diver, W. R., additional, Duell, E. J., additional, Elena, J. W., additional, Fan, J.-H., additional, Feigelson, H. S., additional, Feychting, M., additional, Figueroa, J. D., additional, Flanagan, A. M., additional, Fraumeni, J. F., additional, Freedman, N. D., additional, Fridley, B. L., additional, Fuchs, C. S., additional, Gago-Dominguez, M., additional, Gallinger, S., additional, Gao, Y.-T., additional, Gapstur, S. M., additional, Garcia-Closas, M., additional, Garcia-Closas, R., additional, Gastier-Foster, J. M., additional, Gaziano, J. M., additional, Gerhard, D. S., additional, Giffen, C. A., additional, Giles, G. G., additional, Gillanders, E. M., additional, Giovannucci, E. L., additional, Goggins, M., additional, Gokgoz, N., additional, Goldstein, A. M., additional, Gonzalez, C., additional, Gorlick, R., additional, Greene, M. H., additional, Gross, M., additional, Grossman, H. B., additional, Grubb, R., additional, Gu, J., additional, Guan, P., additional, Haiman, C. A., additional, Hallmans, G., additional, Hankinson, S. E., additional, Harris, C. C., additional, Hartge, P., additional, Hattinger, C., additional, Hayes, R. B., additional, He, Q., additional, Helman, L., additional, Henderson, B. E., additional, Henriksson, R., additional, Hoffman-Bolton, J., additional, Hohensee, C., additional, Holly, E. A., additional, Hong, Y.-C., additional, Hoover, R. N., additional, Hosgood, H. D., additional, Hsiao, C.-F., additional, Hsing, A. W., additional, Hsiung, C. A., additional, Hu, N., additional, Hu, W., additional, Hu, Z., additional, Huang, M.-S., additional, Hunter, D. J., additional, Inskip, P. D., additional, Ito, H., additional, Jacobs, E. J., additional, Jacobs, K. B., additional, Jenab, M., additional, Ji, B.-T., additional, Johansen, C., additional, Johansson, M., additional, Johnson, A., additional, Kaaks, R., additional, Kamat, A. M., additional, Kamineni, A., additional, Karagas, M., additional, Khanna, C., additional, Khaw, K.-T., additional, Kim, C., additional, Kim, I.-S., additional, Kim, J. H., additional, Kim, Y. H., additional, Kim, Y.-C., additional, Kim, Y. T., additional, Kang, C. H., additional, Jung, Y. J., additional, Kitahara, C. M., additional, Klein, A. P., additional, Klein, R., additional, Kogevinas, M., additional, Koh, W.-P., additional, Kohno, T., additional, Kolonel, L. N., additional, Kooperberg, C., additional, Kratz, C. P., additional, Krogh, V., additional, Kunitoh, H., additional, Kurtz, R. C., additional, Kurucu, N., additional, Lan, Q., additional, Lathrop, M., additional, Lau, C. C., additional, Lecanda, F., additional, Lee, K.-M., additional, Lee, M. P., additional, Le Marchand, L., additional, Lerner, S. P., additional, Li, D., additional, Liao, L. M., additional, Lim, W.-Y., additional, Lin, D., additional, Lin, J., additional, Lindstrom, S., additional, Linet, M. S., additional, Lissowska, J., additional, Liu, J., additional, Ljungberg, B., additional, Lloreta, J., additional, Lu, D., additional, Ma, J., additional, Malats, N., additional, Mannisto, S., additional, Marina, N., additional, Mastrangelo, G., additional, Matsuo, K., additional, McGlynn, K. A., additional, McKean-Cowdin, R., additional, McNeill, L. H., additional, McWilliams, R. R., additional, Melin, B. S., additional, Meltzer, P. S., additional, Mensah, J. E., additional, Miao, X., additional, Michaud, D. S., additional, Mondul, A. M., additional, Moore, L. E., additional, Muir, K., additional, Niwa, S., additional, Olson, S. H., additional, Orr, N., additional, Panico, S., additional, Park, J. Y., additional, Patel, A. V., additional, Patino-Garcia, A., additional, Pavanello, S., additional, Peeters, P. H. M., additional, Peplonska, B., additional, Peters, U., additional, Petersen, G. M., additional, Picci, P., additional, Pike, M. C., additional, Porru, S., additional, Prescott, J., additional, Pu, X., additional, Purdue, M. P., additional, Qiao, Y.-L., additional, Rajaraman, P., additional, Riboli, E., additional, Risch, H. A., additional, Rodabough, R. J., additional, Rothman, N., additional, Ruder, A. M., additional, Ryu, J.-S., additional, Sanson, M., additional, Schned, A., additional, Schumacher, F. R., additional, Schwartz, A. G., additional, Schwartz, K. L., additional, Schwenn, M., additional, Scotlandi, K., additional, Seow, A., additional, Serra, C., additional, Serra, M., additional, Sesso, H. D., additional, Severi, G., additional, Shen, H., additional, Shen, M., additional, Shete, S., additional, Shiraishi, K., additional, Shu, X.-O., additional, Siddiq, A., additional, Sierrasesumaga, L., additional, Sierri, S., additional, Loon Sihoe, A. D., additional, Silverman, D. T., additional, Simon, M., additional, Southey, M. C., additional, Spector, L., additional, Spitz, M., additional, Stampfer, M., additional, Stattin, P., additional, Stern, M. C., additional, Stevens, V. L., additional, Stolzenberg-Solomon, R. Z., additional, Stram, D. O., additional, Strom, S. S., additional, Su, W.-C., additional, Sund, M., additional, Sung, S. W., additional, Swerdlow, A., additional, Tan, W., additional, Tanaka, H., additional, Tang, W., additional, Tang, Z.-Z., additional, Tardon, A., additional, Tay, E., additional, Taylor, P. R., additional, Tettey, Y., additional, Thomas, D. M., additional, Tirabosco, R., additional, Tjonneland, A., additional, Tobias, G. S., additional, Toro, J. R., additional, Travis, R. C., additional, Trichopoulos, D., additional, Troisi, R., additional, Truelove, A., additional, Tsai, Y.-H., additional, Tucker, M. A., additional, Tumino, R., additional, Van Den Berg, D., additional, Van Den Eeden, S. K., additional, Vermeulen, R., additional, Vineis, P., additional, Visvanathan, K., additional, Vogel, U., additional, Wang, C., additional, Wang, J., additional, Wang, S. S., additional, Weiderpass, E., additional, Weinstein, S. J., additional, Wentzensen, N., additional, Wheeler, W., additional, White, E., additional, Wiencke, J. K., additional, Wolk, A., additional, Wolpin, B. M., additional, Wong, M. P., additional, Wrensch, M., additional, Wu, C., additional, Wu, T., additional, Wu, X., additional, Wu, Y.-L., additional, Wunder, J. S., additional, Xiang, Y.-B., additional, Xu, J., additional, Yang, H. P., additional, Yang, P.-C., additional, Yatabe, Y., additional, Ye, Y., additional, Yeboah, E. D., additional, Yin, Z., additional, Ying, C., additional, Yu, C.-J., additional, Yu, K., additional, Yuan, J.-M., additional, Zanetti, K. A., additional, Zeleniuch-Jacquotte, A., additional, Zheng, W., additional, Zhou, B., additional, Mirabello, L., additional, Savage, S. A., additional, Kraft, P., additional, Chanock, S. J., additional, Yeager, M., additional, Landi, M. T., additional, Shi, J., additional, Chatterjee, N., additional, and Amundadottir, L. T., additional

Published

2014

18. 202 - Mitochondria-targeted doxorubicin: A new therapeutic strategy against drug-resistant osteosarcoma

Author

Buondonno, I., Gazzano, E., Sea Rin, J., Audrito, V., Kopecka, J., Fanelli, M., Salaroglio, I.C., Costamagna, C., Roato, I., Mungo, E., Hattinger, C., Deaglio, S., Kelley, S., Serra, M., and Riganti, C.

Published

2016

19. Genome-wide association study identifies two susceptibility loci for osteosarcoma

Author

Savage, SA, Mirabello, L, Wang, Z, Gastier-Foster, JM, Gorlick, R, Khanna, C, Flanagan, AM, Tirabosco, R, Andrulis, IL, Wunder, JS, Gokgoz, N, Patino-Garcia, A, Sierrasesumaga, L, Lecanda, F, Kurucu, N, Ilhan, IE, Sari, N, Serra, M, Hattinger, C, Picci, P, Spector, LG, Barkauskas, DA, Marina, N, Caminada de Toledo, SR, Petrilli, AS, Amary, MF, Halai, D, Thomas, DM, Douglass, C, Meltzer, PS, Jacobs, K, Chung, CC, Berndt, SI, Purdue, MP, Caporaso, NE, Tucker, M, Rothman, N, Landi, MT, Silverman, DT, Kraft, P, Hunter, DJ, Malats, N, Kogevinas, M, Wacholder, S, Troisi, R, Helman, L, Fraumeni, JF, Yeager, M, Hoover, RN, Chanock, SJ, Savage, SA, Mirabello, L, Wang, Z, Gastier-Foster, JM, Gorlick, R, Khanna, C, Flanagan, AM, Tirabosco, R, Andrulis, IL, Wunder, JS, Gokgoz, N, Patino-Garcia, A, Sierrasesumaga, L, Lecanda, F, Kurucu, N, Ilhan, IE, Sari, N, Serra, M, Hattinger, C, Picci, P, Spector, LG, Barkauskas, DA, Marina, N, Caminada de Toledo, SR, Petrilli, AS, Amary, MF, Halai, D, Thomas, DM, Douglass, C, Meltzer, PS, Jacobs, K, Chung, CC, Berndt, SI, Purdue, MP, Caporaso, NE, Tucker, M, Rothman, N, Landi, MT, Silverman, DT, Kraft, P, Hunter, DJ, Malats, N, Kogevinas, M, Wacholder, S, Troisi, R, Helman, L, Fraumeni, JF, Yeager, M, Hoover, RN, and Chanock, SJ

Abstract

Osteosarcoma is the most common primary bone malignancy of adolescents and young adults. To better understand the genetic etiology of osteosarcoma, we performed a multistage genome-wide association study consisting of 941 individuals with osteosarcoma (cases) and 3,291 cancer-free adult controls of European ancestry. Two loci achieved genome-wide significance: a locus in the GRM4 gene at 6p21.3 (encoding glutamate receptor metabotropic 4; rs1906953; P = 8.1 × 10⁻⁹) and a locus in the gene desert at 2p25.2 (rs7591996 and rs10208273; P = 1.0 × 10⁻⁸ and 2.9 × 10⁻⁷, respectively). These two loci warrant further exploration to uncover the biological mechanisms underlying susceptibility to osteosarcoma.

Published

2013

20. Nucleotide excision repair gene variants and association with survival in osteosarcoma patients treated with neoadjuvant chemotherapy

Author

Biason, P, primary, Hattinger, C M, additional, Innocenti, F, additional, Talamini, R, additional, Alberghini, M, additional, Scotlandi, K, additional, Zanusso, C, additional, Serra, M, additional, and Toffoli, G, additional

Published

2011

21. Prognostic impact of chromosomal aberrations in Ewing tumours

Author

Hattinger, C M, primary, Pötschger, U, additional, Tarkkanen, M, additional, Squire, J, additional, Zielenska, M, additional, Kiuru-Kuhlefelt, S, additional, Kager, L, additional, Thorner, P, additional, Knuutila, S, additional, Niggli, F K, additional, Ambros, P F, additional, Gadner, H, additional, and Betts, D R, additional

Published

2002

22. Prognostic implications of tumor cell infiltration of the hematopoietic system in pediatric and adult tumor patients

Author

Ambros, P.F., primary, Mehes, G., additional, Luegmayr, A., additional, Witt, A., additional, Kubista, E., additional, Hattinger, C., additional, Lörch, T., additional, Ambros, I.M., additional, and Gadner, H., additional

Published

1999

23. A midi-satellite sequence at 1P36 frequently deleted in human tumors is amplified during normal differentiation

Author

Ambros, P.F., primary, Ambros, I.M., additional, Stock, C., additional, Rumpler, S., additional, Luegmayr, A., additional, Hattinger, C., additional, Kovar, H., additional, Lion, Thomas, additional, Stark, G., additional, and Gadner, H., additional

Published

1997

24. Fine-mapping of cytogenetically undetectable EWS/ERG fusions on DNA fibers of Ewing tumors.

Author

Hattinger, C. M., Rumpler, S., Kovar, H., and Ambros, P. F.

Subjects

*GENETICS, *GENES, *DNA, *TUMORS, *GENE mapping, *CHROMOSOMES

Abstract

In contrast to the EWS/FLI1 fusion which is represented by a t(11;22)(q24;q12), EWS/ERG fusions are frequently cytogenetically not detectable. Three Ewing tumors (ET), two with apparently normal chromosomes 21 and 22, and one ET with a t(2;22)(p25;q12), were studied by FISH on interphase nuclei, metaphase chromosomes and on DNA fibers. EWS/ERG transcripts were detected by RT-PCR in all cases. FISH, using cosmids located proximally (F10, G9) and distally (F7) to the EWS breakpoint region, revealed no detectable separation of these probes in two cases. In contrast, co-hybridization of probe PT1526 containing the ERG breakpoint region with G9 revealed the juxtaposition of two signals per interphase nucleus in all three cases indicating the EWS/ERG fusions. Chromosome preparations displayed the juxtaposed signals on the der(22), and hybridization signals of the probes PT1526 and G9 on the non-rearranged chromosomes 21 and 22 in all cases, respectively. The PT1526 signal on the der(21) was seen only in cases 1 and 2. These results were confirmed by triple-target FISH on tumor DNA fibers. In all three cases, the hybridization pattern F10 – G9 – PT1526 indicates a centromere to telomere orientation. This finding suggests that EWS/ERG fusions in ETs may be generated by an inversion of the ERG gene or a part thereof followed by an insertion into the EWS gene on the der(22). Double-target FISH on interphase nuclei using probes flanking the EWS breakpoint region and probe PT1526 enables the detection of virtually all 22q12 rearrangements in ETs, thus providing a reliable diagnostic assay. Copyright © 2001 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

25. Neuroblastoma Cells Can Actively Eliminate Supernumerary MYCN Gene Copies by Micronucleus Formation-sign of Tumour Cell Revertance?

Author

Ambros, I. M., Rumpler, S., Luegmayr, A., Hattinger, C. M., Strehl, S., Kovar, H., Gadner, H., and Ambros, P. F.

Published

1997

26. Metastatic Extraosseous Ewing Tumor: Association of the Additional Translocation der(16)t(1;16) with the Variant EWS/ERG Rearrangement in a Case of Cytogenetically. Inconspicuous Chromosome 22

Author

Stark, B., Zoubek, A., Hattinger, C., Jeison, M., Gobuzov, R., Mor, C., Cohen, I., Yaniv, I., Ambros, P. F., and Kovar, H.

Published

1996

27. Unequivocal identification of disseminated tumor cells in the bone marrow by combining immunological and genetic approaches--functional and prognostic information.

Author

Ambros, P F, Méhes, G, Hattinger, C, Ambros, I M, Luegmayr, A, Ladenstein, R, and Gadner, H

Subjects

TUMOR treatment, DIAGNOSTIC use of polymerase chain reaction

Abstract

Discusses the detection and quantification of disseminated tumor cells (DTC) in bone marrow by combining immunological and genetic approaches. Application implemented in clinical practice of pediatric and adult solid tumor patients; Correlation between the presence of DTC and unfavorable outcome; Role of polymerase chain reaction techniques in the treatment of localized cancer patients.

Published

2001

28. Imputation and subset-based association analysis across different cancer types identifies multiple independent risk loci in the TERT-CLPTM1L region on chromosome 5p15.33

Author

Hidemi Ito, Stephen K. Van Den Eeden, Abdisamad M. Ibrahim, Ching C. Lau, Preetha Rajaraman, Gloria M. Petersen, Judith Hoffman-Bolton, Colin P.N. Dinney, Chang Hyun Kang, Melinda C. Aldrich, Mark P. Purdue, Xiao-Ou Shu, William J. Blot, Sanjay Shete, Alpa V. Patel, Charles Kooperberg, Paolo Vineis, David Van Den Berg, Chao A. Hsiung, Anthony J. Swerdlow, Qing Lan, Wu Chou Su, Afshan Siddiq, Ulrike Peters, Katia Scotlandi, Sara H. Olson, Kendra Schwartz, Kelly L. Bolton, Chancellor Hohensee, Josep Lloreta, Kevin B. Jacobs, Debra T. Silverman, Rudolf Kaaks, Wei Zheng, Steven Gallinger, Junwen Wang, Angela Carta, Massimo Serra, Petra H.M. Peeters, Victoria L. Stevens, Yasushi Yatabe, Geraldine Cancel-Tassin, Joshua N. Sampson, Young Tae Kim, Graham A. Colditz, Pan-Chyr Yang, Baosen Zhou, Fredrick R. Schumacher, Nicolas Wentzensen, Evelyn Tay, Claudia Maria Hattinger, Chen Wu, Pilar Amiano, Mattias Johansson, Maxwell P. Lee, Christian P. Kratz, Michael B. Cook, Mingfeng Zhang, Kay-Tee Khaw, Jian-Min Yuan, Anne Zeleniuch-Jacquotte, Jinping Jia, Roberto Tirabosco, Jing Ma, Neil E. Caporaso, Christopher A. Haiman, Bu Tian Ji, Adrienne M. Flanagan, Neyssa Marina, Eric J. Jacobs, Sophia S. Wang, Chong-Jen Yu, Edward Giovannucci, Margaret Wrensch, Robert L. Grubb, Bin Zhu, Daniel O. Stram, Manolis Kogevinas, Margaret R. Karagas, Mazda Jenab, Alison M. Mondul, Jun Xu, Preethi S. Raj, Anders Ahlbom, Christine D. Berg, Shelley Niwa, Kala Visvanathan, Loic Le Marchand, Jorge R. Toro, Robert N. Hoover, Heather Spencer Feigelson, Michelle Brotzman, Laurence N. Kolonel, Krista A. Zanetti, Chengfeng Wang, Mary Ann Butler, Ann Truelove, Irene L. Andrulis, Hongbing Shen, H. Dean Hosgood, Ming Shyan Huang, Gee-Chen Chang, Jianjun Liu, John K. Wiencke, Stephanie J. Weinstein, Beatrice Melin, Kouya Shiraishi, Zhihua Yin, Lee E. Moore, Börje Ljungberg, Jolanta Lissowska, Elizabeth M. Gillanders, M. T. Landi, Cari M. Kitahara, Maria Feychting, Kuan-Yu Chen, Matthias Simon, Brian M. Wolpin, Hemang Parikh, Hannah P. Yang, Graham G. Giles, Alison Johnson, Demetrius Albanes, Carlos González, Brian E. Henderson, Xifeng Wu, Harvey A. Risch, Amy Hutchinson, Christopher Hautman, Constance Chen, Zhibin Hu, Donghui Li, Elio Riboli, Julie E. Buring, Curtis C. Harris, Xu Che, Núria Malats, Roger Henriksson, Rosario Tumino, Joanne S. Colt, Alfredo Carrato, Paolo Boffetta, Maria Pik Wong, Hideo Tanaka, Federico Canzian, Alan D. L. Sihoe, Chien-Jen Chen, Kenneth Muir, Chen Ying, Qincheng He, Melissa C. Southey, Marc Sanson, Victoria K. Cortessis, Sharon A. Savage, Wei Hu, Yao Tettey, Daniela S. Gerhard, Sofia Pavanello, Guangwen Cao, H. Barton Grossman, Michael Goggins, Hideo Kunitoh, Peter D. Inskip, Seth P. Lerner, Peter Kraft, David Thomas, Peng Guan, Chung Hsing Chen, I. Shou Chang, Christoffer Johansen, Roberta McKean-Cowdin, Lee J. Helman, Yuh Min Chen, Ana Patiño-García, Pär Stattin, Xiaoping Miao, Tangchun Wu, Jay S. Wunder, Ann W. Hsing, Yu-Tang Gao, Brooke L. Fridley, Tania Carreón, Charles C. Chung, Nan Hu, Yoo Jin Jung, Richard B. Biritwum, Eric J. Duell, Philip R. Taylor, Satu Männistö, Kai Yu, Meredith Yeager, Xia Pu, Vittorio Krogh, Anand P. Chokkalingam, Susan M. Gapstur, W. Ryan Diver, Yuanqing Ye, Keitaro Matsuo, Cecilia Arici, You-Lin Qiao, Alan R. Schned, Dominique S. Michaud, Joanne W. Elena, Christopher Kim, Dongxin Lin, Yun-Chul Hong, Daru Lu, Reina García-Closas, Jonine D. Figueroa, Linda M. Liao, Yi-Long Wu, Heiner Boeing, Mark Lathrop, Göran Hallmans, Elizabeth A. Holly, Carol Giffen, Andrew A. Adjei, Consol Serra, Anne Tjønneland, Joseph F. Fraumeni, Alisa M. Goldstein, Ruth C. Travis, Rebecca Troisi, Dalsu Baris, Nalan Gokgoz, Olivier Cussenot, Xiang Deng, Yeul Hong Kim, Malin Sund, Sonja I. Berndt, E. David Crawford, Edward D. Yeboah, Sook Whan Sung, Françoise Clavel-Chapelon, Woon-Puay Koh, Nilgun Kurucu, Richard B. Hayes, Ashish M. Kamat, Beata Peplonska, Laurie Burdette, Ze Zhang Tang, Alan A. Arslan, Malcolm C. Pike, Sabina Sierri, J. Michael Gaziano, Lorna H. McNeil, Katherine A. McGlynn, Ulla Vogel, Logan G. Spector, H. Bas Bueno-de-Mesquita, Stephen J. Chanock, Jae Yong Park, Jennifer Prescott, Fernando Lecanda, Margaret A. Tucker, Ti Ding, Christian C. Abnet, Jenny Chang-Claude, Dimitrios Trichopoulos, Wei-Yen Lim, Wen Tan, Nick Orr, Jin Hee Kim, Stefano Porru, Chand Khanna, Robert R. McWilliams, Zhaoming Wang, Jeong Seon Ryu, David V. Conti, Alison P. Klein, Adonina Tardón, Robert J. Klein, Rebecca J. Rodabough, Mark H. Greene, Aruna Kamineni, Jie Lin, Rachael Z. Stolzenberg-Solomon, Patricia Hartge, Susan E. Hankinson, Young-Chul Kim, In Sam Kim, Luis Sierrasesúmaga, Roel Vermeulen, Paige M. Bracci, Mariana C. Stern, Louise A. Brinton, Myron D. Gross, Yong-Bing Xiang, Chih Yi Chen, G. A. Gerald Andriole, Paul S. Meltzer, Ying-Huang Tsai, Faith G. Davis, Ulrika Andersson, Paul Brennan, Sara Lindström, Chaoyu Wang, Giuseppe Mastrangelo, Laufey T. Amundadottir, Immaculata De Vivo, Bryan A. Bassig, Elisabete Weiderpass, Takashi Kohno, Nilanjan Chatterjee, Margaret R. Spitz, Pier Alberto Bertazzi, William Wheeler, David J. Hunter, Wei Tang, Qiuyin Cai, Naomi E. Allen, Molly Schwenn, Emily White, Min Shen, Adeline Seow, Laura E. Beane Freeman, James E. Mensah, Howard D. Sesso, Anna Luisa Di Stefano, Amanda Black, Manuela Gago-Dominguez, Christine B. Ambrosone, Avima M. Ruder, Martha S. Linet, Meir J. Stampfer, Robert C. Kurtz, Donald A. Barkauskas, Lisa W. Chu, Montserrat Garcia-Closas, Jason W. Hoskins, Melissa A. Austin, Kyoung Mu Lee, Jianxin Shi, Charles S. Fuchs, Nathaniel Rothman, Richard Gorlick, Piero Picci, Gianluca Severi, Ann G. Schwartz, Jian Gu, Christopher I. Amos, Marie-Christine Boutron-Ruault, Salvatore Panico, Alicja Wolk, Sara S. Strom, Lisa Mirabello, Jin-Hu Fan, Chin-Fu Hsiao, Neal D. Freedman, Geoffrey S. Tobias, Julie M. Gastier-Foster, Wang, Z, Zhu, B, Zhang, M, Parikh, H, Jia, J, Chung, Cc, Sampson, Jn, Hoskins, Jw, Hutchinson, A, Burdette, L, Ibrahim, A, Hautman, C, Raj, P, Abnet, Cc, Adjei, Aa, Ahlbom, A, Albanes, D, Allen, Ne, Ambrosone, Cb, Aldrich, M, Amiano, P, Amos, C, Andersson, U, Andriole G., Jr, Andrulis, Il, Arici, C, Arslan, Aa, Austin, Ma, Baris, D, Barkauskas, Da, Bassig, Ba, Beane Freeman, Le, Berg, Cd, Berndt, Si, Bertazzi, Pa, Biritwum, Rb, Black, A, Blot, W, Boeing, H, Boffetta, P, Bolton, K, Boutron Ruault, Mc, Bracci, Pm, Brennan, P, Brinton, La, Brotzman, M, Bueno de Mesquita, Hb, Buring, Je, Butler, Ma, Cai, Q, Cancel Tassin, G, Canzian, F, Cao, G, Caporaso, Ne, Carrato, A, Carreon, T, Carta, A, Chang, Gc, Chang, I, Chang Claude, J, Che, X, Chen, Cj, Chen, Cy, Chen, Ch, Chen, C, Chen, Ky, Chen, Ym, Chokkalingam, Ap, Chu, Lw, Clavel Chapelon, F, Colditz, Ga, Colt, J, Conti, D, Cook, Mb, Cortessis, Vk, Crawford, Ed, Cussenot, O, Davis, Fg, De Vivo, I, Deng, X, Ding, T, Dinney, Cp, Di Stefano, Al, Diver, Wr, Duell, Ej, Elena, Jw, Fan, Jh, Feigelson, H, Feychting, M, Figueroa, Jd, Flanagan, Am, Fraumeni JF, Jr, Freedman, Nd, Fridley, Bl, Fuchs, C, Gago Dominguez, M, Gallinger, S, Gao, Yt, Gapstur, Sm, Garcia Closas, M, Garcia Closas, R, Gastier Foster, Jm, Gaziano, Jm, Gerhard, D, Giffen, Ca, Giles, Gg, Gillanders, Em, Giovannucci, El, Goggins, M, Gokgoz, N, Goldstein, Am, Gonzalez, C, Gorlick, R, Greene, Mh, Gross, M, Grossman, Hb, Grubb R., 3rd, Gu, J, Guan, P, Haiman, Ca, Hallmans, G, Hankinson, Se, Harris, Cc, Hartge, P, Hattinger, C, Hayes, Rb, He, Q, Helman, L, Henderson, Be, Henriksson, R, Hoffman Bolton, J, Hohensee, C, Holly, Ea, Hong, Yc, Hoover, Rn, Hosgood HD, 3rd, Hsiao, Cf, Hsing, Aw, Hsiung, Ca, Hu, N, Hu, W, Hu, Z, Huang, M, Hunter, Dj, Inskip, Pd, Ito, H, Jacobs, Ej, Jacobs, Kb, Jenab, M, Ji, Bt, Johansen, C, Johansson, M, Johnson, A, Kaaks, R, Kamat, Am, Kamineni, A, Karagas, M, Khanna, C, Khaw, Kt, Kim, C, Kim, I, Kim, Yh, Kim, Yc, Kim, Yt, Kang, Ch, Jung, Yj, Kitahara, Cm, Klein, Ap, Klein, R, Kogevinas, M, Koh, Wp, Kohno, T, Kolonel, Ln, Kooperberg, C, Kratz, Cp, Krogh, V, Kunitoh, H, Kurtz, Rc, Kurucu, N, Lan, Q, Lathrop, M, Lau, Cc, Lecanda, F, Lee, Km, Lee, Mp, Le Marchand, L, Lerner, Sp, Li, D, Liao, Lm, Lim, Wy, Lin, D, Lin, J, Lindstrom, S, Linet, M, Lissowska, J, Liu, J, Ljungberg, B, Lloreta, J, Lu, D, Ma, J, Malats, N, Mannisto, S, Marina, N, Mastrangelo, G, Matsuo, K, Mcglynn, Ka, McKean Cowdin, R, Mcneill, Lh, Mcwilliams, Rr, Melin, B, Meltzer, P, Mensah, Je, Miao, X, Michaud, D, Mondul, Am, Moore, Le, Muir, K, Niwa, S, Olson, Sh, Orr, N, Panico, Salvatore, Park, Jy, Patel, Av, Patino Garcia, A, Pavanello, S, Peeters, Ph, Peplonska, B, Peters, U, Petersen, Gm, Picci, P, Pike, Mc, Porru, S, Prescott, J, Pu, X, Purdue, Mp, Qiao, Yl, Rajaraman, P, Riboli, E, Risch, Ha, Rodabough, Rj, Rothman, N, Ruder, Am, Ryu, J, Sanson, M, Schned, A, Schumacher, Fr, Schwartz, Ag, Schwartz, Kl, Schwenn, M, Scotlandi, K, Seow, A, Serra, C, Serra, M, Sesso, Hd, Severi, G, Shen, H, Shen, M, Shete, S, Shiraishi, K, Shu, Xo, Siddiq, A, Sierrasesumaga, L, Sierri, S, Loon Sihoe, Ad, Silverman, Dt, Simon, M, Southey, Mc, Spector, L, Spitz, M, Stampfer, M, Stattin, P, Stern, Mc, Stevens, Vl, Stolzenberg Solomon, Rz, Stram, Do, Strom, S, Su, Wc, Sund, M, Sung, Sw, Swerdlow, A, Tan, W, Tanaka, H, Tang, W, Tang, Zz, Tardon, A, Tay, E, Taylor, Pr, Tettey, Y, Thomas, Dm, Tirabosco, R, Tjonneland, A, Tobias, G, Toro, Jr, Travis, Rc, Trichopoulos, D, Troisi, R, Truelove, A, Tsai, Yh, Tucker, Ma, Tumino, R, Van Den Berg, D, Van Den Eeden, Sk, Vermeulen, R, Vineis, P, Visvanathan, K, Vogel, U, Wang, C, Wang, J, Wang, S, Weiderpass, E, Weinstein, Sj, Wentzensen, N, Wheeler, W, White, E, Wiencke, Jk, Wolk, A, Wolpin, Bm, Wong, Mp, Wrensch, M, Wu, C, Wu, T, Wu, X, Wu, Yl, Wunder, J, Xiang, Yb, Xu, J, Yang, Hp, Yang, Pc, Yatabe, Y, Ye, Y, Yeboah, Ed, Yin, Z, Ying, C, Yu, Cj, Yu, K, Yuan, Jm, Zanetti, Ka, Zeleniuch Jacquotte, A, Zheng, W, Zhou, B, Mirabello, L, Savage, Sa, Kraft, P, Chanock, Sj, Yeager, M, Landi, Mt, Shi, J, Chatterjee, N, Amundadottir, Lt, Wang, Z., Zhu, B., Zhang, M., Parikh, H., Jia, J., Chung, C.C., Sampson, J.N., Hoskins, J.W., Hutchinson, A., Burdette, L., Ibrahim, A., Hautman, C., Raj, P.S., Abnet, C.C., Adjei, A.A., Ahlbom, A., Albanes, D., Allen, N.E., Ambrosone, C.B., Aldrich, M., Amiano, P., Amos, C., Andersson, U., Gerald Andriole, G.A., Jr., Andrulis, I.L., Arici, C., Arslan, A.A., Austin, M.A., Baris, D., Barkauskas, D.A., Bassig, B.A., Freeman, L.E.B., Berg, C.D., Berndt, S.I., Bertazzi, P.A., Biritwum, R.B., Black, A., Blot, W., Boeing, H., Boffetta, P., Bolton, K., Boutron-Ruault, M.-C., Bracci, P.M., Brennan, P., Brinton, L.A., Brotzman, M., Bueno-de-Mesquita, H.B., Buring, J.E., Butler, M.A., Cai, Q., Cancel-Tassin, G., Canzian, F., Cao, G., Caporaso, N.E., Carrato, A., Carreon, T., Carta, A., Chang, G.-C., Chang, I.-S., Chang-Claude, J., Che, X., Chen, C.-J., Chen, C.-Y., Chen, C.-H., Chen, C., Chen, K.-Y., Chen, Y.-M., Chokkalingam, A.P., Chu, L.W., Clavel-Chapelon, F., Colditz, G.A., Colt, J.S., Conti, D., Cook, M.B., Cortessis, V.K., Crawford, E.D., Cussenot, O., Davis, F.G., De Vivo, I., Deng, X., Ding, T., Dinney, C.P., Di Stefano, A.L., Diver, W.R., Duell, E.J., Elena, J.W., Fan, J.-H., Feigelson, H.S., Feychting, M., Figueroa, J.D., Flanagan, A.M., Fraumeni, J.F., Jr., Freedman, N.D., Fridley, B.L., Fuchs, C.S., Gago-Dominguez, M., Gallinger, S., Gao, Y.-T., Gapstur, S.M., Garcia-Closas, M., Garcia-Closas, R., Gastier-Foster, J.M., Gaziano, J.M., Gerhard, D.S., Giffen, C.A., Giles, G.G., Gillanders, E.M., Giovannucci, E.L., Goggins, M., Gokgoz, N., Goldstein, A.M., Gonzalez, C., Gorlick, R., Greene, M.H., Gross, M., Grossman, H.B., Grubb, R., III and Gu, J., Guan, P., Haiman, C.A., Hallmans, G., Hankinson, S.E., Harris, C.C., Hartge, P., Hattinger, C., Hayes, R.B., He, Q., Helman, L., Henderson, B.E., Henriksson, R., Hoffman-Bolton, J., Hohensee, C., Holly, E.A., Hong, Y.-C., Hoover, R.N., Dean Hosgood, H., Hsiao, C.-F., Hsing, A.W., Hsiung, C.A., Hu, N., Hu, W., Hu, Z., Huang, M.-S., Hunter, D.J., Inskip, P.D., Ito, H., Jacobs, E.J., Jacobs, K.B., Jenab, M., Ji, B.-T., Johansen, C., Johansson, M., Johnson, A., Kaaks, R., Kamat, A.M., Kamineni, A., Karagas, M., Khanna, C., Khaw, K.-T., Kim, C., Kim, I.-S., Kim, J.H., Kim, Y.H., Kim, Y.-C., Kim, Y.T., Kang, C.H., Jung, Y.J., Kitahara, C.M., Klein, A.P., Klein, R., Kogevinas, M., Koh, W.-P., Kohno, T., Kolonel, L.N., Kooperberg, C., Kratz, C.P., Krogh, V., Kunitoh, H., Kurtz, R.C., Kurucu, N., Lan, Q., Lathrop, M., Lau, C.C., Lecanda, F., Lee, K.-M., Lee, M.P., Marchand, L.L., Lerner, S.P., Li, D., Liao, L.M., Lim, W.-Y., Lin, D., Lin, J., Lindstrom, S., Linet, M.S., Lissowska, J., Liu, J., Ljungberg, B., Lloreta, J., Lu, D., Ma, J., Malats, N., Mannisto, S., Marina, N., Mastrangelo, G., Matsuo, K., McGlynn, K.A., McKean-Cowdin, R., McNeil, L.H., McWilliams, R.R., Melin, B.S., Meltzer, P.S., Mensah, J.E., Miao, X., Michaud, D.S., Mondul, A.M., Moore, L.E., Muir, K., Niwa, S., Olson, S.H., Orr, N., Panico, S., Park, J.Y., Patel, A.V., Patino-Garcia, A., Pavanello, S., Peeters, P.H.M., Peplonska, B., Peters, U., Petersen, G.M., Picci, P., Pike, M.C., Porru, S., Prescott, J., Pu, X., Purdue, M.P., Qiao, Y.-L., Rajaraman, P., Riboli, E., Risch, H.A., Rodabough, R.J., Rothman, N., Ruder, A.M., Ryu, J.-S., Sanson, M., Schned, A., Schumacher, F.R., Schwartz, A.G., Schwartz, K.L., Schwenn, M., Scotlandi, K., Seow, A., Serra, C., Serra, M., Sesso, H.D., Severi, G., Shen, H., Shen, M., Shete, S., Shiraishi, K., Shu, X.-O., Siddiq, A., Sierrasesumaga, L., Sierri, S., Sihoe, A.D.L., Silverman, D.T., Simon, M., Southey, M.C., Spector, L., Spitz, M., Stampfer, M., Stattin, P., Stern, M.C., Stevens, V.L., Stolzenberg-Solomon, R.Z., Stram, D.O., Strom, S.S., Su, W.-C., Sund, M., Sung, S.W., Swerdlow, A., Tan, W., Tanaka, H., Tang, W., Tang, Z.-Z., Tardon, A., Tay, E., Taylor, P.R., Tettey, Y., Thomas, D.M., Tirabosco, R., Tjonneland, A., Tobias, G.S., Toro, J.R., Travis, R.C., Trichopoulos, D., Troisi, R., Truelove, A., Tsai, Y.-H., Tucker, M.A., Tumino, R., Van Den Berg, D., Van Den Eeden, S.K., Vermeulen, R., Vineis, P., Visvanathan, K., Vogel, U., Wang, C., Wang, J., Wang, S.S., Weiderpass, E., Weinstein, S.J., Wentzensen, N., Wheeler, W., White, E., Wiencke, J.K., Wolk, A., Wolpin, B.M., Wong, M.P., Wrensch, M., Wu, C., Wu, T., Wu, X., Wu, Y.-L., Wunder, J.S., Xiang, Y.-B., Xu, J., Yang, H.P., Yang, P.-C., Yatabe, Y., Ye, Y., Yeboah, E.D., Yin, Z., Ying, C., Yu, C.-J., Yu, K., Yuan, J.-M., Zanetti, K.A., Zeleniuch-Jacquotte, A., Zheng, W., Zhou, B., Mirabello, L., Savage, S.A., Kraft, P., Chanock, S.J., Yeager, M., Landi, M.T., Shi, J., Chatterjee, N., and Amundadottir, L.T.

Subjects

Male, SINGLE-NUCLEOTIDE POLYMORPHISM, Genome-wide association study, Epigenesis, Genetic, Gene Frequency, Molecular Biology, Genetics, Genetics (clinical), Neoplasms, Odds Ratio, Genome-wide association studies (GWAS), Telomerase, DNA METHYLATION Author Information, Association Studies Articles, General Medicine, PANCREATIC-CANCER, PROSTATE-CANCER, Neoplasm Proteins, POSTMENOPAUSAL BREAST-CANCER, TERT PROMOTER MUTATIONS, Gene Expression Regulation, Neoplastic, 2 SUSCEPTIBILITY LOCI, DNA methylation, Chromosomes, Human, Pair 5, Female, Risk, Locus (genetics), Single-nucleotide polymorphism, TERT and CLPTM1L gene, Biology, Polymorphism, Single Nucleotide, LUNG-CANCER, Humans, Genetic Predisposition to Disease, GENOME-WIDE ASSOCIATION, Allele, Gene, Allele frequency, Alleles, Genetic association, chromosome 5p15.33, Computational Biology, Membrane Proteins, DNA Methylation, Genetic Loci, TELOMERE LENGTH, Genome-Wide Association Study

Abstract

Genome-wide association studies (GWAS) have mapped risk alleles for at least 10 distinct cancers to a small region of 63 000 bp on chromosome 5p15.33. This region harbors the TERT and CLPTM1L genes; the former encodes the catalytic subunit of telomerase reverse transcriptase and the latter may play a role in apoptosis. To investigate further the genetic architecture of common susceptibility alleles in this region, we conducted an agnostic subset-based meta-analysis (association analysis based on subsets) across six distinct cancers in 34 248 cases and 45 036 controls. Based on sequential conditional analysis, we identified as many as six independent risk loci marked by common single-nucleotide polymorphisms: five in the TERT gene (Region 1: rs7726159, P = 2.10 x 10(-39); Region 3: rs2853677, P = 3.30 x 10(-36) and PConditional = 2.36 x 10(-8); Region 4: rs2736098, P = 3.87 x 10(-12) and PConditional = 5.19 x 10(-6), Region 5: rs13172201, P = 0.041 and PConditional = 2.04 x 10(-6); and Region 6: rs10069690, P = 7.49 x 10(-15) and PConditional = 5.35 x 10(-7)) and one in the neighboring CLPTM1L gene (Region 2: rs451360; P = 1.90 x 10(-18) and PConditional = 7.06 x 10(-16)). Between three and five cancers mapped to each independent locus with both risk-enhancing and protective effects. Allele-specific effects on DNA methylation were seen for a subset of risk loci, indicating that methylation and subsequent effects on gene expression may contribute to the biology of risk variants on 5p15.33. Our results provide strong support for extensive pleiotropy across this region of 5p15.33, to an extent not previously observed in other cancer susceptibility loci.

Published

2014

29. Analysis of Heritability and Shared Heritability Based on Genome-Wide Association Studies for Thirteen Cancer Types

Author

Yeul Hong Kim, Sonja I. Berndt, José María Huerta, Morgan Rouprêt, Reury Perng Perng, Yi Young Choi, Lindsay M. Morton, Roberto Tirabosco, H. Bas Bueno-de-Mesquita, Wendy Cozen, Neil E. Caporaso, Stephen J. Chanock, Zhenhong Zhao, Dina Halai, Neyssa Marina, Ann L. Oberg, Stephen M. Ansell, Zhibin Hu, Donghui Li, Anne J. Novak, Jenny Turner, Wen Tan, Julie E. Buring, Stefano Porru, Qincheng He, Tania Carreón, Guoping Wu, Graham G. Giles, Claire M. Vajdic, Rudolf Kaaks, Ulrika Andersson, Susan L. Slager, Jen Yu Hung, Luis Sierrasesúmaga, Roel Vermeulen, Louise A. Brinton, Myron D. Gross, Jennifer Prescott, E. Lund, Chih Yi Chen, Jin Eun Choi, Chaoyu Wang, George J. Weiner, H. Dean Hosgood, Haixin Li, Carrie A. Thompson, Núria Malats, James McKay, Stephanie J. Weinstein, Young Tae Kim, Emily White, Pan-Chyr Yang, Orestis A. Panagiotou, Robert J. Klein, Joseph Vijai, Josep Lloreta, Immaculata De Vivo, Sofia Pavanello, Thomas E. Witzig, Montserrat Garcia-Closas, Roger Henriksson, Bryan A. Bassig, Tait D. Shanafelt, Rachel S. Kelly, Joseph M. Connors, Marco Rais, Wu Chou Su, Alex Smith, John J. Spinelli, Julie M. Gastier-Foster, Anne Kricker, In Kyu Park, Marc J. Gunter, Chancellor Hohensee, Simon Crouch, Jarmo Virtamo, M. G. Ennas, Lucia Conde, Lotte Maxild Mortensen, Lenka Foretova, Eric J. Duell, Anthony Staines, Hongyan Chen, Baosen Zhou, Brian M. Wolpin, Simone Benhamou, Zhaoming Wang, Françoise Clavel-Chapelon, Charles C. Chung, Nan Hu, Domenico Palli, Rebecca Montalvan, Thomas M. Habermann, Debra T. Silverman, Preetha Rajaraman, Christian C. Abnet, Wei-Yen Lim, Yuh Min Chen, Michelle Cotterchio, Lucia Miligi, Claudia Maria Hattinger, Eve Roman, Christopher Kim, Federico Canzian, Alan D. L. Sihoe, Sharon A. Savage, Mark P. Purdue, Maria Teresa Landi, Susan M. Gapstur, M Zucca, Yuanqing Ye, Jian Su, Chong-Jen Yu, Edward Giovannucci, Alain Monnereau, Afshan Siddiq, Ralph L. Erickson, Katherine A. McGlynn, Petra H.M. Peeters, W. Ryan Diver, David Van Den Berg, Gloria M. Petersen, Judith Hoffman-Bolton, Xiao-Ou Shu, Ying Chen, Eric J. Jacobs, Heiner Boeing, Sophia S. Wang, Hans-Olov Adami, Yuqing Li, Jacqueline Clavel, Ellen T. Chang, Tongzhang Zheng, William Pao, Hideo Kunitoh, Ulrike Peters, Jenny Chang-Claude, Alexandra Nieters, Silvia de Sanjosé, Chen Wu, Anders Ahlbom, Jun Suk Kim, Fredrick R. Schumacher, Roberta McKean-Cowdin, Laurence N. Kolonel, Herbert Yu, Li Liu, Vittorio Krogh, Tangchun Wu, Ho Il Yoon, Joseph F. Fraumeni, Olivier Cussenot, Jae Sook Sung, Kari E. North, Andrew D. Zelenetz, Ana Patiño-García, Anne Zeleniuch-Jacquotte, Christopher A. Haiman, Biyun Qian, Giovanni Maria Ferri, Rebecca Rodabough, Xifeng Wu, Maria Feychting, Kuan-Yu Chen, Laure Dossus, Jianjun Liu, Jean Wactawski-Wende, Constance Chen, Robert L. Grubb, Paolo Vineis, Mads Melbye, Chien Chung Lin, Malin Sund, Wei Zheng, Jun Xu, Yi Song Chen, Kay-Tee Khaw, Richard K. Severson, Kun-Chieh Chen, Jian-Min Yuan, Bu Tian Ji, Simonetta Di Lollo, Ping Xu, Howard D. Sesso, Yoo Jin Jung, Margaret R. Karagas, Piero Picci, Gianluca Severi, Margaret A. Tucker, Ti Ding, Gee-Chen Chang, Li Hsin Chien, She-Juan An, Maria Pik Wong, Chien-Jen Chen, Jonine D. Figueroa, Sun-Seog Kweon, Katia Scotlandi, Sara H. Olson, Kendra Schwartz, Chang Hyun Kang, Marta Crous-Bou, Yawei Zhang, Ludmila Prokunina-Olsson, Yolanda Benavente, Christine D. Berg, Kala Visvanathan, Loic Le Marchand, Takashi Kohno, Nilanjan Chatterjee, Tracy Lightfoot, Zhihua Yin, Lee E. Moore, Joanne S. Colt, Laurie Burdett, Tetsuya Mitsudomi, Harvey A. Risch, Alfredo Carrato, Hyo Sung Jeon, Victoria L. Stevens, Richard Gorlick, Danylo J. Villano, Alison P. Klein, Angela Brooks-Wilson, Joshua N. Sampson, Chu Chen, You-Lin Qiao, Kouya Shiraishi, Alan R. Schned, Dominique S. Michaud, Peng Guan, Philip R. Taylor, Gerald L. Andriole, John K.C. Chan, Eva Comperat, Randy D. Gascoyne, Marc Maynadie, Kyong Hwa Park, Amanda Black, Charles Kooperberg, Andrea La Croix, Kenneth Offit, Peter Kraft, David Thomas, Manuela Gago-Dominguez, Manolis Kogevinas, Theodore R. Holford, Pamela L. Horn-Ross, Xingzhou He, Massimo Serra, Satu Männistö, Christoffer Johansen, Meredith Yeager, Robert N. Hoover, Mary Ann Butler, William Wheeler, Jian Gu, Wei Wu, Ying Hsiang Chen, Leslie Bernstein, Yao Jen Li, David J. Hunter, In-Jae Oh, Jay S. Wunder, Meng Zhu, Henrik Hjalgrim, Martyn T. Smith, Alisa M. Goldstein, Linda M. Liao, Chao Agnes Hsiung, Ruth C. Travis, Jiucun Wang, Marie-Christine Boutron-Ruault, Daru Lu, Reina García-Closas, Avima M. Ruder, Martha S. Linet, Wei Tang, Geraldine Cancel-Tassin, Brian K. Link, Rebecca D. Jackson, J. Michael Gaziano, Malcolm C. Pike, Yu-Tang Gao, Lisa Mirabello, Alan A. Arslan, Hong Zheng, Nicolas Wentzensen, Chung Hsing Chen, I. Shou Chang, Meir J. Stampfer, Brenda M. Birmann, Alison Johnson, Wong-Ho Chow, Chin-Fu Hsiao, Neal D. Freedman, Robert C. Kurtz, Donald A. Barkauskas, Steven Gallinger, Junwen Wang, Simina M. Boca, Irene L. Andrulis, Hongbing Shen, Adrienne M. Flanagan, Cosmeri Rizzato, Marianna C. Stern, Angela Carta, Melissa C. Southey, Corrado Magnani, Sook Whan Sung, Lesley F. Tinker, M. Dorronsoro, Guangfu Jin, Giovanna Masala, Yi-Long Wu, Min-Ho Shin, Ming Shyan Huang, Göran Hallmans, Xueying Zhao, Jacques Riby, Beatrice Melin, Adonina Tardón, Börje Ljungberg, Mark Liebow, Elizabeth A. Holly, Carol Giffen, Paolo Boffetta, Maria Fernanda Amary, Jihua Li, Mazda Jenab, Keitaro Matsuo, Nalan Gokgoz, Karin E. Smedby, Cari M. Kitahara, Mia M. Gaudet, Cecilia Arici, Brian E. Henderson, Amy Hutchinson, Elio Riboli, Patricia Hartge, Victoria K. Cortessis, Kexin Chen, Dalsu Baris, Michael Goggins, Young-Chul Kim, Tsung-Ying Yang, Fusheng Wei, Peter D. Inskip, Demetrius Albanes, Fang Yu Tsai, Qing Lan, Li Jin, Charles E. Lawrence, Nikolaus Becker, Rachael S. Stolzenberg-Solomon, Bengt Glimelius, Wei Hu, Maria Dolores Chirlaque, Kimberly A. Bertrand, Bruce K. Armstrong, Veronica Wendy Setiawan, Kathy J. Helzlsouer, Manal M. Hassan, Jun Yokota, David V. Conti, Kai Yu, Chenwei Liu, Christine F. Skibola, Jae Yong Park, Fernando Lecanda, Dimitrios Trichopoulos, Eleanor Kane, Dongxin Lin, Yun-Chul Hong, Consol Serra, Anne Tjønneland, Melissa A. Austin, X. Zhang, Charles S. Fuchs, Nathaniel Rothman, Paul Brennan, Chih-Liang Wang, Wei Shen, Ying-Huang Tsai, Hee Nam Kim, Ghislaine Scelo, Faith G. Davis, Sara Lindström, Molly Schwenn, Giuseppe Mastrangelo, Adeline Seow, Laufey T. Amundadottir, Laura E. Beane Freeman, Huan Guo, Victor Ho-Fun Lee, Aruna Kamineni, Pierluigi Cocco, Jiang Chang, Emanuele Angelucci, Paige M. Bracci, Yong-Bing Xiang, G. M. Monawar Hosain, Elisabete Weiderpass, James R. Cerhan, Junjie Wu, Lauren R. Teras, Jin Hee Kim, Qiuyin Cai, Sampson, J.N., Wheeler, W.A., Yeager, M., Panagiotou, O., Wang, Z., Berndt, S.I., Lan, Q., Abnet, C.C., Amundadottir, L.T., Figueroa, J.D., Landi, M.T., Mirabello, L., Savage, S.A., Taylor, P.R., De Vivo, I., McGlynn, K.A., Purdue, M.P., Rajaraman, P., Adami, H.-O., Ahlbom, A., Albanes, D., Amary, M.F., An, S.-J., Andersson, U., Andriole, G., Jr., Andrulis, I.L., Angelucci, E., Ansell, S.M., Arici, C., Armstrong, B.K., Arslan, A.A., Austin, M.A., Baris, D., Barkauskas, D.A., Bassig, B.A., Becker, N., Benavente, Y., Benhamou, S., Berg, C., Van Den Berg, D., Bernstein, L., Bertrand, K.A., Birmann, B.M., Black, A., Boeing, H., Boffetta, P., Boutron-Ruault, M.-C., Bracci, P.M., Brinton, L., Brooks-Wilson, A.R., Bueno-De-Mesquita, H.B., Burdett, L., Buring, J., Butler, M.A., Cai, Q., Cancel-Tassin, G., Canzian, F., Carrato, A., Carreon, T., Carta, A., Chan, J.K.C., Chang, E.T., Chang, G.-C., Chang, I.S., Chang, J., Chang-Claude, J., Chen, C.-J., Chen, C.-Y., Chen, C., Chen, C.-H., Chen, H., Chen, K., Chen, K.-Y., Chen, K.-C., Chen, Y., Chen, Y.-H., Chen, Y.-S., Chen, Y.-M., Chien, L.-H., Chirlaque, M.-D., Choi, J.E., Choi, Y.Y., Chow, W.-H., Chung, C.C., Clavel, J., Clavel-Chapelon, F., Cocco, P., Colt, J.S., Comperat, E., Conde, L., Connors, J.M., Conti, D., Cortessis, V.K., Cotterchio, M., Cozen, W., Crouch, S., Crous-Bou, M., Cussenot, O., Davis, F.G., Ding, T., Diver, W.R., Dorronsoro, M., Dossus, L., Duell, E.J., Ennas, M.G., Erickson, R.L., Feychting, M., Flanagan, A.M., Foretova, L., Fraumeni, J.F., Jr., Freedman, N.D., Freeman, L.E.B., Fuchs, C., Gago-Dominguez, M., Gallinger, S., Gao, Y.-T., Gapstur, S.M., Garcia-Closas, M., García-Closas, R., Gascoyne, R.D., Gastier-Foster, J., Gaudet, M.M., Gaziano, J.M., Giffen, C., Giles, G.G., Giovannucci, E., Glimelius, B., Goggins, M., Gokgoz, N., Goldstein, A.M., Gorlick, R., Gross, M., Grubb, R., III and Gu, J., Guan, P., Gunter, M., Guo, H., Habermann, T.M., Haiman, C.A., Halai, D., Hallmans, G., Hassan, M., Hattinger, C., He, Q., He, X., Helzlsouer, K., Henderson, B., Henriksson, R., Hjalgrim, H., Hoffman-Bolton, J., Hohensee, C., Holford, T.R., Holly, E.A., Hong, Y.-C., Hoover, R.N., Horn-Ross, P.L., Hosain, G.M.M., Hosgood, H.D., III and Hsiao, C.-F., Hu, N., Hu, W., Hu, Z., Huang, M.-S., Huerta, J.-M., Hung, J.-Y., Hutchinson, A., Inskip, P.D., Jackson, R.D., Jacobs, E.J., Jenab, M., Jeon, H.-S., Ji, B.-T., Jin, G., Jin, L., Johansen, C., Johnson, A., Jung, Y.J., Kaaks, R., Kamineni, A., Kane, E., Kang, C.H., Karagas, M.R., Kelly, R.S., Khaw, K.-T., Kim, C., Kim, H.N., Kim, J.H., Kim, J.S., Kim, Y.H., Kim, Y.T., Kim, Y.-C., Kitahara, C.M., Klein, A.P., Klein, R.J., Kogevinas, M., Kohno, T., Kolonel, L.N., Kooperberg, C., Kricker, A., Krogh, V., Kunitoh, H., Kurtz, R.C., Kweon, S.-S., La Croix, A., Lawrence, C., Lecanda, F., Lee, V.H.F., Li, D., Li, H., Li, J., Li, Y.-J., Li, Y., Liao, L.M., Liebow, M., Lightfoot, T., Lim, W.-Y., Lin, C.-C., Lin, D., Lindstrom, S., Linet, M.S., Link, B.K., Liu, C., Liu, J., Liu, L., Ljungberg, B., Lloreta, J., Di Lollo, S., Lu, D., Lund, E., Malats, N., Mannisto, S., Marchand, L.L., Marina, N., Masala, G., Mastrangelo, G., Matsuo, K., Maynadie, M., McKay, J., McKean-Cowdin, R., Melbye, M., Melin, B.S., Michaud, D.S., Mitsudomi, T., Monnereau, A., Montalvan, R., Moore, L.E., Mortensen, L.M., Nieters, A., North, K.E., Novak, A.J., Oberg, A.L., Offit, K., Oh, I.-J., Olson, S.H., Palli, D., Pao, W., Park, I.K., Park, J.Y., Park, K.H., Patiño-Garcia, A., Pavanello, S., Peeters, P.H.M., Perng, R.-P., Peters, U., Petersen, G.M., Picci, P., Pike, M.C., Porru, S., Prescott, J., Prokunina-Olsson, L., Qian, B., Qiao, Y.-L., Rais, M., Riboli, E., Riby, J., Risch, H.A., Rizzato, C., Rodabough, R., Roman, E., Roupret, M., Ruder, A.M., De Sanjose, S., Scelo, G., Schned, A., Schumacher, F., Schwartz, K., Schwenn, M., Scotlandi, K., Seow, A., Serra, C., Serra, M., Sesso, H.D., Setiawan, V.W., Severi, G., Severson, R.K., Shanafelt, T.D., Shen, H., Shen, W., Shin, M.-H., Shiraishi, K., Shu, X.-O., Siddiq, A., Sierrasesúmaga, L., Sihoe, A.D.L., Skibola, C.F., Smith, A., Smith, M.T., Southey, M.C., Spinelli, J.J., Staines, A., Stampfer, M., Stern, M.C., Stevens, V.L., Stolzenberg-Solomon, R.S., Su, J., Su, W.-C., Sund, M., Sung, J.S., Sung, S.W., Tan, W., Tang, W., Tardón, A., Thomas, D., Thompson, C.A., Tinker, L.F., Tirabosco, R., Tjønneland, A., Travis, R.C., Trichopoulos, D., Tsai, F.-Y., Tsai, Y.-H., Tucker, M., Turner, J., Vajdic, C.M., Vermeulen, R.C.H., Villano, D.J., Vineis, P., Virtamo, J., Visvanathan, K., Wactawski-Wende, J., Wang, C., Wang, C.-L., Wang, J.-C., Wang, J., Wei, F., Weiderpass, E., Weiner, G.J., Weinstein, S., Wentzensen, N., White, E., Witzig, T.E., Wolpin, B.M., Wong, M.P., Wu, C., Wu, G., Wu, J., Wu, T., Wu, W., Wu, X., Wu, Y.-L., Wunder, J.S., Xiang, Y.-B., Xu, J., Xu, P., Yang, P.-C., Yang, T.-Y., Ye, Y., Yin, Z., Yokota, J., Yoon, H.-I., Yu, C.-J., Yu, H., Yu, K., Yuan, J.-M., Zelenetz, A., Zeleniuch-Jacquotte, A., Zhang, X.-C., Zhang, Y., Zhao, X., Zhao, Z., Zheng, H., Zheng, T., Zheng, W., Zhou, B., Zhu, M., Zucca, M., Boca, S.M., Cerhan, J.R., Ferri, G.M., Hartge, P., Hsiung, C.A., Magnani, C., Miligi, L., Morton, L.M., Smedby, K.E., Teras, L.R., Vijai, J., Wang, S.S., Brennan, P., Caporaso, N.E., Hunter, D.J., Kraft, P., Rothman, N., Silverman, D.T., Slager, S.L., Chanock, S.J., Chatterjee, N., Infection & Immunity, dIRAS RA-I&I RA, LS IRAS EEPI GRA (Gezh.risico-analyse), and Risk Assessment

Subjects

Male, Cancer Research, Lung Neoplasms, Lymphoma, Genome-wide association study, Polymorphism (computer science), Neoplasms, Medicine, Chronic, Genetics, Osteosarcoma, Oncology And Carcinogenesis, Leukemia, Smoking, Family aggregation, Single Nucleotide, Middle Aged, Familial risk, Diffuse, Kidney Neoplasms, Lymphocytic, Oncology, Adult, Aged, Asian Continental Ancestry Group, Bone Neoplasms, European Continental Ancestry Group, Female, Humans, Leukemia, Lymphocytic, Chronic, B-Cell, Lymphoma, Large B-Cell, Diffuse, Polymorphism, Single Nucleotide, Testicular Neoplasms, Tissue Array Analysis, Urinary Bladder Neoplasms, Genetic Predisposition to Disease, Genome-Wide Association Study, Genetic correlation, Large B-Cell, Oncology & Carcinogenesis, Polymorphism, business.industry, Extramural, B-Cell, Cancer, Heritability, Genome-wide association studies for thirteen cancer types, medicine.disease, business

Abstract

BACKGROUND: Studies of related individuals have consistently demonstrated notable familial aggregation of cancer. We aim to estimate the heritability and genetic correlation attributable to the additive effects of common single-nucleotide polymorphisms (SNPs) for cancer at 13 anatomical sites.METHODS: Between 2007 and 2014, the US National Cancer Institute has generated data from genome-wide association studies (GWAS) for 49 492 cancer case patients and 34 131 control patients. We apply novel mixed model methodology (GCTA) to this GWAS data to estimate the heritability of individual cancers, as well as the proportion of heritability attributable to cigarette smoking in smoking-related cancers, and the genetic correlation between pairs of cancers.RESULTS: GWAS heritability was statistically significant at nearly all sites, with the estimates of array-based heritability, hl (2), on the liability threshold (LT) scale ranging from 0.05 to 0.38. Estimating the combined heritability of multiple smoking characteristics, we calculate that at least 24% (95% confidence interval [CI] = 14% to 37%) and 7% (95% CI = 4% to 11%) of the heritability for lung and bladder cancer, respectively, can be attributed to genetic determinants of smoking. Most pairs of cancers studied did not show evidence of strong genetic correlation. We found only four pairs of cancers with marginally statistically significant correlations, specifically kidney and testes (ρ = 0.73, SE = 0.28), diffuse large B-cell lymphoma (DLBCL) and pediatric osteosarcoma (ρ = 0.53, SE = 0.21), DLBCL and chronic lymphocytic leukemia (CLL) (ρ = 0.51, SE =0.18), and bladder and lung (ρ = 0.35, SE = 0.14). Correlation analysis also indicates that the genetic architecture of lung cancer differs between a smoking population of European ancestry and a nonsmoking Asian population, allowing for the possibility that the genetic etiology for the same disease can vary by population and environmental exposures.CONCLUSION: Our results provide important insights into the genetic architecture of cancers and suggest new avenues for investigation.

Published

2015

30. The molecular mechanisms responsible for resistance to ET-743 (Trabectidin; Yondelis) in the Ewing's sarcoma cell line, TC-71

Author

Mc, Manara, Perdichizzi S, Serra M, Pierini R, Benini S, Cm, Hattinger, Astolfi A, Bagnati R, Maurizio D'Incalci, Picci P, Scotlandi K, Manara, M C, Perdichizzi, S, Serra, M, Pierini, R, Benini, S, Hattinger, C M, Astolfi, A, Bagnati, R, D'Incalci, M, Picci, P, and Scotlandi, K

Subjects

Time Factors, Time Factor, Cyclosporins, Dioxoles, Dioxole, Sarcoma, Ewing, Receptor, IGF Type 1, Inhibitory Concentration 50, Tetrahydroisoquinolines, Cell Line, Tumor, Tetrahydroisoquinoline, Humans, ATP Binding Cassette Transporter, Subfamily B, Member 1, Fluorescent Antibody Technique, Indirect, Antineoplastic Agents, Alkylating, Oligonucleotide Array Sequence Analysis, Cell Proliferation, Cyclosporin, Isoquinoline, Genome, Human, Oligonucleotide Array Sequence Analysi, Gene Expression Profiling, Nucleic Acid Hybridization, Isoquinolines, Flow Cytometry, Drug Resistance, Multiple, Gene Expression Regulation, Neoplastic, Drug Resistance, Neoplasm, Human, Trabectedin

Abstract

Identification of new active agents against sarcoma is considered an important challenge in medical oncology. ET-743 (Trabectidin; Yondelis) has recently emerged as the first active drug developed against sarcoma in the last two decades, with promising results especially against soft-tissue sarcoma and Ewing's sarcoma (ES). In this study, we analyzed the molecular mechanisms responsible for resistance to ET-743 in ES cells. Three resistant cell variants (TC/ET 3 nM, TC/ET 6 nM and TC/ET 12 nM) were obtained, showing 28-, 47- and 102-fold increase in ET-743 resistance. Cross-resistance to other drugs was analyzed. Comparative genomic hybridization and cDNA microarray technology were employed to characterize and compare the gene expression profile of two TC/ET variants with the parental cell line. TC/ET cells show a conventional multidrug resistance phenotype and P-glycoprotein overexpression was found to significantly contribute to ET-743 resistance. However, functional studies with the cyclosporine analogue, PSC-833, indicate that other mechanisms are involved in resistance to ET-743. The gene expression profile of TC/ET cells indicated, among up-regulated genes, an increase in expression of insulin-like growth factor receptor-I (IGF-IR) and one of its major intracellular mediators, insulin receptor substrate-1. Functional studies using a neutralizing antibody anti-IGF-IR confirmed involvement of this signaling pathway in resistance to ET-743. Simultaneous blockage of both P-glycoprotein and IGF-IR completely restored sensitivity to ET-743 in ES cells. Overall, these findings provide impetus for future studies testing the therapeutic value of new specific inhibitors of P-glycoprotein and IGF-IR, which could represent a concrete therapeutic option for ES patients refractory to conventional agents.

31. Genetically inferred birthweight, height, and puberty timing and risk of osteosarcoma.

Author

Gianferante DM, Moore A, Spector LG, Wheeler W, Yang T, Hubbard A, Gorlick R, Patiño-Garcia A, Lecanda F, Flanagan AM, Amary F, Andrulis IL, Wunder JS, Thomas DM, Ballinger ML, Serra M, Hattinger C, Demerath E, Johnson W, Birmann BM, De Vivo I, Giles G, Teras LR, Arslan A, Vermeulen R, Sample J, Freedman ND, Huang WY, Chanock SJ, Savage SA, Berndt SI, and Mirabello L

Subjects

Humans, Female, Male, Case-Control Studies, Adolescent, Puberty genetics, Bone Neoplasms genetics, Bone Neoplasms epidemiology, Bone Neoplasms pathology, Genetic Predisposition to Disease, Risk Factors, Child, Adult, Polymorphism, Single Nucleotide, Young Adult, Osteosarcoma genetics, Osteosarcoma pathology, Osteosarcoma epidemiology, Body Height genetics, Birth Weight genetics, Genome-Wide Association Study

Abstract

Introduction: Several studies have linked increased risk of osteosarcoma with tall stature, high birthweight, and early puberty, although evidence is inconsistent. We used genetic risk scores (GRS) based on established genetic loci for these traits and evaluated associations between genetically inferred birthweight, height, and puberty timing with osteosarcoma., Methods: Using genotype data from two genome-wide association studies, totaling 1039 cases and 2923 controls of European ancestry, association analyses were conducted using logistic regression for each study and meta-analyzed to estimate pooled odds ratios (ORs) and 95% confidence intervals (CIs). Subgroup analyses were conducted by case diagnosis age, metastasis status, tumor location, tumor histology, and presence of a known pathogenic variant in a cancer susceptibility gene., Results: Genetically inferred higher birthweight was associated with an increased risk of osteosarcoma (OR =1.59, 95% CI 1.07-2.38, P = 0.02). This association was strongest in cases without metastatic disease (OR =2.46, 95% CI 1.44-4.19, P = 9.5 ×10 -04 ). Although there was no overall association between osteosarcoma and genetically inferred taller stature (OR=1.06, 95% CI 0.96-1.17, P = 0.28), the GRS for taller stature was associated with an increased risk of osteosarcoma in 154 cases with a known pathogenic cancer susceptibility gene variant (OR=1.29, 95% CI 1.03-1.63, P = 0.03). There were no significant associations between the GRS for puberty timing and osteosarcoma., Conclusion: A genetic propensity to higher birthweight was associated with increased osteosarcoma risk, suggesting that shared genetic factors or biological pathways that affect birthweight may contribute to osteosarcoma pathogenesis., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2024

32. Frequency of Pathogenic Germline Variants in Cancer-Susceptibility Genes in Patients With Osteosarcoma.

Author

Mirabello L, Zhu B, Koster R, Karlins E, Dean M, Yeager M, Gianferante M, Spector LG, Morton LM, Karyadi D, Robison LL, Armstrong GT, Bhatia S, Song L, Pankratz N, Pinheiro M, Gastier-Foster JM, Gorlick R, de Toledo SRC, Petrilli AS, Patino-Garcia A, Lecanda F, Gutierrez-Jimeno M, Serra M, Hattinger C, Picci P, Scotlandi K, Flanagan AM, Tirabosco R, Amary MF, Kurucu N, Ilhan IE, Ballinger ML, Thomas DM, Barkauskas DA, Mejia-Baltodano G, Valverde P, Hicks BD, Zhu B, Wang M, Hutchinson AA, Tucker M, Sampson J, Landi MT, Freedman ND, Gapstur S, Carter B, Hoover RN, Chanock SJ, and Savage SA

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Female, Humans, Male, Middle Aged, Young Adult, Genetic Predisposition to Disease genetics, Germ-Line Mutation genetics, High-Throughput Nucleotide Sequencing methods, Osteosarcoma genetics

Abstract

Importance: Osteosarcoma, the most common malignant bone tumor in children and adolescents, occurs in a high number of cancer predisposition syndromes that are defined by highly penetrant germline mutations. The germline genetic susceptibility to osteosarcoma outside of familial cancer syndromes remains unclear., Objective: To investigate the germline genetic architecture of 1244 patients with osteosarcoma., Design, Setting, and Participants: Whole-exome sequencing (n = 1104) or targeted sequencing (n = 140) of the DNA of 1244 patients with osteosarcoma from 10 participating international centers or studies was conducted from April 21, 2014, to September 1, 2017. The results were compared with the DNA of 1062 individuals without cancer assembled internally from 4 participating studies who underwent comparable whole-exome sequencing and 27 173 individuals of non-Finnish European ancestry who were identified through the Exome Aggregation Consortium (ExAC) database. In the analysis, 238 high-interest cancer-susceptibility genes were assessed followed by testing of the mutational burden across 736 additional candidate genes. Principal component analyses were used to identify 732 European patients with osteosarcoma and 994 European individuals without cancer, with outliers removed for patient-control group comparisons. Patients were subsequently compared with individuals in the ExAC group. All data were analyzed from June 1, 2017, to July 1, 2019., Main Outcomes and Measures: The frequency of rare pathogenic or likely pathogenic genetic variants., Results: Among 1244 patients with osteosarcoma (mean [SD] age at diagnosis, 16 [8.9] years [range, 2-80 years]; 684 patients [55.0%] were male), an analysis restricted to individuals with European ancestry indicated a significantly higher pathogenic or likely pathogenic variant burden in 238 high-interest cancer-susceptibility genes among patients with osteosarcoma compared with the control group (732 vs 994, respectively; P = 1.3 × 10-18). A pathogenic or likely pathogenic cancer-susceptibility gene variant was identified in 281 of 1004 patients with osteosarcoma (28.0%), of which nearly three-quarters had a variant that mapped to an autosomal-dominant gene or a known osteosarcoma-associated cancer predisposition syndrome gene. The frequency of a pathogenic or likely pathogenic cancer-susceptibility gene variant was 128 of 1062 individuals (12.1%) in the control group and 2527 of 27 173 individuals (9.3%) in the ExAC group. A higher than expected frequency of pathogenic or likely pathogenic variants was observed in genes not previously linked to osteosarcoma (eg, CDKN2A, MEN1, VHL, POT1, APC, MSH2, and ATRX) and in the Li-Fraumeni syndrome-associated gene, TP53., Conclusions and Relevance: In this study, approximately one-fourth of patients with osteosarcoma unselected for family history had a highly penetrant germline mutation requiring additional follow-up analysis and possible genetic counseling with cascade testing.

Published

2020

33. Endoplasmic reticulum-targeting doxorubicin: a new tool effective against doxorubicin-resistant osteosarcoma.

Author

Buondonno I, Gazzano E, Tavanti E, Chegaev K, Kopecka J, Fanelli M, Rolando B, Fruttero R, Gasco A, Hattinger C, Serra M, and Riganti C

Subjects

Antibiotics, Antineoplastic therapeutic use, Apoptosis, Cell Survival drug effects, DNA Damage, Humans, Immunoblotting, Inhibitory Concentration 50, Polymerase Chain Reaction, Doxorubicin therapeutic use, Drug Delivery Systems, Drug Resistance, Neoplasm drug effects, Endoplasmic Reticulum drug effects, Osteosarcoma drug therapy

Abstract

Doxorubicin is one of the most effective drugs for the first-line treatment of high-grade osteosarcoma. Several studies have demonstrated that the major cause for doxorubicin resistance in osteosarcoma is the increased expression of the drug efflux transporter ABCB1/P-glycoprotein (Pgp). We recently identified a library of H 2 S-releasing doxorubicins (Sdox) that were more effective than doxorubicin against resistant osteosarcoma cells. Here we investigated the molecular mechanisms of the higher efficacy of Sdox in human osteosarcoma cells with increasing resistance to doxorubicin. Differently from doxorubicin, Sdox preferentially accumulated within the endoplasmic reticulum (ER), and its accumulation was only modestly reduced in Pgp-expressing osteosarcoma cells. The increase in doxorubicin resistance was paralleled by the progressive down-regulation of genes of ER-associated protein degradation/ER-quality control (ERAD/ERQC), two processes that remove misfolded proteins and protect cell from ER stress-triggered apoptosis. Sdox, that sulfhydrated ER-associated proteins and promoted their subsequent ubiquitination, up-regulated ERAD/ERQC genes. This up-regulation, however, was insufficient to protect cells, since Sdox activated ER stress-dependent apoptotic pathways, e.g., the C/EBP-β LIP/CHOP/PUMA/caspases 12-7-3 axis. Sdox also promoted the sulfhydration of Pgp that was subsequently ubiquitinated: this process further enhanced Sdox retention and toxicity in resistant cells. Our work suggests that Sdox overcomes doxorubicin resistance in osteosarcoma cells by at least two mechanisms: it induces the degradation of Pgp following its sulfhydration and produces a huge misfolding of ER-associated proteins, triggering ER-dependent apoptosis. Sdox may represent the prototype of innovative anthracyclines, effective against doxorubicin-resistant/Pgp-expressing osteosarcoma cells by perturbing the ER functions.

Published

2019

34. Genome-wide association study identifies the GLDC/IL33 locus associated with survival of osteosarcoma patients.

Author

Koster R, Panagiotou OA, Wheeler WA, Karlins E, Gastier-Foster JM, Caminada de Toledo SR, Petrilli AS, Flanagan AM, Tirabosco R, Andrulis IL, Wunder JS, Gokgoz N, Patiño-Garcia A, Lecanda F, Serra M, Hattinger C, Picci P, Scotlandi K, Thomas DM, Ballinger ML, Gorlick R, Barkauskas DA, Spector LG, Tucker M, Belynda DH, Yeager M, Hoover RN, Wacholder S, Chanock SJ, Savage SA, and Mirabello L

Subjects

Adult, Alleles, Brazil, Female, Genetic Predisposition to Disease genetics, Genome-Wide Association Study methods, Genotype, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide genetics, Proportional Hazards Models, Survival Rate, White People genetics, Bone Neoplasms genetics, Bone Neoplasms mortality, Interleukin-33 genetics, Osteosarcoma genetics, Osteosarcoma mortality

Abstract

Survival rates for osteosarcoma, the most common primary bone cancer, have changed little over the past three decades and are particularly low for patients with metastatic disease. We conducted a multi-institutional genome-wide association study (GWAS) to identify germline genetic variants associated with overall survival in 632 patients with osteosarcoma, including 523 patients of European ancestry and 109 from Brazil. We conducted a time-to-event analysis and estimated hazard ratios (HR) and 95% confidence intervals (CI) using Cox proportional hazards models, with and without adjustment for metastatic disease. The results were combined across the European and Brazilian case sets using a random-effects meta-analysis. The strongest association after meta-analysis was for rs3765555 at 9p24.1, which was inversely associated with overall survival (HR = 1.76; 95% CI 1.41-2.18, p = 4.84 × 10 -7 ). After imputation across this region, the combined analysis identified two SNPs that reached genome-wide significance. The strongest single association was with rs55933544 (HR = 1.9; 95% CI 1.5-2.4; p = 1.3 × 10 -8 ), which localizes to the GLDC gene, adjacent to the IL33 gene and was consistent across both the European and Brazilian case sets. Using publicly available data, the risk allele was associated with lower expression of IL33 and low expression of IL33 was associated with poor survival in an independent set of patients with osteosarcoma. In conclusion, we have identified the GLDC/IL33 locus on chromosome 9p24.1 as associated with overall survival in patients with osteosarcoma. Further studies are needed to confirm this association and shed light on the biological underpinnings of this susceptibility locus., (© 2017 UICC.)

Published

2018

35. CD99 polymorphisms significantly influence the probability to develop Ewing sarcoma in earlier age and patient disease progression.

Author

Martinelli M, Parra A, Scapoli L, De Sanctis P, Chiadini V, Hattinger C, Picci P, Zucchini C, and Scotlandi K

Subjects

Adolescent, Adult, Age Factors, Cell Line, Tumor, Child, Child, Preschool, Cohort Studies, Disease Progression, Genotype, Humans, Middle Aged, Polymorphism, Genetic, Sarcoma, Ewing pathology, Young Adult, 12E7 Antigen genetics, Sarcoma, Ewing genetics

Abstract

Ewing sarcoma (EWS), the second most common primary bone tumor in pediatric age, is known for its paucity of recurrent somatic abnormalities. Apart from the chimeric oncoprotein that derives from the fusion of EWS and FLI genes, recent genome-wide association studies have identified susceptibility variants near the EGR2 gene that regulate DNA binding of EWS-FLI. However, to induce transformation, EWS-FLI requires the presence of additional molecular events, including the expression of CD99, a cell surface molecule with critical relevance for the pathogenesis of EWS. High expression of CD99 is a common and distinctive feature of EWS cells, and it has largely been used for the differential diagnosis of the disease. The present study first links CD99 germline genetic variants to the susceptibility of EWS development and its progression. In particular, a panel of 25 single nucleotide polymorphisms has been genotyped in a case-control study. The CD99 rs311059 T variant was found to be significantly associated [P value = 0.0029; ORhet = 3.9 (95% CI 1.5-9.8) and ORhom = 5.3 (95% CI 1.2-23.7)] with EWS onset in patients less than 14 years old, while the CD99 rs312257-T was observed to be associated [P value = 0.0265; ORhet = 3.5 (95% CI 1.3-9.9)] with a reduced risk of relapse. Besides confirming the importance of CD99, our findings indicate that polymorphic variations in this gene may affect either development or progression of EWS, leading to further understanding of this cancer and development of better diagnostics/prognostics for children and adolescents with this devastating disease.

Published

2016

36. Analysis of Heritability and Shared Heritability Based on Genome-Wide Association Studies for Thirteen Cancer Types.

Author

Sampson JN, Wheeler WA, Yeager M, Panagiotou O, Wang Z, Berndt SI, Lan Q, Abnet CC, Amundadottir LT, Figueroa JD, Landi MT, Mirabello L, Savage SA, Taylor PR, De Vivo I, McGlynn KA, Purdue MP, Rajaraman P, Adami HO, Ahlbom A, Albanes D, Amary MF, An SJ, Andersson U, Andriole G Jr, Andrulis IL, Angelucci E, Ansell SM, Arici C, Armstrong BK, Arslan AA, Austin MA, Baris D, Barkauskas DA, Bassig BA, Becker N, Benavente Y, Benhamou S, Berg C, Van Den Berg D, Bernstein L, Bertrand KA, Birmann BM, Black A, Boeing H, Boffetta P, Boutron-Ruault MC, Bracci PM, Brinton L, Brooks-Wilson AR, Bueno-de-Mesquita HB, Burdett L, Buring J, Butler MA, Cai Q, Cancel-Tassin G, Canzian F, Carrato A, Carreon T, Carta A, Chan JK, Chang ET, Chang GC, Chang IS, Chang J, Chang-Claude J, Chen CJ, Chen CY, Chen C, Chen CH, Chen C, Chen H, Chen K, Chen KY, Chen KC, Chen Y, Chen YH, Chen YS, Chen YM, Chien LH, Chirlaque MD, Choi JE, Choi YY, Chow WH, Chung CC, Clavel J, Clavel-Chapelon F, Cocco P, Colt JS, Comperat E, Conde L, Connors JM, Conti D, Cortessis VK, Cotterchio M, Cozen W, Crouch S, Crous-Bou M, Cussenot O, Davis FG, Ding T, Diver WR, Dorronsoro M, Dossus L, Duell EJ, Ennas MG, Erickson RL, Feychting M, Flanagan AM, Foretova L, Fraumeni JF Jr, Freedman ND, Beane Freeman LE, Fuchs C, Gago-Dominguez M, Gallinger S, Gao YT, Gapstur SM, Garcia-Closas M, García-Closas R, Gascoyne RD, Gastier-Foster J, Gaudet MM, Gaziano JM, Giffen C, Giles GG, Giovannucci E, Glimelius B, Goggins M, Gokgoz N, Goldstein AM, Gorlick R, Gross M, Grubb R 3rd, Gu J, Guan P, Gunter M, Guo H, Habermann TM, Haiman CA, Halai D, Hallmans G, Hassan M, Hattinger C, He Q, He X, Helzlsouer K, Henderson B, Henriksson R, Hjalgrim H, Hoffman-Bolton J, Hohensee C, Holford TR, Holly EA, Hong YC, Hoover RN, Horn-Ross PL, Hosain GM, Hosgood HD 3rd, Hsiao CF, Hu N, Hu W, Hu Z, Huang MS, Huerta JM, Hung JY, Hutchinson A, Inskip PD, Jackson RD, Jacobs EJ, Jenab M, Jeon HS, Ji BT, Jin G, Jin L, Johansen C, Johnson A, Jung YJ, Kaaks R, Kamineni A, Kane E, Kang CH, Karagas MR, Kelly RS, Khaw KT, Kim C, Kim HN, Kim JH, Kim JS, Kim YH, Kim YT, Kim YC, Kitahara CM, Klein AP, Klein RJ, Kogevinas M, Kohno T, Kolonel LN, Kooperberg C, Kricker A, Krogh V, Kunitoh H, Kurtz RC, Kweon SS, LaCroix A, Lawrence C, Lecanda F, Lee VH, Li D, Li H, Li J, Li YJ, Li Y, Liao LM, Liebow M, Lightfoot T, Lim WY, Lin CC, Lin D, Lindstrom S, Linet MS, Link BK, Liu C, Liu J, Liu L, Ljungberg B, Lloreta J, Di Lollo S, Lu D, Lund E, Malats N, Mannisto S, Le Marchand L, Marina N, Masala G, Mastrangelo G, Matsuo K, Maynadie M, McKay J, McKean-Cowdin R, Melbye M, Melin BS, Michaud DS, Mitsudomi T, Monnereau A, Montalvan R, Moore LE, Mortensen LM, Nieters A, North KE, Novak AJ, Oberg AL, Offit K, Oh IJ, Olson SH, Palli D, Pao W, Park IK, Park JY, Park KH, Patiño-Garcia A, Pavanello S, Peeters PH, Perng RP, Peters U, Petersen GM, Picci P, Pike MC, Porru S, Prescott J, Prokunina-Olsson L, Qian B, Qiao YL, Rais M, Riboli E, Riby J, Risch HA, Rizzato C, Rodabough R, Roman E, Roupret M, Ruder AM, Sanjose Sd, Scelo G, Schned A, Schumacher F, Schwartz K, Schwenn M, Scotlandi K, Seow A, Serra C, Serra M, Sesso HD, Setiawan VW, Severi G, Severson RK, Shanafelt TD, Shen H, Shen W, Shin MH, Shiraishi K, Shu XO, Siddiq A, Sierrasesúmaga L, Sihoe AD, Skibola CF, Smith A, Smith MT, Southey MC, Spinelli JJ, Staines A, Stampfer M, Stern MC, Stevens VL, Stolzenberg-Solomon RS, Su J, Su WC, Sund M, Sung JS, Sung SW, Tan W, Tang W, Tardón A, Thomas D, Thompson CA, Tinker LF, Tirabosco R, Tjønneland A, Travis RC, Trichopoulos D, Tsai FY, Tsai YH, Tucker M, Turner J, Vajdic CM, Vermeulen RC, Villano DJ, Vineis P, Virtamo J, Visvanathan K, Wactawski-Wende J, Wang C, Wang CL, Wang JC, Wang J, Wei F, Weiderpass E, Weiner GJ, Weinstein S, Wentzensen N, White E, Witzig TE, Wolpin BM, Wong MP, Wu C, Wu G, Wu J, Wu T, Wu W, Wu X, Wu YL, Wunder JS, Xiang YB, Xu J, Xu P, Yang PC, Yang TY, Ye Y, Yin Z, Yokota J, Yoon HI, Yu CJ, Yu H, Yu K, Yuan JM, Zelenetz A, Zeleniuch-Jacquotte A, Zhang XC, Zhang Y, Zhao X, Zhao Z, Zheng H, Zheng T, Zheng W, Zhou B, Zhu M, Zucca M, Boca SM, Cerhan JR, Ferri GM, Hartge P, Hsiung CA, Magnani C, Miligi L, Morton LM, Smedby KE, Teras LR, Vijai J, Wang SS, Brennan P, Caporaso NE, Hunter DJ, Kraft P, Rothman N, Silverman DT, Slager SL, Chanock SJ, and Chatterjee N

Subjects

Adult, Aged, Asian People genetics, Asian People statistics & numerical data, Bone Neoplasms genetics, Female, Humans, Kidney Neoplasms genetics, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Lung Neoplasms etiology, Lung Neoplasms genetics, Lymphoma, Large B-Cell, Diffuse genetics, Male, Middle Aged, Neoplasms etiology, Osteosarcoma genetics, Polymorphism, Single Nucleotide, Smoking adverse effects, Testicular Neoplasms genetics, Tissue Array Analysis, Urinary Bladder Neoplasms etiology, Urinary Bladder Neoplasms genetics, White People genetics, White People statistics & numerical data, Genetic Predisposition to Disease, Genome-Wide Association Study, Neoplasms genetics

Abstract

Background: Studies of related individuals have consistently demonstrated notable familial aggregation of cancer. We aim to estimate the heritability and genetic correlation attributable to the additive effects of common single-nucleotide polymorphisms (SNPs) for cancer at 13 anatomical sites., Methods: Between 2007 and 2014, the US National Cancer Institute has generated data from genome-wide association studies (GWAS) for 49 492 cancer case patients and 34 131 control patients. We apply novel mixed model methodology (GCTA) to this GWAS data to estimate the heritability of individual cancers, as well as the proportion of heritability attributable to cigarette smoking in smoking-related cancers, and the genetic correlation between pairs of cancers., Results: GWAS heritability was statistically significant at nearly all sites, with the estimates of array-based heritability, hl (2), on the liability threshold (LT) scale ranging from 0.05 to 0.38. Estimating the combined heritability of multiple smoking characteristics, we calculate that at least 24% (95% confidence interval [CI] = 14% to 37%) and 7% (95% CI = 4% to 11%) of the heritability for lung and bladder cancer, respectively, can be attributed to genetic determinants of smoking. Most pairs of cancers studied did not show evidence of strong genetic correlation. We found only four pairs of cancers with marginally statistically significant correlations, specifically kidney and testes (ρ = 0.73, SE = 0.28), diffuse large B-cell lymphoma (DLBCL) and pediatric osteosarcoma (ρ = 0.53, SE = 0.21), DLBCL and chronic lymphocytic leukemia (CLL) (ρ = 0.51, SE =0.18), and bladder and lung (ρ = 0.35, SE = 0.14). Correlation analysis also indicates that the genetic architecture of lung cancer differs between a smoking population of European ancestry and a nonsmoking Asian population, allowing for the possibility that the genetic etiology for the same disease can vary by population and environmental exposures., Conclusion: Our results provide important insights into the genetic architecture of cancers and suggest new avenues for investigation., (Published by Oxford University Press 2015. This work is written by (a) US Government employee(s) and is in the public domain in the US.)

Published

2015

37. A Genome-Wide Scan Identifies Variants in NFIB Associated with Metastasis in Patients with Osteosarcoma.

Author

Mirabello L, Koster R, Moriarity BS, Spector LG, Meltzer PS, Gary J, Machiela MJ, Pankratz N, Panagiotou OA, Largaespada D, Wang Z, Gastier-Foster JM, Gorlick R, Khanna C, de Toledo SR, Petrilli AS, Patiño-Garcia A, Sierrasesúmaga L, Lecanda F, Andrulis IL, Wunder JS, Gokgoz N, Serra M, Hattinger C, Picci P, Scotlandi K, Flanagan AM, Tirabosco R, Amary MF, Halai D, Ballinger ML, Thomas DM, Davis S, Barkauskas DA, Marina N, Helman L, Otto GM, Becklin KL, Wolf NK, Weg MT, Tucker M, Wacholder S, Fraumeni JF Jr, Caporaso NE, Boland JF, Hicks BD, Vogt A, Burdett L, Yeager M, Hoover RN, Chanock SJ, and Savage SA

Subjects

Alleles, Animals, Cell Line, Tumor, Cell Movement genetics, Cell Proliferation, Chromosomes, Human, Pair 9, DNA Transposable Elements, Disease Models, Animal, Gene Expression Regulation, Neoplastic, Genetic Association Studies, Genetic Linkage, Genetic Predisposition to Disease, Genotype, Humans, Linkage Disequilibrium, Mice, Mutagenesis, Insertional, Neoplasm Metastasis, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Bone Neoplasms genetics, Bone Neoplasms pathology, Genetic Variation, Genome-Wide Association Study, NFI Transcription Factors genetics, Osteosarcoma genetics, Osteosarcoma pathology

Abstract

Unlabelled: Metastasis is the leading cause of death in patients with osteosarcoma, the most common pediatric bone malignancy. We conducted a multistage genome-wide association study of osteosarcoma metastasis at diagnosis in 935 osteosarcoma patients to determine whether germline genetic variation contributes to risk of metastasis. We identified an SNP, rs7034162, in NFIB significantly associated with metastasis in European osteosarcoma cases, as well as in cases of African and Brazilian ancestry (meta-analysis of all cases: P = 1.2 × 10(-9); OR, 2.43; 95% confidence interval, 1.83-3.24). The risk allele was significantly associated with lowered NFIB expression, which led to increased osteosarcoma cell migration, proliferation, and colony formation. In addition, a transposon screen in mice identified a significant proportion of osteosarcomas harboring inactivating insertions in Nfib and with lowered NFIB expression. These data suggest that germline genetic variation at rs7034162 is important in osteosarcoma metastasis and that NFIB is an osteosarcoma metastasis susceptibility gene., Significance: Metastasis at diagnosis in osteosarcoma is the leading cause of death in these patients. Here we show data that are supportive for the NFIB locus as associated with metastatic potential in osteosarcoma., (©2015 American Association for Cancer Research.)

Published

2015

38. Genome-wide association study identifies two susceptibility loci for osteosarcoma.

Author

Savage SA, Mirabello L, Wang Z, Gastier-Foster JM, Gorlick R, Khanna C, Flanagan AM, Tirabosco R, Andrulis IL, Wunder JS, Gokgoz N, Patiño-Garcia A, Sierrasesúmaga L, Lecanda F, Kurucu N, Ilhan IE, Sari N, Serra M, Hattinger C, Picci P, Spector LG, Barkauskas DA, Marina N, de Toledo SR, Petrilli AS, Amary MF, Halai D, Thomas DM, Douglass C, Meltzer PS, Jacobs K, Chung CC, Berndt SI, Purdue MP, Caporaso NE, Tucker M, Rothman N, Landi MT, Silverman DT, Kraft P, Hunter DJ, Malats N, Kogevinas M, Wacholder S, Troisi R, Helman L, Fraumeni JF Jr, Yeager M, Hoover RN, and Chanock SJ

Subjects

Adolescent, Adult, Bone Neoplasms ethnology, Case-Control Studies, Female, Humans, Linkage Disequilibrium, Male, Osteosarcoma ethnology, Polymorphism, Single Nucleotide, White People genetics, Young Adult, Bone Neoplasms genetics, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Osteosarcoma genetics

Abstract

Osteosarcoma is the most common primary bone malignancy of adolescents and young adults. To better understand the genetic etiology of osteosarcoma, we performed a multistage genome-wide association study consisting of 941 individuals with osteosarcoma (cases) and 3,291 cancer-free adult controls of European ancestry. Two loci achieved genome-wide significance: a locus in the GRM4 gene at 6p21.3 (encoding glutamate receptor metabotropic 4; rs1906953; P = 8.1 × 10⁻⁹) and a locus in the gene desert at 2p25.2 (rs7591996 and rs10208273; P = 1.0 × 10⁻⁸ and 2.9 × 10⁻⁷, respectively). These two loci warrant further exploration to uncover the biological mechanisms underlying susceptibility to osteosarcoma.

Published

2013

39. Molecular alterations of monophasic synovial sarcoma: loss of chromosome 3p does not alter RASSF1 and MLH1 transcriptional activity.

Author

Pazzaglia L, Benassi MS, Ragazzini P, Gamberi G, Ponticelli F, Chiechi A, Hattinger CM, Morandi L, Alberghini M, Zanella L, Picci P, and Mercuri M

Subjects

Adaptor Proteins, Signal Transducing, Adult, Aged, Biomarkers, Tumor, Carrier Proteins analysis, Carrier Proteins physiology, DNA, Neoplasm analysis, DNA, Neoplasm genetics, Down-Regulation, Female, Gene Expression Regulation, Neoplastic, Humans, Immunohistochemistry, Keratins analysis, Keratins genetics, Male, Microsatellite Repeats, Middle Aged, Mucin-1 analysis, Mucin-1 genetics, MutL Protein Homolog 1, Neoplasms, Connective Tissue chemistry, Neoplasms, Connective Tissue pathology, Neoplasms, Connective Tissue physiopathology, Nuclear Proteins analysis, Nuclear Proteins physiology, Oligonucleotide Array Sequence Analysis, Prognosis, RNA, Messenger analysis, Sarcoma, Synovial chemistry, Sarcoma, Synovial pathology, Sarcoma, Synovial physiopathology, Tumor Suppressor Proteins analysis, Tumor Suppressor Proteins physiology, Vimentin analysis, Vimentin genetics, Carrier Proteins genetics, Chromosome Deletion, Chromosomes, Human, Pair 3 genetics, Neoplasms, Connective Tissue genetics, Nuclear Proteins genetics, Sarcoma, Synovial genetics, Transcription, Genetic, Tumor Suppressor Proteins genetics

Abstract

Differential diagnosis of monophasic synovial sarcoma requires the detection of specific biological markers. In this study we evaluated the presence of molecular alterations in 15 monophasic synovial sarcomas. Multiple changes affecting chromosome arms were detected by CGH-array in all microdissected cases available, and an association between gain or loss of specific regions harbouring cancer progression-associated genes and aneuploid status was found. The most frequent alteration was loss of 3p including 3p21.3-p23 region that, however, did not involve the promoter regions of the corresponding genes, RASSF1 and MLH1. Using Real-Time PCR, mRNA levels of both resulted moderately high compared to normal tissue; however, the weak to absent protein expression suggests RASSF1 and MLH1 post-transcription deregulation. Moreover, immunohistochemical analysis revealed that both mesenchymal and epithelial antigens were present in diploid tumours. These findings confirm the genetic complexity of monophasic synovial sarcoma and underline the need to integrate different analyses for a better knowledge of this tumour, essential to investigate new diagnostic and prognostic markers.

Published

2006

40. The molecular mechanisms responsible for resistance to ET-743 (Trabectidin; Yondelis) in the Ewing's sarcoma cell line, TC-71.

Author

Manara MC, Perdichizzi S, Serra M, Pierini R, Benini S, Hattinger CM, Astolfi A, Bagnati R, D'Incalci M, Picci P, and Scotlandi K

Subjects

ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Antineoplastic Agents, Alkylating pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Cyclosporins pharmacology, Drug Resistance, Multiple genetics, Flow Cytometry, Fluorescent Antibody Technique, Indirect, Gene Expression Profiling, Gene Expression Regulation, Neoplastic drug effects, Gene Expression Regulation, Neoplastic genetics, Genome, Human, Humans, Inhibitory Concentration 50, Nucleic Acid Hybridization methods, Oligonucleotide Array Sequence Analysis methods, Receptor, IGF Type 1 genetics, Sarcoma, Ewing genetics, Sarcoma, Ewing metabolism, Sarcoma, Ewing pathology, Tetrahydroisoquinolines, Time Factors, Trabectedin, Dioxoles pharmacology, Drug Resistance, Neoplasm genetics, Isoquinolines pharmacology

Abstract

Identification of new active agents against sarcoma is considered an important challenge in medical oncology. ET-743 (Trabectidin; Yondelis) has recently emerged as the first active drug developed against sarcoma in the last two decades, with promising results especially against soft-tissue sarcoma and Ewing's sarcoma (ES). In this study, we analyzed the molecular mechanisms responsible for resistance to ET-743 in ES cells. Three resistant cell variants (TC/ET 3 nM, TC/ET 6 nM and TC/ET 12 nM) were obtained, showing 28-, 47- and 102-fold increase in ET-743 resistance. Cross-resistance to other drugs was analyzed. Comparative genomic hybridization and cDNA microarray technology were employed to characterize and compare the gene expression profile of two TC/ET variants with the parental cell line. TC/ET cells show a conventional multidrug resistance phenotype and P-glycoprotein overexpression was found to significantly contribute to ET-743 resistance. However, functional studies with the cyclosporine analogue, PSC-833, indicate that other mechanisms are involved in resistance to ET-743. The gene expression profile of TC/ET cells indicated, among up-regulated genes, an increase in expression of insulin-like growth factor receptor-I (IGF-IR) and one of its major intracellular mediators, insulin receptor substrate-1. Functional studies using a neutralizing antibody anti-IGF-IR confirmed involvement of this signaling pathway in resistance to ET-743. Simultaneous blockage of both P-glycoprotein and IGF-IR completely restored sensitivity to ET-743 in ES cells. Overall, these findings provide impetus for future studies testing the therapeutic value of new specific inhibitors of P-glycoprotein and IGF-IR, which could represent a concrete therapeutic option for ES patients refractory to conventional agents.

Published

2005

41. The use of laryngeal tube by nurses in out-of-hospital emergencies: preliminary experience.

Author

Kette F, Reffo I, Giordani G, Buzzi F, Borean V, Cimarosti R, Codiglia A, Hattinger C, Mongiat A, and Tararan S

Subjects

Aged, Aged, 80 and over, Female, Humans, Italy, Male, Middle Aged, Cardiopulmonary Resuscitation instrumentation, Emergency Medical Services methods, Emergency Nursing, Heart Arrest therapy, Intubation, Intratracheal methods

Abstract

In out-of-hospital emergencies, including cardiac arrest, securing the airway and providing adequate lung ventilation are of paramount importance. Tracheal intubation is perceived as the gold standard technique and it is recommended by International Guidelines, but non skilled personnel often find the procedure difficult to achieve. Supraglottic devices are a good alternative in these situations, because they are superior to a bag-valve-mask for lung ventilation and offer better protection from aspiration. We have tested the laryngeal tube (LT) in out-of-hospital emergencies by minimally trained nurses. The LT was placed in 30 patients in cardiac arrest. LT insertion was successful within two attempts in 90% of patients, and ventilation was adequate in 80% of cases. No regurgitation occurred in any patient. The laryngeal tube remained in the correct position throughout resuscitation attempts in 93.3% of cases, while in two patients (6.6%) it became dislodged. In a subjective evaluation of the manoeuvre by nurses (ease of insertion, adequacy of ventilation, protection from aspiration), 86.7% of them expressed a positive opinion. The laryngeal tube appeared to be a reliable device for nurses to manage the airway in out-of-hospital emergencies.

Published

2005

42. Quality assessment of genetic markers used for therapy stratification.

Author

Ambros IM, Benard J, Boavida M, Bown N, Caron H, Combaret V, Couturier J, Darnfors C, Delattre O, Freeman-Edward J, Gambini C, Gross N, Hattinger CM, Luegmayr A, Lunec J, Martinsson T, Mazzocco K, Navarro S, Noguera R, O'Neill S, Potschger U, Rumpler S, Speleman F, Tonini GP, Valent A, Van Roy N, Amann G, De Bernardi B, Kogner P, Ladenstein R, Michon J, Pearson AD, and Ambros PF

Subjects

Biomarkers, Tumor genetics, Blotting, Southern, Chromosomes, Human, Pair 1 genetics, DNA, Neoplasm analysis, Diagnostic Errors prevention & control, Diagnostic Errors statistics & numerical data, Europe, Humans, In Situ Hybridization, Fluorescence, N-Myc Proto-Oncogene Protein, Neuroblastoma drug therapy, Neuroblastoma pathology, Ploidies, Polymerase Chain Reaction, Quality Control, Reference Standards, Terminology as Topic, Biomarkers, Tumor analysis, Genetic Techniques standards, Neuroblastoma genetics, Nuclear Proteins genetics, Oncogene Proteins genetics, Quality Assurance, Health Care

Abstract

Purpose: Therapy stratification based on genetic markers is becoming increasingly important, which makes commitment to the highest possible reliability of the involved markers mandatory. In neuroblastic tumors, amplification of the MYCN gene is an unequivocal marker that indicates aggressive tumor behavior and is consequently used for therapy stratification. To guarantee reliable and standardized quality of genetic features, a quality-assessment study was initiated by the European Neuroblastoma Quality Assessment (ENQUA; connected to International Society of Pediatric Oncology) Group., Materials and Methods: One hundred thirty-seven coded specimens from 17 tumors were analyzed in 11 European national/regional reference laboratories using molecular techniques, in situ hybridization, and flow and image cytometry. Tumor samples with divergent results were re-evaluated., Results: Three hundred fifty-two investigations were performed, which resulted in 23 divergent findings, 17 of which were judged as errors after re-evaluation. MYCN analyses determined by Southern blot and in situ hybridization led to 3.7% and 4% of errors, respectively. Tumor cell content was not indicated in 32% of the samples, and 11% of seemingly correct MYCN results were based on the investigation of normal cells (eg, Schwann cells). Thirty-eight investigations were considered nonassessable., Conclusion: This study demonstrated the importance of revealing the difficulties and limitations for each technique and problems in interpreting results, which are crucial for therapeutic decisions. Moreover, it led to the formulation of guidelines that are applicable to all kinds of tumors and that contain the standardization of techniques, including the exact determination of the tumor cell content. Finally, the group has developed a common terminology for molecular-genetic results.

Published

2003

43. The EWS protein is dispensable for Ewing tumor growth.

Author

Kovar H, Jug G, Hattinger C, Spahn L, Aryee DN, Ambros PF, Zoubek A, and Gadner H

Subjects

Alleles, Alternative Splicing, Cell Division genetics, Cell Division physiology, Child, Preschool, Chromosomes, Human, Pair 22 genetics, Female, Gene Expression, Gene Expression Regulation, Neoplastic, Gene Rearrangement, Gene Silencing, Heterogeneous-Nuclear Ribonucleoproteins, Humans, Oncogene Proteins, Fusion genetics, Proto-Oncogene Protein c-fli-1, RNA-Binding Protein EWS, Ribonucleoproteins physiology, Transcription Factors genetics, Translocation, Genetic, Tumor Cells, Cultured, Bone Neoplasms genetics, Bone Neoplasms pathology, Ribonucleoproteins genetics, Sarcoma, Ewing genetics, Sarcoma, Ewing pathology

Abstract

EWS encodes a ubiquitously expressed RNA binding protein with largely unknown function. In Ewing sarcoma family tumors (EFT), one allele is rearranged with an ETS gene. This is the first description of an EFT with a complete EWS deficiency in the presence of two copies of a rearranged chromosome 22 carrying an interstitial EWS-FLI1 translocation. Absence of EWS protein suggested that it is dispensable for EFT growth. By sequencing of EWS cDNA from unrelated EFTs, we excluded inactivation of EWS as a general mechanism in EFT pathogenesis. Rather, EWS was found to be uniformly expressed in two splicing variants of similar abundancy, EWSalpha and EWSbeta, which differ in a single amino acid. Three EWS negative cell lines were established, which will serve as valuable models to study normal and aberrant EWS function upon reintroduction into the tumor cells.

Published

2001

44. Automatic detection and genetic profiling of disseminated neuroblastoma cells.

Author

Méhes G, Luegmayr A, Hattinger CM, Lörch T, Ambros IM, Gadner H, and Ambros PF

Subjects

Biomarkers, Tumor genetics, Blood Cell Count, Bone Marrow Examination, Chromosome Aberrations, Chromosome Deletion, Chromosomes, Human, Pair 1 genetics, Chromosomes, Human, Pair 1 ultrastructure, Chromosomes, Human, Pair 17 genetics, Chromosomes, Human, Pair 17 ultrastructure, DNA Probes, Fluorescein-5-isothiocyanate analysis, Fluorescent Dyes analysis, Gangliosides genetics, Gene Amplification, Humans, Indoles analysis, Neoplasm, Residual, Neuroblastoma genetics, Sensitivity and Specificity, Trisomy, Tumor Cells, Cultured, Biomarkers, Tumor analysis, Diagnosis, Computer-Assisted, Fluorescent Antibody Technique, Indirect, Gangliosides analysis, Gene Expression Profiling, Genes, myc, In Situ Hybridization, Fluorescence instrumentation, Neoplastic Cells, Circulating, Neuroblastoma pathology

Abstract

Background: Rare tumor cells circulating in the hematopoietic system can escape identification. On the other hand, the nature of these cells, positive for an immunologiCal tumor marker, cannot be determined without any genetic information., Procedure: To overcome these problems a novel computer assisted scanning system for automatic cell search, analysis, and sequential repositioning was developed. This system allows an exact quantitative analysis of rare tumor cells in the bone marrow and peripheral blood by sequential immunological and molecular cytogenetic characterization., Results and Conclusions: In that virtually all tumor cells in a mixing experiment could be recovered unambiguously, we can conclude that the sensitivity of this approach is set by the number of cells available for analysis. Sequential FISH analyses of immunologically positive cells improve both the specificity and the sensitivity of the microscopic minimal residual disease detection.

Published

2001

45. Prognostic impact of deletions at 1p36 and numerical aberrations in Ewing tumors.

Author

Hattinger CM, Rumpler S, Strehl S, Ambros IM, Zoubek A, Pötschger U, Gadner H, and Ambros PF

Subjects

Adolescent, Adult, Child, Child, Preschool, Disease-Free Survival, Female, Humans, In Situ Hybridization, Fluorescence, Infant, Karyotyping, Male, Ploidies, Prognosis, Sarcoma, Ewing pathology, Chromosome Aberrations genetics, Chromosome Deletion, Chromosomes, Human, Pair 1 genetics, Sarcoma, Ewing genetics

Abstract

Ewing's sarcoma, peripheral primitive neuroectodermal tumors, and Askin tumors are referred to as Ewing tumors (ETs), and are characterized by high MIC2 expression and a t(11;22)(q24;q12) or other rearrangements involving 22q12. In addition to these constant aberrations, facultative numerical and structural aberrations have been reported: gains of chromosomes 8 and 12, the unbalanced translocation t(1;16), and deletions at the short arm of chromosome 1. To evaluate the frequency and to study the biological impact of these facultative aberrations, we analyzed tumor specimens from 58 ET patients by classical cytogenetics and/or in situ hybridization techniques and compared these data with clinical parameters. Gains of chromosomes 8 and 12 were detected in 55% (32/58) and 24% (14/58) of the cases, respectively. Loss of chromosome 16 or der (16)t(1;16) chromosomes were found in 20% (10/51); deletions at 1p36 were observed in 18% (9/51) of the cases evaluated. The presence of these aberrations did not correlate with age and sex of the patients, with the location of the primary tumor or with the extent of disease at diagnosis by chi-square analysis and Fisher's exact test. Patients with tumors harboring gains of chromosome 8 showed a slightly better clinical outcome (n = 14/30, P = 0.17), whereas gains of chromosome 12 did not influence the clinical outcome (n = 7/30, P = 0.63). However, Kaplan and Meier analysis revealed that deletions at the short arm of chromosome 1 were associated with an unfavorable outcome in patients with localized disease (n = 6/22; P = 0.004).

Published

1999

46. Synthesis, processing, and transport of RNA within the three-dimensional context of the cell nucleus.

Author

Dirks RW, Hattinger CM, Molenaar C, and Snaar SP

Subjects

Animals, Biological Transport, Cell Nucleus chemistry, Cell Nucleus ultrastructure, Humans, Nucleic Acid Conformation, Protein Conformation, Cell Nucleus genetics, RNA genetics, RNA metabolism, Transcription, Genetic

Abstract

Fluorescence in situ hybridization and immunocytochemical techniques have contributed significantly to our current understanding of how transcription, RNA processing, and RNA transport are spatially and temporally organized in the cell nucleus. New technologies enabling the visualization of nuclear components in living cells specifically advanced our knowledge of the dynamic aspects of these nuclear processes. The picture that emerges from the work reviewed here shows that the positioning of genes within the three-dimensional nuclear space is of crucial importance, not only for its expression, but also for the efficient processing of its transcripts. Splicing factors are recruited from speckles to sites of active transcription, which can be present within, at the periphery, or at a relatively large distance from speckles. Furthermore, results are discussed showing that transcripts are exported by means of random diffusion.

Published

1999

47. Sensitive mRNA detection by fluorescence in situ hybridization using horseradish peroxidase-labeled oligodeoxynucleotides and tyramide signal amplification.

Author

van de Corput MP, Dirks RW, van Gijlswijk RP, van Binnendijk E, Hattinger CM, de Paus RA, Landegent JE, and Raap AK

Subjects

Blotting, Northern, Cytokines metabolism, Humans, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Sensitivity and Specificity, Tumor Cells, Cultured, Biotin analogs & derivatives, Horseradish Peroxidase, In Situ Hybridization, Fluorescence methods, Oligonucleotides analysis, Tyramine analogs & derivatives

Abstract

With the ongoing progress in human genome projects, many genes are discovered whose function and/or expression pattern are not known. Most of these genes are expressed in relatively low abundance compared to housekeeping genes such as elongation factor-1alpha and beta-actin. Gene expression is studied by Northern blot assays or by semiquantitative PCR methods. Another method is the visualization of transcripts in tissue or cell cultures by fluorescence in situ hybridization (FISH). However, for low-abundance RNA detection, this method is hampered by its limited detection sensitivity and by the interference of background signals with specific hybridization signals. Background signals are introduced by nonspecific hybridization of probe sequences or nonspecific binding of antibodies used for visualization. To eliminate background signals derived from both sources and to benefit from the peroxidase-driven tyramide signal amplification (TSA), we directly conjugated horseradish peroxidase (HRP) to oligodeoxynucleotides (ODNs) and used these probes to study in the bladder cancer cell line 5637 the expression of various cytokine genes which, according to Northern hybridization and reverse transcriptase-polymerase chain reaction (RT-PCR) assays, are expressed at levels up to 10,000-fold less than abundantly expressed housekeeping genes. The results show that reduction of probe complexity and the limited use of immunocytochemical detection layers strongly reduces noise signals derived from nonspecific binding of nucleic acid probe and antibodies. The use of the HRP-ODNs in combination with TSA allowed detection of low-abundance cytokine mRNAs by FISH.

Published

1998

48. Demonstration of the translocation der(16)t(1;16)(q12;q11.2) in interphase nuclei of Ewing tumors.

Author

Hattinger CM, Rumpler S, Ambros IM, Strehl S, Lion T, Zoubek A, Gadner H, and Ambros PF

Subjects

Adolescent, Adult, Aged, Child, Chromosome Aberrations, DNA Probes metabolism, Humans, In Situ Hybridization, Fluorescence, Middle Aged, Polymerase Chain Reaction, Bone Neoplasms genetics, Chromosomes, Human, Pair 16, Interphase, Sarcoma, Ewing genetics, Translocation, Genetic

Abstract

The der(16)t(1;16) has been detected cytogenetically in a number of malignancies including Ewing tumors (ETs). To enable fast and reliable analysis of der(16) chromosomes, we established an interphase cytogenetic approach. By using two DNA probes hybridizing to the heterochromatic portions on the long arms of chromosomes 1 and 16, this technique allows the detection of this chromosomal aberration in nonproliferating cells. Formation of the der(16) leads to partial excess of 1q material and partial loss of the long arm of chromosome 16. Double-target fluorescence in situ hybridization (FISH) experiments were performed on cytospin slides of 13 ETs, near-triploid tumor cells and normal cells to assess whether the FISH technique used permits the discrimination of nuclei harboring this aberration from nuclei without a der(16) chromosome. In five ETs, we found evidence for the presence of one or two der(16)t(1;16) chromosomes both by FISH and by conventional cytogenetics. Tumor cells displayed two signals for intact chromosomes 1, one or two additional fused signals for the der(16) chromosomes, and one signal for the intact chromosome 16. In one case without fused signals, the presence of a der(16) was demonstrated by hybridizing a painting probe for chromosome 16 simultaneously with the paracentromeric probe for chromosome 1. Our results suggest that double-target FISH on interphase nuclei offers an ideal tool for analyzing tumors prospectively and retrospectively to assess the biological role and the possible prognostic impact of the der(16) in ETs and in other solid tumors.

Published

1996