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113 results on '"Clot G"'

1. P1260: UNRAVELING THE GENETICS OF TRANSFORMED SPLENIC MARGINAL ZONE LYMPHOMA

Author

Grau, M., primary, López, C., additional, Navarro, A., additional, Clot, G., additional, Nadeu, F., additional, Bastidas, G., additional, Alcoceba, M., additional, Baptista, M. J., additional, Blanes, M., additional, Climent, F., additional, Colomer, D., additional, Costa, D., additional, Domingo-Domènech, E., additional, Forcada, P., additional, Enjuanes, A., additional, Escoda, L., additional, Frigola, G., additional, Giné, E., additional, Lopez-Guerra, M., additional, Rivas-Delgado, A., additional, Vicente-Folch, L., additional, Wotherspoon, A., additional, Campo, E., additional, López-Guillermo, A., additional, Matutes, E., additional, and Beà, S., additional

Published
2022
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2. P1282: DISEASE-SPECIFIC U1 SPLICEOSOMAL RNA MUTATIONS IN MATURE B-CELL NEOPLASMS

Author

Nadeu, F., primary, Shuai, S., additional, Clot, G., additional, Hilton, L. K., additional, Diaz-Navarro, A., additional, Martín, S., additional, Royo, R., additional, Baumann, T., additional, Kulis, M., additional, López-Oreja, I., additional, Cossio, M., additional, Lu, J., additional, Ljungström, V., additional, Young, E., additional, Plevova, K., additional, Knisbacher, B. A., additional, Lin, Z., additional, Hahn, C. K., additional, Bousquets, P., additional, Alcoceba, M., additional, González, M., additional, Colado, E., additional, Aymerich, M., additional, Terol, M. J., additional, Rivas-Delgado, A., additional, Enjuanes, A., additional, Ruiz-Gaspà, S., additional, Chatzikonstantinou, T., additional, Hägerstrand, D., additional, Jylhä, C., additional, Skaftason, A., additional, Mansouri, L., additional, Stranska, K., additional, Doubek, M., additional, van Gastel-Mol, E. J., additional, Davis, Z., additional, Walewska, R., additional, Scarfò, L., additional, Trentin, L., additional, Visentin, A., additional, Parikh, S. A., additional, Rabe, K. G., additional, Moia, R., additional, Armand, M., additional, Rossi, D., additional, Davi, F., additional, Gaidano, G., additional, Kay, N. E., additional, Shanafelt, T., additional, Ghia, P., additional, Oscier, D., additional, Langerak, A. W., additional, Beà, S., additional, López-Guillermo, A., additional, Neuberg, D., additional, Wu, C. J., additional, Getz, G., additional, Pospisilova, S., additional, Stamatopoulos, K., additional, Rosenquist, R., additional, Huber, W., additional, Zenz, T., additional, Colomer, D., additional, Martín-Subero, J. I., additional, Delgado, J., additional, Morin, R. D., additional, Stein, L. D., additional, Puente, X. S., additional, and Campo, E., additional

Published
2022
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3. A B-cell epigenetic signature defines three biologic subgroups of chronic lymphocytic leukemia with clinical impact

Author

Queirós, A C, Villamor, N, Clot, G, Martinez-Trillos, A, Kulis, M, Navarro, A, Penas, E M M, Jayne, S, Majid, A, Richter, J, Bergmann, A K, Kolarova, J, Royo, C, Russiñol, N, Castellano, G, Pinyol, M, Bea, S, Salaverria, I, López-Guerra, M, Colomer, D, Aymerich, M, Rozman, M, Delgado, J, Giné, E, González-Díaz, M, Puente, X S, Siebert, R, Dyer, M J S, López-Otín, C, Rozman, C, Campo, E, López-Guillermo, A, and Martín-Subero, J I

Published
2015
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4. TESTICULAR LARGE B‐CELL LYMPHOMA IS GENETICALLY SIMILAR TO PRIMARY CENTRAL NERVOUS SYSTEM LYMPHOMA AND DISTINCT FROM NODAL DIFFUSE LARGE B‐CELL LYMPHOMA.

Author

Rivas‐Delgado, A., López, C., Clot, G., Nadeu, F., Grau, M., Frigola, G., Bosch, J., Radke, J., Ishaque, N., Alcoceba, M., Melendo, G. Tapia, Luizaga, L., Barcena, C., Kelleher, N., Villamor, N., Baumann, T., Muntañola, A., Sancho‐Cia, J. M., García‐Sancho, A. Martin, and Gonzalez‐Barca, E.

Subjects
DIFFUSE large B-cell lymphomas, CENTRAL nervous system, LYMPHOMAS
Abstract

TESTICULAR LARGE B-CELL LYMPHOMA IS GENETICALLY SIMILAR TO PRIMARY CENTRAL NERVOUS SYSTEM LYMPHOMA AND DISTINCT FROM NODAL DIFFUSE LARGE B-CELL LYMPHOMA B Introduction: b Testicular large B-cell lymphoma (TLBCL) is an infrequent and aggressive lymphoma presenting in an immune-privileged site, recently recognized as a distinct entity from diffuse large B-cell lymphoma (DLBCL). Compared with nodal DLBCL, localized and disseminated TLBCL have less CNA complexity ( I P i = 0.01 and I P i < 0.04, respectively) but showed a higher number of variants ( I P i = 0.01 and I P i < 0.001, respectively). [Extracted from the article]

Published
2023
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7. IRF4-rearranged Large B-cell lymphoma (LBCL) has a genomic profile distinct to other LBCL in children and young adults

Author

Ramis-Zaldivar JE, Gonzalez-Farre B, Balagué O, Celis V, Nadeu F, Salmeron-Villalobos J, Andres M, Martin-Guerrero I, Garrido-Pontnou M, Gaafar A, Suñol M, Barcena C, Garcia-Bragado F, Andión M, Azorín D, Astigarraga I, Sagaseta de Ilurdoz M, Sábado C, Gallego S, Verdu-Amorós J, Fernandez-Delgado R, Perez V, Tapia G, Mozos A, Torrent M, Solano-Páez P, Rivas-Delgado A, Dlouhy I, Clot G, Enjuanes A, López-Guillermo A, Galera PK, Oberley MJ, Maguire A, Ramsower C, Rimsza LM, Quintanilla-Martinez L, Jaffe ES, Campo E, and Salaverria I

Subjects
GENOME, MUTATIONS, PATHOGENESIS, CHILDREN, BURKITT-LYMPHOMA, FREQUENT, FOLLICULAR LYMPHOMA, HIGH-RESOLUTION, CLASSIFICATION, GENE-EXPRESSION
Abstract

Pediatric large B-cell lymphomas (LBCL) share morphological and phenotypic features with adult types but have better prognosis. The higher frequency of some subtypes such as LBCL with IRF4 rearrangement (LBCL-IRF4) in children, suggests that some age-related biological differences may exist. To characterize the genetic and molecular heterogeneity of these tumors, we studied 31 diffuse large B-cell lymphomas, not otherwise specified (DLBCL, NOS), 20 LBCL-IRF4, and 12 high grade B-cell lymphomas, NOS (HGBCL, NOS) in patients {less than or equal to}25 years-old using an integrated approach including targeted gene sequencing, copy number arrays and gene expression profiling. Each subgroup displayed different molecular profiles. LBCL-IRF4 had frequent mutations in IRF4 and NF-kB pathway genes (CARD11, CD79B and MYD88), losses of 17p13 and gains of chr7, 11q12.3-q25 whereas DLBCL,NOS were predominantly of germinal center B-cell (GCB) subtype and carried gene mutations similar to the adult counterpart (e.g. SOCS1 and KMT2D), gains of 2p16/REL and losses of 19p13/CD70. A subset of HGBCL, NOS displayed recurrent alterations of Burkitt lymphoma related genes such as MYC, ID3 and DDX3X and homozygous deletions of 9p21/CDKN2A whereas other cases were genetically closer to GCB-DLBCL. Factors related to unfavorable outcome were age >18y old, activated B-cell DLBCL profile, HGBCL, NOS, high genetic complexity, 1q21-q44 gains, 2p16/REL gains/amplifications, 19p13/CD70 homozygous deletions, and TP53 and MYC mutations. In conclusion, these findings further unravel the molecular heterogeneity of pediatric/young-adult LBCL, improve the classification of this group of tumors and provide new parameters for risk stratification.

Published
2020

8. S843 THE PROLIFERATIVE HISTORY SHAPES THE DNA METHYLOME OF B-CELL TUMORS AND PREDICTS CLINICAL OUTCOME

Author

Duran-Ferrer, M., primary, Clot, G., additional, Nadeu, F., additional, Beekman, R., additional, Baumann, T., additional, Nordlund, J., additional, Marincevic-Zuniga, Y., additional, Rivas-Delgado, A., additional, Ordoñez, R., additional, Castellano, G., additional, Kulis, M., additional, Queirós, A., additional, Seung-Tae, L., additional, Wiemels, J., additional, Royo, R., additional, Puiggrós, M., additional, Torrents, D., additional, Giné, E., additional, Beà, S., additional, Jares, P., additional, Agirre, X., additional, Prosper, F., additional, López-Otín, C., additional, Puente, X.S., additional, Delgado, J., additional, López-Guillermo, A., additional, Campo, E., additional, and Martín-Subero, J.I., additional

Published
2019
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9. PF355 INTEGRATION OF GENOMIC AND EPIGENOMIC DATA REFINES THE REGULATORY MECHANISMS AND BIOLOGICAL SIGNIFICANCE OF CHRONIC LYMPHOCYTIC LEUKEMIA RISK LOCI

Author

Beekman, R., primary, Speedy, H.E., additional, Chapaprieta, V., additional, Orlando, G., additional, Law, P.J., additional, Martín-García, D., additional, Gutiérrez-Abril, J., additional, Catovsky, D., additional, Beà, S., additional, Clot, G., additional, Puiggros, M., additional, Torrents, D., additional, Puente, X.S., additional, Allan, J.M., additional, López-Otín, C., additional, Campo, E., additional, Houlston, R.S., additional, and Martín-Subero, J.I., additional

Published
2019
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10. PF567 CHROMATIN ACTIVATION AS A UNIFYING PRINCIPLE UNDERLYING PATHOGENIC MECHANISMS IN MULTIPLE MYELOMA

Author

Ordoñez, R., primary, Kulis, M., additional, Russiñol, N., additional, Chapaprieta, V., additional, Beekman, R., additional, Meydan, C., additional, Duran-Ferrer, M., additional, Verdaguer-Dot, N., additional, Clot, G., additional, Vilarrasa-Blasi, R., additional, Garate, L., additional, Miranda, E., additional, Carrasco, A., additional, Ezponda, T., additional, Martens, J.H.A., additional, El-Omri, H., additional, Taha, R.Y., additional, Calasanz, M.J., additional, Paiva, B., additional, Miguel, J. San, additional, Flicek, P., additional, Gut, I., additional, Melnick, A., additional, Mitsiades, C.S., additional, Licht, J.D., additional, Campo, E., additional, Stunnenberg, H.G., additional, Agirre, X., additional, Martin-Subero, J.I., additional, and Prósper, F., additional

Published
2019
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12. Genome-wide association analysis implicates dysregulation of immunity genes in chronic lymphocytic leukemia

Author

Law, PJ, Berndt, SI, Speedy, HE, Camp, NJ, Sava, GP, Skibola, CF, Holroyd, A, Joseph, V, Sunter, NJ, Nieters, A, Bea, S, Monnereau, A, Martin-Garcia, D, Goldin, LR, Clot, G, Teras, LR, Quintela, I, Birmann, BM, Jayne, S, Cozen, W, Majid, A, Smedby, KE, Dearden, C, Brooks-Wilson, AR, Hall, AG, Purdue, MP, Mainou-Fowler, T, Vajdic, CM, Jackson, GH, Cocco, P, Marr, H, Zhang, Y, Zheng, T, Giles, GG, Lawrence, C, Call, TG, Liebow, M, Melbye, M, Glimelius, B, Mansouri, L, Glenn, M, Curtin, K, Diver, WR, Link, BK, Conde, L, Bracci, PM, Holly, EA, Jackson, RD, Tinker, LF, Benavente, Y, Boffetta, P, Brennan, P, Maynadie, M, McKay, J, Albanes, D, Weinstein, S, Wang, Z, Caporaso, NE, Morton, LM, Severson, RK, Riboli, E, Vineis, P, Vermeulen, RCH, Southey, MC, Milne, RL, Clavel, J, Topka, S, Spinelli, JJ, Kraft, P, Grazia Ennas, M, Summerfield, G, Ferri, GM, Harris, RJ, Miligi, L, Pettitt, AR, North, KE, Allsup, DJ, Fraumeni, JF, Bailey, JR, Offit, K, Pratt, G, Hjalgrim, H, Pepper, C, Chanock, SJ, Fegan, C, Rosenquist, R, De Sanjose, S, Carracedo, A, Dyer, MJS, Catovsky, D, Campo, E, Cerhan, JR, Allan, JM, Rothman, N, Houlston, R, and Slager, S

Subjects
RISK, CHROMATIN, Science & Technology, LOCI, VARIANTS, DISEASE, Multidisciplinary Sciences, TRANSCRIPTION FACTORS, MD Multidisciplinary, IMPUTATION, Science & Technology - Other Topics, BREAST-CANCER, COMMON VARIATION, METAANALYSIS
Abstract

Several chronic lymphocytic leukemia (CLL) susceptibility loci have been reported, however much of the heritable risk remains unidentified. Here we perform a meta-analysis of six genome-wide association studies, imputed using a merged reference panel of 1000 Genomes and UK10K data, totaling 6,200 cases and 17,598 controls after replication. We identify nine risk loci at 1p36.11 (rs34676223, P = 5.04x10-13), 1q42.13 (rs41271473, P = 1.06x10-10), 4q24 (rs71597109, P = 1.37x10-10), 4q35.1 (rs57214277, P = 3.69x10-8), 6p21.31 (rs3800461, P = 1.97x10-8), 11q23.2 (rs61904987, P = 2.64x10-11), 18q21.1 (rs1036935, P = 3.27x10-8), 19p13.3 (rs7254272, P = 4.67x10-8) and 22q13.33 (rs140522, P = 2.70x10-9). These new and established risk loci map to areas of active chromatin and show an over-representation of transcription factor binding for key determinants of B-cell development and immune response.

Published
2016

13. Genome-wide association analysis implicates dysregulation of immunity genes in chronic lymphocytic leukaemia

Author

Law, PJ, Berndt, SI, Speedy, HE, Camp, NJ, Sava, GP, Skibola, CF, Holroyd, A, Joseph, V, Sunter, NJ, Nieters, A, Bea, S, Monnereau, A, Martin-Garcia, D, Goldin, LR, Clot, G, Teras, LR, Quintela, I, Birmann, BM, Jayne, S, Cozen, W, Majid, A, Smedby, KE, Lan, Q, Dearden, C, Brooks-Wilson, AR, Hall, AG, Purdue, MP, Mainou-Fowler, T, Vajdic, CM, Jackson, GH, Cocco, P, Marr, H, Zhang, Y, Zheng, T, Giles, GG, Lawrence, C, Call, TG, Liebow, M, Melbye, M, Glimelius, B, Mansouri, L, Glenn, M, Curtin, K, Diver, WR, Link, BK, Conde, L, Bracci, PM, Holly, EA, Jackson, RD, Tinker, LF, Benavente, Y, Boffetta, P, Brennan, P, Maynadie, M, McKay, J, Albanes, D, Weinstein, S, Wang, Z, Caporaso, NE, Morton, LM, Severson, RK, Riboli, E, Vineis, P, Vermeulen, RCH, Southey, MC, Milne, RL, Clavel, J, Topka, S, Spinelli, JJ, Kraft, P, Ennas, MG, Summerfield, G, Ferri, GM, Harris, RJ, Miligi, L, Pettitt, AR, North, KE, Allsup, DJ, Fraumeni, JF, Bailey, JR, Offit, K, Pratt, G, Hjalgrim, H, Pepper, C, Chanock, SJ, Fegan, C, Rosenquist, R, de Sanjose, S, Carracedo, A, Dyer, MJS, Catovsky, D, Campo, E, Cerhan, JR, Allan, JM, Rothman, N, Houlston, R, Slager, SL, Law, PJ, Berndt, SI, Speedy, HE, Camp, NJ, Sava, GP, Skibola, CF, Holroyd, A, Joseph, V, Sunter, NJ, Nieters, A, Bea, S, Monnereau, A, Martin-Garcia, D, Goldin, LR, Clot, G, Teras, LR, Quintela, I, Birmann, BM, Jayne, S, Cozen, W, Majid, A, Smedby, KE, Lan, Q, Dearden, C, Brooks-Wilson, AR, Hall, AG, Purdue, MP, Mainou-Fowler, T, Vajdic, CM, Jackson, GH, Cocco, P, Marr, H, Zhang, Y, Zheng, T, Giles, GG, Lawrence, C, Call, TG, Liebow, M, Melbye, M, Glimelius, B, Mansouri, L, Glenn, M, Curtin, K, Diver, WR, Link, BK, Conde, L, Bracci, PM, Holly, EA, Jackson, RD, Tinker, LF, Benavente, Y, Boffetta, P, Brennan, P, Maynadie, M, McKay, J, Albanes, D, Weinstein, S, Wang, Z, Caporaso, NE, Morton, LM, Severson, RK, Riboli, E, Vineis, P, Vermeulen, RCH, Southey, MC, Milne, RL, Clavel, J, Topka, S, Spinelli, JJ, Kraft, P, Ennas, MG, Summerfield, G, Ferri, GM, Harris, RJ, Miligi, L, Pettitt, AR, North, KE, Allsup, DJ, Fraumeni, JF, Bailey, JR, Offit, K, Pratt, G, Hjalgrim, H, Pepper, C, Chanock, SJ, Fegan, C, Rosenquist, R, de Sanjose, S, Carracedo, A, Dyer, MJS, Catovsky, D, Campo, E, Cerhan, JR, Allan, JM, Rothman, N, Houlston, R, and Slager, SL

Abstract

Several chronic lymphocytic leukaemia (CLL) susceptibility loci have been reported; however, much of the heritable risk remains unidentified. Here we perform a meta-analysis of six genome-wide association studies, imputed using a merged reference panel of 1,000 Genomes and UK10K data, totalling 6,200 cases and 17,598 controls after replication. We identify nine risk loci at 1p36.11 (rs34676223, P=5.04 × 10-13), 1q42.13 (rs41271473, P=1.06 × 10-10), 4q24 (rs71597109, P=1.37 × 10-10), 4q35.1 (rs57214277, P=3.69 × 10-8), 6p21.31 (rs3800461, P=1.97 × 10-8), 11q23.2 (rs61904987, P=2.64 × 10-11), 18q21.1 (rs1036935, P=3.27 × 10-8), 19p13.3 (rs7254272, P=4.67 × 10-8) and 22q13.33 (rs140522, P=2.70 × 10-9). These new and established risk loci map to areas of active chromatin and show an over-representation of transcription factor binding for the key determinants of B-cell development and immune response.

Published
2017

14. Clinical impact of the subclonal architecture and mutational complexity in chronic lymphocytic leukemia

Author

Nadeu, F, primary, Clot, G, additional, Delgado, J, additional, Martín-García, D, additional, Baumann, T, additional, Salaverria, I, additional, Beà, S, additional, Pinyol, M, additional, Jares, P, additional, Navarro, A, additional, Suárez-Cisneros, H, additional, Aymerich, M, additional, Rozman, M, additional, Villamor, N, additional, Colomer, D, additional, González, M, additional, Alcoceba, M, additional, Terol, M J, additional, Navarro, B, additional, Colado, E, additional, Payer, ÁR, additional, Puente, X S, additional, López-Otín, C, additional, López-Guillermo, A, additional, Enjuanes, A, additional, and Campo, E, additional

Published
2017
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15. Integrating genomic alterations in diffuse large B-cell lymphoma identifies new relevant pathways and potential therapeutic targets

Author

Karube, K, primary, Enjuanes, A, additional, Dlouhy, I, additional, Jares, P, additional, Martin-Garcia, D, additional, Nadeu, F, additional, Ordóñez, G R, additional, Rovira, J, additional, Clot, G, additional, Royo, C, additional, Navarro, A, additional, Gonzalez-Farre, B, additional, Vaghefi, A, additional, Castellano, G, additional, Rubio-Perez, C, additional, Tamborero, D, additional, Briones, J, additional, Salar, A, additional, Sancho, J M, additional, Mercadal, S, additional, Gonzalez-Barca, E, additional, Escoda, L, additional, Miyoshi, H, additional, Ohshima, K, additional, Miyawaki, K, additional, Kato, K, additional, Akashi, K, additional, Mozos, A, additional, Colomo, L, additional, Alcoceba, M, additional, Valera, A, additional, Carrió, A, additional, Costa, D, additional, Lopez-Bigas, N, additional, Schmitz, R, additional, Staudt, L M, additional, Salaverria, I, additional, López-Guillermo, A, additional, and Campo, E, additional

Published
2017
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16. GENE MUTATIONS AND COPY NUMBER ALTERATIONS (CNA) PREDICT FOR EARLY FAILURE IN PATIENTS WITH DIFFUSE LARGE B-CELL LYMPHOMA (DLBCL) TREATED WITH R-CHOP

Author

Dlouhy, I., primary, Karube, K., additional, Enjuanes, A., additional, Salaverría, I., additional, Pérez-Galán, P., additional, Jares, P., additional, Martín-García, D., additional, Nadeu, F., additional, Rivas-Delgado, A., additional, Rovira, J., additional, Gonzalez, B., additional, Mozos, A., additional, Clot, G., additional, Sancho, J.M., additional, Salar, A., additional, Mercadal, S., additional, Escola, L., additional, Briones, J., additional, Colomo, L., additional, Alcoceba, M., additional, Valera, A., additional, Campo, E., additional, and López-Guillermo, A., additional

Published
2017
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18. Decoding the DNA Methylome of Mantle Cell Lymphoma in the Light of the Entire B Cell Lineage

Author

Queiros, A.C., Beekman, R., Vilarrasa-Blasi, R., Duran-Ferrer, M., Clot, G., Merkel, A., Raineri, E., Russinol, N., Castellano, G., Bea, S., Navarro, A., Kulis, M., Verdaguer-Dot, N., Jares, P., Enjuanes, A., Calasanz, M.J., Bergmann, A., Vater, I., Salaverria, I., van de Werken, H.J., Wilson, W.H., Datta, A., Flicek, P., Royo, R., Martens, J.H.A., Gine, E., Lopez-Guillermo, A., Stunnenberg, H., Klapper, W., Pott, C., Heath, S., Gut, I.G., Siebert, R., Campo, E., Martin-Subero, J.I., Queiros, A.C., Beekman, R., Vilarrasa-Blasi, R., Duran-Ferrer, M., Clot, G., Merkel, A., Raineri, E., Russinol, N., Castellano, G., Bea, S., Navarro, A., Kulis, M., Verdaguer-Dot, N., Jares, P., Enjuanes, A., Calasanz, M.J., Bergmann, A., Vater, I., Salaverria, I., van de Werken, H.J., Wilson, W.H., Datta, A., Flicek, P., Royo, R., Martens, J.H.A., Gine, E., Lopez-Guillermo, A., Stunnenberg, H., Klapper, W., Pott, C., Heath, S., Gut, I.G., Siebert, R., Campo, E., and Martin-Subero, J.I.

Abstract

Contains fulltext : 161703.pdf (publisher's version ) (Open Access)

Published
2016

19. Decoding the DNA Methylome of Mantle Cell Lymphoma in the Light of the Entire B Cell Lineage

Author

Queiros, A C, Beekman, R, Vilarrasa-Blasi, R, Duran-Ferrer, M, Clot, G, Merkel, A, Raineri, E, Russinol, N, Castellano, G, Bea, S, Navarro, A, Kulis, M, Verdaguer-Dot, N, Jares, P, Enjuanes, A, Calasanz, MJ, Bergmann, A, Vater, I, Salaverria, I, van de Werken, Harmen, Wilson, WH, Datta, A, Flicek, P, Royo, R, Martens, J, Gine, E, Lopez-Guillermo, A, Stunnenberg, HG, Klapper, W, Pott, C, Heath, S, Gut, I G, Siebert, R, Campo, E, Martin-Subero, JI, Queiros, A C, Beekman, R, Vilarrasa-Blasi, R, Duran-Ferrer, M, Clot, G, Merkel, A, Raineri, E, Russinol, N, Castellano, G, Bea, S, Navarro, A, Kulis, M, Verdaguer-Dot, N, Jares, P, Enjuanes, A, Calasanz, MJ, Bergmann, A, Vater, I, Salaverria, I, van de Werken, Harmen, Wilson, WH, Datta, A, Flicek, P, Royo, R, Martens, J, Gine, E, Lopez-Guillermo, A, Stunnenberg, HG, Klapper, W, Pott, C, Heath, S, Gut, I G, Siebert, R, Campo, E, and Martin-Subero, JI

Published
2016

20. Non-coding recurrent mutations in chronic lymphocytic leukaemia

Author

Puente, X.S., Bea, S., Valdes-Mas, R., Villamor, N., Gutierrez-Abril, J., Martin-Subero, J.I., Munar, M., Rubio-Perez, C., Jares, P., Aymerich, M., Baumann, T., Beekman, R., Belver, L., Carrio, A., Castellano, G., Clot, G., Colado, E., Colomer, D., Costa, D., Delgado, J., Enjuanes, A., Estivill, X., Ferrando, A.A., Gelpi, J.L., Gonzalez, B., Gonzalez, S., Gonzalez, M., Gut, M., Hernandez-Rivas, J.M., Lopez-Guerra, M., Martin-Garcia, D., Navarro, A., Nicolas, P., Orozco, M., Payer, A.R., Pinyol, M., Pisano, D.G., Puente, D.A., Queiros, A.C., Quesada, V., Romeo-Casabona, C.M., Royo, C., Royo, R., Rozman, M., Russinol, N., Salaverria, I., Stamatopoulos, K., Stunnenberg, H.G., Tamborero, D., Terol, M.J., Valencia, A., Lopez-Bigas, N., Torrents, D., Gut, I., Lopez-Guillermo, A., Lopez-Otin, C., Campo, E., Puente, X.S., Bea, S., Valdes-Mas, R., Villamor, N., Gutierrez-Abril, J., Martin-Subero, J.I., Munar, M., Rubio-Perez, C., Jares, P., Aymerich, M., Baumann, T., Beekman, R., Belver, L., Carrio, A., Castellano, G., Clot, G., Colado, E., Colomer, D., Costa, D., Delgado, J., Enjuanes, A., Estivill, X., Ferrando, A.A., Gelpi, J.L., Gonzalez, B., Gonzalez, S., Gonzalez, M., Gut, M., Hernandez-Rivas, J.M., Lopez-Guerra, M., Martin-Garcia, D., Navarro, A., Nicolas, P., Orozco, M., Payer, A.R., Pinyol, M., Pisano, D.G., Puente, D.A., Queiros, A.C., Quesada, V., Romeo-Casabona, C.M., Royo, C., Royo, R., Rozman, M., Russinol, N., Salaverria, I., Stamatopoulos, K., Stunnenberg, H.G., Tamborero, D., Terol, M.J., Valencia, A., Lopez-Bigas, N., Torrents, D., Gut, I., Lopez-Guillermo, A., Lopez-Otin, C., and Campo, E.

Abstract

Item does not contain fulltext

Published
2015

21. Whole-genome fingerprint of the DNA methylome during human B cell differentiation

Author

Kulis, M., Merkel, A., Heath, S., Queiros, A.C., Schuyler, R.P., Castellano, G., Beekman, R., Raineri, E., Esteve, A., Clot, G., Verdaguer-Dot, N., Duran-Ferrer, M., Russinol, N., Vilarrasa-Blasi, R., Ecker, S., Pancaldi, V., Rico, D., Agueda, L., Blanc, J., Richardson, D., Clarke, L., Datta, A., Pascual, M., Agirre, X., Prosper, F., Alignani, D., Paiva, B., Caron, G., Fest, T., Muench, M.O., Fomin, M.E., Lee, S.T., Wiemels, J.L., Valencia, A., Gut, M., Flicek, P., Stunnenberg, H.G., Siebert, R., Kuppers, R., Gut, I.G., Campo, E., Martin-Subero, J.I., Kulis, M., Merkel, A., Heath, S., Queiros, A.C., Schuyler, R.P., Castellano, G., Beekman, R., Raineri, E., Esteve, A., Clot, G., Verdaguer-Dot, N., Duran-Ferrer, M., Russinol, N., Vilarrasa-Blasi, R., Ecker, S., Pancaldi, V., Rico, D., Agueda, L., Blanc, J., Richardson, D., Clarke, L., Datta, A., Pascual, M., Agirre, X., Prosper, F., Alignani, D., Paiva, B., Caron, G., Fest, T., Muench, M.O., Fomin, M.E., Lee, S.T., Wiemels, J.L., Valencia, A., Gut, M., Flicek, P., Stunnenberg, H.G., Siebert, R., Kuppers, R., Gut, I.G., Campo, E., and Martin-Subero, J.I.

Abstract

Contains fulltext : 144901.pdf (Publisher’s version ) (Closed access)

Published
2015

22. Characterization of the DNA methylome during human b-cell differentiation

Author

Kulis, M., Heath, S., Castellano, G., Beekman, R., Merkel, A., Raineri, E., Esteve, A., Queiros, A.C., Clot, G., Schuyler, R., Ecker, S., Pancaldi, V., Rico, D., Agueda, L., Blanc, J., Richardson, D., Clarke, L., Datta, A., Russinol, N., Pascual, M., Aguirre, X., Prosper, F., Alignani, D., Paiva, B., Caron, G., Fest, T., Muench, M.O., Fomin, M., Lee, S.T., Wiemels, J.L., Valencia, A., Gut, M., Flicek, P., Stunnenberg, H.G., Siebert, R., Kuppers, R., Gut, I.G., Campo, E., Martin-Subero, J.I., Kulis, M., Heath, S., Castellano, G., Beekman, R., Merkel, A., Raineri, E., Esteve, A., Queiros, A.C., Clot, G., Schuyler, R., Ecker, S., Pancaldi, V., Rico, D., Agueda, L., Blanc, J., Richardson, D., Clarke, L., Datta, A., Russinol, N., Pascual, M., Aguirre, X., Prosper, F., Alignani, D., Paiva, B., Caron, G., Fest, T., Muench, M.O., Fomin, M., Lee, S.T., Wiemels, J.L., Valencia, A., Gut, M., Flicek, P., Stunnenberg, H.G., Siebert, R., Kuppers, R., Gut, I.G., Campo, E., and Martin-Subero, J.I.

Abstract

Contains fulltext : 140064.pdf (Publisher’s version ) (Open Access)

Published
2014

23. A B-cell epigenetic signature defines three biologic subgroups of chronic lymphocytic leukemia with clinical impact

Author

Queirós, A C, primary, Villamor, N, additional, Clot, G, additional, Martinez-Trillos, A, additional, Kulis, M, additional, Navarro, A, additional, Penas, E M M, additional, Jayne, S, additional, Majid, A, additional, Richter, J, additional, Bergmann, A K, additional, Kolarova, J, additional, Royo, C, additional, Russiñol, N, additional, Castellano, G, additional, Pinyol, M, additional, Bea, S, additional, Salaverria, I, additional, López-Guerra, M, additional, Colomer, D, additional, Aymerich, M, additional, Rozman, M, additional, Delgado, J, additional, Giné, E, additional, González-Díaz, M, additional, Puente, X S, additional, Siebert, R, additional, Dyer, M J S, additional, López-Otín, C, additional, Rozman, C, additional, Campo, E, additional, López-Guillermo, A, additional, and Martín-Subero, J I, additional

Published
2014
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24. Genomic complexity and IGHV mutational status are key predictors of outcome of chronic lymphocytic leukemia patients with TP53 disruption

Author

Delgado, J., primary, Salaverria, I., additional, Baumann, T., additional, Martinez-Trillos, A., additional, Lee, E., additional, Jimenez, L., additional, Navarro, A., additional, Royo, C., additional, Santacruz, R., additional, Lopez, C., additional, Payer, A. R., additional, Colado, E., additional, Gonzalez, M., additional, Armengol, L., additional, Colomer, D., additional, Pinyol, M., additional, Villamor, N., additional, Aymerich, M., additional, Carrio, A., additional, Costa, D., additional, Clot, G., additional, Gine, E., additional, Lopez-Guillermo, A., additional, Campo, E., additional, and Bea, S., additional

Published
2014
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25. Clinical impact of the subclonal architecture and mutational complexity in chronic lymphocytic leukemia

Author

Nadeu, F, Clot, G, Delgado, J, Martín-García, D, Baumann, T, Salaverria, I, Beà, S, Pinyol, M, Jares, P, Navarro, A, Suárez-Cisneros, H, Aymerich, M, Rozman, M, Villamor, N, Colomer, D, González, M, Alcoceba, M, Terol, M J, Navarro, B, Colado, E, Payer, ÁR, Puente, X S, López-Otín, C, López-Guillermo, A, Enjuanes, A, and Campo, E

Abstract

Genome studies of chronic lymphocytic leukemia (CLL) have revealed the remarkable subclonal heterogeneity of the tumors, but the clinical implications of this phenomenon are not well known. We assessed the mutational status of 28 CLL driver genes by deep-targeted next-generation sequencing and copy number alterations (CNA) in 406 previously untreated patients and 48 sequential samples. We detected small subclonal mutations (0.6–25% of cells) in nearly all genes (26/28), and they were the sole alteration in 22% of the mutated cases. CNA tended to be acquired early in the evolution of the disease and remained stable, whereas the mutational heterogeneity increased in a subset of tumors. The prognostic impact of different genes was related to the size of the mutated clone. Combining mutations and CNA, we observed that the accumulation of driver alterations (mutational complexity) gradually shortened the time to first treatment independently of the clonal architecture, IGHV status and Binet stage. Conversely, the overall survival was associated with the increasing subclonal diversity of the tumors but it was related to the age of patients, IGHV and TP53 status of the tumors. In conclusion, our study reveals that both the mutational complexity and subclonal diversity influence the evolution of CLL.

Published
2018
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26. Integrating genomic alterations in diffuse large B-cell lymphoma identifies new relevant pathways and potential therapeutic targets

Author

Karube, K, Enjuanes, A, Dlouhy, I, Jares, P, Martin-Garcia, D, Nadeu, F, Ordóñez, G R, Rovira, J, Clot, G, Royo, C, Navarro, A, Gonzalez-Farre, B, Vaghefi, A, Castellano, G, Rubio-Perez, C, Tamborero, D, Briones, J, Salar, A, Sancho, J M, Mercadal, S, Gonzalez-Barca, E, Escoda, L, Miyoshi, H, Ohshima, K, Miyawaki, K, Kato, K, Akashi, K, Mozos, A, Colomo, L, Alcoceba, M, Valera, A, Carrió, A, Costa, D, Lopez-Bigas, N, Schmitz, R, Staudt, L M, Salaverria, I, López-Guillermo, A, and Campo, E

Abstract

Genome studies of diffuse large B-cell lymphoma (DLBCL) have revealed a large number of somatic mutations and structural alterations. However, the clinical significance of these alterations is still not well defined. In this study, we have integrated the analysis of targeted next-generation sequencing of 106 genes and genomic copy number alterations (CNA) in 150 DLBCL. The clinically significant findings were validated in an independent cohort of 111 patients. Germinal center B-cell and activated B-cell DLBCL had a differential profile of mutations, altered pathogenic pathways and CNA. Mutations in genes of the NOTCH pathway and tumor suppressor genes (TP53/CDKN2A), but not individual genes, conferred an unfavorable prognosis, confirmed in the independent validation cohort. A gene expression profiling analysis showed that tumors with NOTCH pathway mutations had a significant modulation of downstream target genes, emphasizing the relevance of this pathway in DLBCL. An in silico drug discovery analysis recognized 69 (46%) cases carrying at least one genomic alteration considered a potential target of drug response according to early clinical trials or preclinical assays in DLBCL or other lymphomas. In conclusion, this study identifies relevant pathways and mutated genes in DLBCL and recognizes potential targets for new intervention strategies.

Published
2018
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28. A B-CELL EPIGENETIC SIGNATURE DEFINES THREE BIOLOGICAL SUBGROUPS OF CHRONIC LYMPHOCYTIC LEUKEMIA WITH MAJOR CLINICAL IMPACT

Author

Queiros, A. C., Villamor, N., Martinez-Trillos, A., Kulis, M., Clot, G., Navarro, A., Penas, E. M. Murga, Jayne, S., Majid, A., Richter, J., Bergmann, A. K., Kolarova, J., Royo, C., Russinol, N., Castellano, G., Pinyol, M., Bea, S., Salaverria, I., Lopez-Guerra, M., Aymerich, M., Rozman, M., Colomer, D., Delgado, J., Gine, E., Gonzalez-Diaz, M., Xose S. Puente, Siebert, R., Dyer, M. J., Rozman, C., Lopez-Otin, C., Campo, E., Lopez-Guillermo, A., and Martin-Subero, J. I.

29. INTEGRATIVE ANALYSIS OF THE GENOME, EPIGENOME, TRANSCRIPTOME AND THREE-DIMENSIONAL CHROMATIN STRUCTURE IN CHRONIC LYMPHOCYTIC LEUKEMIA

Author

Beekman, R., Russinol, N., Chapaprieta, V., Verdaguer-Dot, N., Vilarrasa-Blasi, R., Clot, G., Duran-Ferrer, M., Kulis, M., Castellano, G., Javierre, B. M., Wingett, S. W., Blanc, J., Serra, F., Merkel, A., Ullrich, S., Vlasova, A., Palumbo, E., Pinyol, M., Sílvia Beà, Royo, R., Puiggros, M., Datta, A., Flicek, P., Lowy, E., Kostadima, M., Clarke, L., Delgado, J., Lopez-Guillermo, A., Puente, X. S., Lopez-Otin, C., Torrents, D., Yaspo, M-L, Aymerich, M., Heath, S., Guigo, R., Gut, M., Fraser, P., Marti-Renom, M., Gut, I., Martens, J., Stunnenberg, H., Campo, E., and Martin-Subero, I.

30. CRYPTIC INSERTIONS OF IMMUNOGLOBULIN LIGHT CHAIN ENHANCER REGIONS ACTIVATE CCND3 AND CCND2 IN CYCLIN D1-NEGATIVE MANTLE CELL LYMPHOMAS

Author

Martin-Garcia, D., Navarro, A., Clot, G., Ribera-Cortada, I., Gonzalez-Farre, B., Gutierrez-Abril, J., Valdes-Mas, R., Woroniecka, R., Rymkiewicz, G., Leval, L., Rosenwald, A., Ferry, J. A., Hsi, E. D., Fu, K., Delabie, J., Weisenburger, D., Jong, D., O Connor, S. J., Swerdlow, S. H., Torrents, D., Beltran, S., Espinet, B., Matutes, E., Siebert, R., Ott, G., Quintanilla-Martinez, L., Jaffe, E. S., Carlos López-Otín, Puente, X. S., Campo, E., Salaverria, I., and Bea, S.

31. Tissular cytokine and chemokine receptor expression in Burkitt lymphoma (BL) and diffuse large B cell lymphoma (DLBCL)

Author

Cardesa-Salzmann, T., Colomo, L., Roue, G., Soldini, D., Martinez-Pozo, A., Clot, G., Mora, J., Cruz, O., Maradiegue, E., Torres, C., Sunol, M., Jou, C., Rovira, C., Cusi, V., Gutierrez, G., Climent, F., Gonzalez-Barca, E., Mercadal, S., Mate, J. L., Jose-Maria Ribera, Combalia, N., Arenillas, L., Serrano, S., Fernandez, E., Pinyol, M., Jares, P., Campo, E., and Lopez-Guillermo, A.

32. DECODING THE ENTIRE DNA METHYLOME OF MANTLE CELL LYMPHOMA: NEW BIOLOGICAL AND CLINICAL INSIGHTS

Author

Beekman, R., Queiros, A. C., Vilarrasa-Blasi, R., Merkel, A., Raineri, E., Castellano, G., Bea, S., Navarro, A., Russinol, N., Clot, G., Kulis, M., Duran-Ferrer, M., Jares, P., Enjuanes, A., MJ Calasanz, Bergmann, A., Vater, I., Salaverria, I., Werken, H. J. G., Wilson, W. H., Datta, A., Flicek, P., Martens, J., Gine, E., Lopez-Guillermo, A., Stunnenberg, H. G., Klapper, W., Pott, C., Heath, S., Gut, I. G., Siebert, R., Campo, E., and Martin-Subero, J. I.

33. DETECTION OF CRYPTIC INSERTIONS OF IMMUNOGLOBULIN ENHANCERS IN THE CCND2 AND CCND3 GENES IN LYMPHOMAS OF CELLULAS OF THE CYCLIN D1-NEGATIVE

Author

Bea, S., Martin Garcia, D., Navarro, A., Clot, G., Ribera Cortada, I., Rymkiewicz, G., Leval, L., Rosenwald, A., Ferry, J., Fu, K., Delabie, J., Weisenburger, D., O Connor, S. J., Swerdlow, S. H., Espinet, B., Matutes, E., Siebert, R., Ott, G., Quintanilla Martinez, I., Jaffe, E. S., Carlos López-Otín, Puente, X. S., Campo, E., and Salaverria, I.

34. Genome-wide association analysis implicates dysregulation of immunity genes in chronic lymphocytic leukaemia

Author

Law, Philip J, Berndt, Sonja I, Speedy, Helen E, Camp, Nicola J, Sava, Georgina P, Skibola, Christine F, Holroyd, Amy, Vijai, Joseph, Sunter, Nicola J, Nieters, Alexandra, Bea, Silvia, Pettitt, AR, Monnereau, Alain, Martin-Garcia, David, Goldin, Lynn R, Clot, Guillem, Teras, Lauren R, Quintela, Inés, Birmann, Brenda M, Jayne, Sandrine J, Cozen, Wendy, Majid, Aneela, Smedby, Karin E, Lan, Qing, Dearden, Claire, Brooks-Wilson, Angela R, Hall, Andrew G, Purdue, Mark P, Mainou-Fowler, Tryfonia, Vajdic, Claire M, Jackson, Graham H, Cocco, Pierluigi, Marr, Helen, Zhang, Yawei, Zheng, Tongzhang, Giles, Graham G, Lawrence, Charles, Call, Timothy G, Liebow, Mark, Melbye, Mads, Glimelius, Bengt, Mansouri, Larry, Glenn, Martha, Curtin, Karen, Diver, W Ryan, Link, Brian K, Conde, Lucia, Bracci, Paige M, Holly, Elizabeth A, Jackson, Rebecca D, Tinker, Lesley F, Benavente, Yolanda, Boffetta, Paolo, Brennan, Paul, Maynadie, Marc, Mckay, James, Albanes, Demetrius, Weinstein, Stephanie, Wang, Zhaoming, Caporaso, Neil E, Morton, Lindsay M, Severson, Richard K, Riboli, Elio, Vineis, Paolo, Vermeulen, Roel CH, Southey, Melissa C, Milne, Roger L, Clavel, Jacqueline, Topka, Sabine, Spinelli, John J, Kraft, Peter, Ennas, Maria Grazia, Summerfield, Geoffrey, Ferri, Giovanni M, Harris, Robert J, Miligi, Lucia, Pettitt, Andrew R, North, Kari E, Allsup, David J, Fraumeni, Joseph F, Bailey, James R, Offit, Kenneth, Pratt, Guy, Hjalgrim, Henrik, Pepper, Chris, Chanock, Stephen J, Fegan, Chris, Rosenquist, Richard, Sanjose, Silvia de, Carracedo, Angel, Dyer, Martin JS, Catovsky, Daniel, Campo, Elias, Cerhan, James R, Allan, James M, Rothman, Nathanial, Houlston, Richard, Slager, Susan, Law, P.J., Berndt, S.I., Speedy, H.E., Camp, N.J., Sava, G.P., Skibola, C.F., Holroyd, A., Joseph, V., Sunter, N.J., Nieters, A., Bea, S., Monnereau, A., Martin-Garcia, D., Goldin, L.R., Clot, G., Teras, L.R., Quintela, I., Birmann, B.M., Jayne, S., Cozen, W., Majid, A., Smedby, K.E., Lan, Q., Dearden, C., Brooks-Wilson, A.R., Hall, A.G., Purdue, M.P., Mainou-Fowler, T., Vajdic, C.M., Jackson, G.H., Cocco, P., Marr, H., Zhang, Y., Zheng, T., Giles, G.G., Lawrence, C., Call, T.G., Liebow, M., Melbye, M., Glimelius, B., Mansouri, L., Glenn, M., Curtin, K., Diver, W.R., Link, B.K., Conde, L., Bracci, P.M., Holly, E.A., Jackson, R.D., Tinker, L.F., Benavente, Y., Boffetta, P., Brennan, P., Maynadie, M., McKay, J., Albanes, D., Weinstein, S., Wang, Z., Caporaso, N.E., Morton, L.M., Severson, R.K., Riboli, E., Vineis, P., Vermeulen, R.C.H., Southey, M.C., Milne, R.L., Clavel, J., Topka, S., Spinelli, J.J., Kraft, P., Ennas, M.G., Summerfield, G., Ferri, G.M., Harris, R.J., Miligi, L., Pettitt, A.R., North, K.E., Allsup, D.J., Fraumeni, J.F., Jr., Bailey, J.R., Offit, K., Pratt, G., Hjalgrim, H., Pepper, C., Chanock, S.J., Fegan, C., Rosenquist, R., De Sanjose, S., Carracedo, A., Dyer, M.J.S., Catovsky, D., Campo, E., Cerhan, J.R., Allan, J.M., Rothman, N., Houlston, R., and Slager, S.

Subjects
Lymphocytic leukaemia
Abstract

Several chronic 14175 lymphocytic leukaemia (CLL) susceptibility loci have been reported; however, much of the heritable risk remains unidentified. Here we perform a meta-analysis of six genome-wide association studies, imputed using a merged reference panel of 1,000 Genomes and UK10K data, totalling 6,200 cases and 17,598 controls after replication. We identify nine risk loci at 1p36.11 (rs34676223, P=5.04 × 10-13), 1q42.13 (rs41271473, P=1.06 × 10-10), 4q24 (rs71597109, P=1.37 × 10 -10), 4q35.1 (rs57214277, P=3.69 × 10-8), 6p21.31 (rs3800461, P=1.97 × 10-8), 11q23.2 (rs61904987, P=2.64 × 10-11), 18q21.1 (rs1036935, P=3.27 × 10-8), 19p13.3 (rs7254272, P=4.67 × 10-8) and 22q13.33 (rs140522, P=2.70 × 10-9). These new and established risk loci map to areas of active chromatin and show an over-representation of transcription factor binding for the key determinants of B-cell development and immune response.

Published
2017

35. Testicular large B-cell lymphoma is genetically similar to PCNSL and distinct from nodal DLBCL.

Author

Rivas-Delgado A, López C, Clot G, Nadeu F, Grau M, Frigola G, Bosch-Schips J, Radke J, Ishaque N, Alcoceba M, Tapia G, Luizaga L, Barcena C, Kelleher N, Villamor N, Baumann T, Muntañola A, Sancho-Cia JM, García-Sancho AM, Gonzalez-Barca E, Matutes E, Brito JA, Karube K, Salaverria I, Enjuanes A, Wiemann S, Heppner FL, Siebert R, Climent F, Campo E, Giné E, López-Guillermo A, and Beà S

Abstract

Testicular large B-cell lymphoma (TLBCL) is an infrequent and aggressive lymphoma arising in an immune-privileged site and has recently been recognized as a distinct entity from diffuse large B-cell lymphoma (DLBCL). We describe the genetic features of TLBCL and compare them with published series of nodal DLBCL and primary large B-cell lymphomas of the CNS (PCNSL). We collected 61 patients with TLBCL. We performed targeted next-generation sequencing, copy number arrays, and fluorescent in situ hybridization to assess chromosomal rearrangements in 40 cases with available material. Seventy percent of the cases showed localized stages. BCL6 rearrangements were detected in 36% of cases, and no concomitant BCL2 and MYC rearrangements were found. TLBCL had fewer copy number alterations ( p  < 0.04) but more somatic variants ( p  < 0.02) than nodal DLBCL and had more frequent 18q21.32-q23 ( BCL2 ) gains and 6q and 9p21.3 ( CDKN2A/B ) deletions. PIM1 , MYD88 L265P , CD79B , TBL1XR1 , MEF2B , CIITA , EP300, and ETV6 mutations were more frequent in TLBCL, and BCL10 mutations in nodal DLBCL. There were no major genetic differences between TLBCL and PCNSL. Localized or disseminated TLBCL displayed similar genomic profiles. Using LymphGen, the majority of cases were classified as MCD. However, we observed a subgroup of patients classified as BN2, both in localized and disseminated TLBCL, suggesting a degree of genetic heterogeneity in the TLBCL genetic profile. TLBCL has a distinctive genetic profile similar to PCNSL, supporting its recognition as a separate entity from DLBCL and might provide information to devise targeted therapeutic approaches., Competing Interests: Ferran Nadeu has received honoraria from Janssen, AbbVie, AstraZeneca, and SOPHiA GENETICS for speaking at educational activities; has received research support from Gilead; and has licensed the use of the protected IgCaller algorithm to Diagnóstica Longwood. Tycho Baumann has received consulting fees or honoraria from Janssen, Roche, Novartis, Merck, Gilead/Kite, Incyte, Lilly, Abbvie, AstraZeneca, and BeiGene. Alejandro Martin García‐Sancho has received consulting fees or honoraria from Janssen, Roche, BMS/Celgene, Kyowa Kirin, Clinigen, EUSAPharma, Novartis, Gilead/Kite, Incyte, Lilly, Takeda, ADC Therapeutics America, Miltenyi, Ideogen, Abbvie, and BeiGene. Elías Campo has been a consultant for GenMab, and Takeda; has received research support from AstraZeneca; received honoraria from Janssen, EUSPharma, Takeda, and Roche for speaking at educational activities; and is an inventor on a Lymphoma and Leukemia Molecular Profiling Project patent “Method for subtyping lymphoma subtypes by means of expression profiling” (PCT/US2014/64161) and a bioinformatic tool (IgCaller) licensed to Diagnostic Longwood. Eva Giné has received honoraria or consulting fees from Gilead, Kite Pharma, Janssen, Genmab, Miltenyi, and Lilly; has received research support from Janssen and travel expenses from Gilead and Kite Pharma. Armando López Guillermo served on the advisory board of Roche, Celgene, Novartis, and Gilead/Kite, received grants from Celgene and Gilead/Kite, and travel expenses from Kite/Gilead. The remaining authors declare no competing interests., (© 2024 The Author(s). HemaSphere published by John Wiley & Sons Ltd on behalf of European Hematology Association.)

Published
2024
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36. SOX11 expression is restricted to EBV-negative Burkitt lymphoma and is associated with molecular genetic features.

Author

Sureda-Gómez M, Iaccarino I, De Bolòs A, Meyer M, Balsas P, Richter J, Rodríguez ML, López C, Carreras-Caballé M, Glaser S, Nadeu F, Jares P, Clot G, Siciliano MC, Bellan C, Tornambè S, Boccacci R, Leoncini L, Campo E, Siebert R, Amador V, and Klapper W

Subjects
Humans, Gene Expression Regulation, Neoplastic, Epstein-Barr Virus Infections genetics, Epstein-Barr Virus Infections complications, Epstein-Barr Virus Infections virology, Mutation, DNA Helicases genetics, DNA Helicases metabolism, Translocation, Genetic, Transcription Factors genetics, Transcription Factors metabolism, Male, Inhibitor of Differentiation Proteins genetics, Inhibitor of Differentiation Proteins metabolism, Nuclear Proteins, Burkitt Lymphoma genetics, Burkitt Lymphoma virology, Burkitt Lymphoma metabolism, Burkitt Lymphoma pathology, SOXC Transcription Factors genetics, SOXC Transcription Factors metabolism, Herpesvirus 4, Human genetics
Abstract

Abstract: SRY-related HMG-box gene 11 (SOX11) is a transcription factor overexpressed in mantle cell lymphoma (MCL), a subset of Burkitt lymphomas (BL) and precursor lymphoid cell neoplasms but is absent in normal B cells and other B-cell lymphomas. SOX11 has an oncogenic role in MCL but its contribution to BL pathogenesis remains uncertain. Here, we observed that the presence of Epstein-Barr virus (EBV) and SOX11 expression were mutually exclusive in BL. SOX11 expression in EBV-negative (EVB-) BL was associated with an IG∷MYC translocation generated by aberrant class switch recombination, whereas in EBV-negative (EBV-)/SOX11-negative (SOX11-) tumors the IG∷MYC translocation was mediated by mistaken somatic hypermutations. Interestingly, EBV- SOX11-expressing BL showed higher frequency of SMARCA4 and ID3 mutations than EBV-/SOX11- cases. By RNA sequencing, we identified a SOX11-associated gene expression profile, with functional annotations showing partial overlap with the SOX11 transcriptional program of MCL. Contrary to MCL, no differences on cell migration or B-cell receptor signaling were found between SOX11- and SOX11-positive (SOX11+) BL cells. However, SOX11+ BL showed higher adhesion to vascular cell adhesion molecule 1 (VCAM-1) than SOX11- BL cell lines. Here, we demonstrate that EBV- BL comprises 2 subsets of cases based on SOX11 expression. The mutual exclusion of SOX11 and EBV, and the association of SOX11 with a specific genetic landscape suggest a role of SOX11 in the early pathogenesis of BL., (© 2024 American Society of Hematology. Published by Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.)

Published
2024
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37. Feasibility and Impact of Embedding an Extended DNA and RNA Tissue-Based Sequencing Panel for the Routine Care of Patients with Advanced Melanoma in Spain.

Author

Castrejon N, Martin R, Carrasco A, Castillo P, Garcia A, Albero-González R, García M, Marginet M, Palau N, Hernández M, Montironi C, Clot G, Arance A, Alos L, and Teixido C

Subjects
Humans, Male, Female, Middle Aged, Aged, Spain, Adult, High-Throughput Nucleotide Sequencing methods, Aged, 80 and over, Feasibility Studies, Proto-Oncogene Proteins B-raf genetics, Biomarkers, Tumor genetics, Skin Neoplasms genetics, Skin Neoplasms pathology, Melanoma genetics, Melanoma pathology, Melanoma therapy, Mutation
Abstract

Targeted NGS allows a fast and efficient multi-gene analysis and the detection of key gene aberrations in melanoma. In this study, we aim to describe the genetic alterations in a series of 87 melanoma cases using the oncomine focus assay (OFA), relate these results with the clinicopathological features of the patients, and compare them with our previous study results in which we used a smaller panel, the oncomine solid tumor (OST) DNA kit. Patients diagnosed with advanced melanoma at our center from 2020 to 2022 were included and DNA and RNA were extracted for sequencing. Common mutated genes were BRAF (29%), NRAS (28%), ALK , KIT , and MAP2K1 (5% each). Co-occurring mutations were detected in 29% of the samples, including BRAF with KIT , CTNNB1 , EGFR , ALK , HRAS , or MAP2K1. Amplifications and rearrangements were detected in 5% of cases. Only BRAF mutation showed a significant statistical association with sun exposure. For patients with a given genetic profile, the melanoma survival and recurrence-free survival rates were equivalent, but not for stage and LDH values. This expanded knowledge of molecular alterations has helped to more comprehensively characterize our patients and has provided relevant information for deciding the best treatment strategy., Competing Interests: C.T. declared no competing non-financial interests but reported advisory and consulting fees from Merck Sharp and Dohme (MSD), Novartis, and AstraZeneca, lecture fees from Roche, Pfizer, Biocartis, and MSD, and research from Novartis and AstraZeneca. Other authors declare no conflicts of interest.

Published
2024
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39. Genomic and transcriptomic profiling reveals distinct molecular subsets associated with outcomes in mantle cell lymphoma.

Author

Yi S, Yan Y, Jin M, Bhattacharya S, Wang Y, Wu Y, Yang L, Gine E, Clot G, Chen L, Yu Y, Zou D, Wang J, Phan AT, Cui R, Li F, Sun Q, Zhai Q, Wang T, Yu Z, Liu L, Liu W, Lyv R, Sui W, Huang W, Xiong W, Wang H, Li C, Xiao Z, Hao M, Wang J, Cheng T, Bea S, Herrera AF, Danilov A, Campo E, Ngo VN, Qiu L, and Wang L

Subjects
Humans, Male, Female, Gene Expression Regulation, Neoplastic, Aged, Genomics, Middle Aged, Lymphoma, Mantle-Cell genetics, Lymphoma, Mantle-Cell pathology, Lymphoma, Mantle-Cell metabolism, Transcriptome, Gene Expression Profiling
Published
2024
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40. SOX11/PRDX2 axis modulates redox homeostasis and chemoresistance in aggressive mantle cell lymphoma.

Author

De Bolòs A, Sureda-Gómez M, Carreras-Caballé M, Rodríguez ML, Clot G, Beà S, Giné E, Campo E, Balsas P, and Amador V

Subjects
Humans, Adult, Drug Resistance, Neoplasm genetics, Reactive Oxygen Species metabolism, Up-Regulation, Oxidation-Reduction, SOXC Transcription Factors genetics, SOXC Transcription Factors metabolism, Peroxiredoxins genetics, Peroxiredoxins metabolism, Lymphoma, Mantle-Cell drug therapy, Lymphoma, Mantle-Cell genetics, Lymphoma, Mantle-Cell metabolism
Abstract

Mantle cell lymphoma (MCL) is an incurable B-cell neoplasm characterized by an aggressive behavior, short responses to conventional therapies and SOX11 overexpression, which is associated with aggressive disease features and inferior clinical outcome of patients. Oxidative stress is known to induce tumorigenesis and tumor progression, whereas high expression levels of antioxidant genes have been associated with chemoresistance in different cancers. However, the role of oxidative stress in MCL pathogenesis and the involvement of SOX11 regulating redox homeostasis in MCL cells are largely unknown. Here, by integrating gene set enrichment analysis of two independent series of MCL, we observed that SOX11+ MCL had higher reactive oxygen species (ROS) levels compared to SOX11- MCL primary tumors and increased expression of Peredoxine2 (PRDX2), which upregulation significantly correlated with SOX11 overexpression, higher ROS production and worse overall survival of patients. SOX11 knockout (SOX11KO) significantly reduced PRDX2 expression, and SOX11KO and PRDX2 knockdown (PRDX2KD) had increased ROS levels and ROS-mediated tumor cell death upon treatment with drugs, compared to control MCL cell lines. Our results suggest an aberrant redox homeostasis associated with chemoresistance in aggressive MCL through SOX11-mediated PRDX2 upregulation, highlighting PRDX2 as promising target for new therapeutic strategies to overcome chemoresistance in aggressive MCLs., (© 2024. The Author(s).)

Published
2024
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41. BCL3 rearrangements in B-cell lymphoid neoplasms occur in two breakpoint clusters associated with different diseases.

Author

Carbo-Meix A, Guijarro F, Wang L, Grau M, Royo R, Frigola G, Playa-Albinyana H, Buhler MM, Clot G, Duran-Ferrer M, Lu J, Granada I, Baptista MJ, Navarro JT, Espinet B, Puiggros A, Tapia G, Bandiera L, De Canal G, Bonoldi E, Climent F, Ribera-Cortada I, Fernandez-Caballero M, De la Banda E, Do Nascimento J, Pineda A, Vela D, Rozman M, Aymerich M, Syrykh C, Brousset P, Perera M, Yanez L, Ortin JX, Tuset E, Zenz T, Cook JR, Swerdlow SH, Martin-Subero JI, Colomer D, Matutes E, Bea S, Costa D, Nadeu F, and Campo E

Subjects
Humans, In Situ Hybridization, Fluorescence, Translocation, Genetic, Gene Rearrangement, Immunoglobulin Heavy Chains genetics, Chromosomes, Human, Pair 14 genetics, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Lymphoma, Large B-Cell, Diffuse genetics
Abstract

The t(14;19)(q32;q13) often juxtaposes BCL3 with immunoglobulin heavy chain (IGH) resulting in overexpression of the gene. In contrast to other oncogenic translocations, BCL3 rearrangement (BCL3-R) has been associated with a broad spectrum of lymphoid neoplasms. Here we report an integrative whole-genome sequence, transcriptomic, and DNA methylation analysis of 13 lymphoid neoplasms with BCL3-R. The resolution of the breakpoints at single base-pair revealed that they occur in two clusters at 5' (n=9) and 3' (n=4) regions of BCL3 associated with two different biological and clinical entities. Both breakpoints were mediated by aberrant class switch recombination of the IGH locus. However, the 5' breakpoints (upstream) juxtaposed BCL3 next to an IGH enhancer leading to overexpression of the gene whereas the 3' breakpoints (downstream) positioned BCL3 outside the influence of the IGH and were not associated with its expression. Upstream BCL3-R tumors had unmutated IGHV, trisomy 12, and mutated genes frequently seen in chronic lymphocytic leukemia (CLL) but had an atypical CLL morphology, immunophenotype, DNA methylome, and expression profile that differ from conventional CLL. In contrast, downstream BCL3-R neoplasms were atypical splenic or nodal marginal zone lymphomas (MZL) with mutated IGHV, complex karyotypes and mutated genes typical of MZL. Two of the latter four tumors transformed to a large B-cell lymphoma. We designed a novel fluorescence in situ hybridization assay that recognizes the two different breakpoints and validated these findings in 17 independent tumors. Overall, upstream or downstream breakpoints of BCL3-R are mainly associated with two subtypes of lymphoid neoplasms with different (epi)genomic, expression, and clinicopathological features resembling atypical CLL and MZL, respectively.

Published
2024
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43. Evaluation of clinical parameters and biomarkers in older, untreated mantle cell lymphoma patients receiving bendamustine-rituximab.

Author

Ramsower CA, Rosenthal A, Robetorye RS, Mwangi R, Maurer M, Villa D, McDonnell T, Feldman A, Cohen JB, Habermann T, Campo E, Clot G, Bühler MM, Kulis M, Martin-Subero JI, Giné E, Cook JR, Hill B, Raess PW, Beiske KH, Reichart A, Hartmann S, Holte H, Scott D, and Rimsza L

Subjects
Adult, Humans, Aged, Rituximab adverse effects, Bendamustine Hydrochloride therapeutic use, Biomarkers, Prognosis, Antineoplastic Combined Chemotherapy Protocols adverse effects, Lymphoma, Mantle-Cell pathology
Abstract

Mantle cell lymphoma (MCL) is clinically and biologically heterogeneous. While various prognostic features have been proposed, none currently impact therapy selection, particularly in older patients, for whom treatment is primarily dictated by age and comorbidities. Herein, we undertook a comprehensive comparison of clinicopathological features in a cohort of patients 60 years and older, uniformly treated with bendamustine and rituximab, with a median survival of >8 years. The strongest prognostic indicators in this cohort were a high-risk call by a simplified MCL international prognostic index (s-MIPI) (HR: 3.32, 95% CI: 1.65-6.68 compared to low risk), a high-risk call by MCL35 (HR: 10.34, 95% CI: 2.37-45.20 compared to low risk) and blastoid cytology (HR: 4.21, 95% CR: 1.92-9.22 compared to classic). Patients called high risk by both the s-MIPI and MCL35 had the most dismal prognosis (HR: 11.58, 95% CI: 4.10-32.72), while those with high risk by either had a moderate but clinically relevant prognosis (HR: 2.95, 95% CI: 1.49-5.82). A robust assay to assess proliferation, such as MCL35, along with stringent guidelines for cytological evaluation of MCL, in combination with MIPI, may be a strong path to risk-stratify older MCL patients in future clinical trials., (© 2023 British Society for Haematology and John Wiley & Sons Ltd.)

Published
2024
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44. Genomic landscape of follicular lymphoma across a wide spectrum of clinical behaviors.

Author

Mozas P, López C, Grau M, Nadeu F, Clot G, Valle S, Kulis M, Navarro A, Ramis-Zaldivar JE, González-Farré B, Rivas-Delgado A, Rivero A, Frigola G, Balagué O, Giné E, Delgado J, Villamor N, Matutes E, Magnano L, García-Sanz R, Huet S, Russell RB, Campo E, López-Guillermo A, and Beà S

Subjects
Humans, Neoplasm Recurrence, Local, Mutation, Genomics, Recurrence, Lymphoma, Follicular pathology
Abstract

While some follicular lymphoma (FL) patients do not require treatment or experience prolonged responses, others relapse early, and little is known about genetic alterations specific to patients with a particular clinical behavior. We selected 56 grade 1-3A FL patients according to their need of treatment or timing of relapse: never treated (n = 7), non-relapsed (19), late relapse (14), early relapse or POD24 (11), and primary refractory (5). We analyzed 56 diagnostic and 12 paired relapse lymphoid tissue biopsies and performed copy number alteration (CNA) analysis and next generation sequencing (NGS). We identified six focal driver losses (1p36.32, 6p21.32, 6q14.1, 6q23.3, 9p21.3, 10q23.33) and 1p36.33 copy-neutral loss of heterozygosity (CN-LOH). By integrating CNA and NGS results, the most frequently altered genes/regions were KMT2D (79%), CREBBP (67%), TNFRSF14 (46%) and BCL2 (40%). Although we found that mutations in PIM1, FOXO1 and TMEM30A were associated with an adverse clinical behavior, definitive conclusions cannot be drawn, due to the small sample size. We identified common precursor cells harboring early oncogenic alterations of the KMT2D, CREBBP, TNFRSF14 and EP300 genes and 16p13.3-p13.2 CN-LOH. Finally, we established the functional consequences of mutations by means of protein modeling (CD79B, PLCG2, PIM1, MCL1 and IRF8). These data expand the knowledge on the genomics behind the heterogeneous FL population and, upon replication in larger cohorts, could contribute to risk stratification and the development of targeted therapies., (© 2023 The Authors. Hematological Oncology published by John Wiley & Sons Ltd.)

Published
2023
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45. Unraveling the genetics of transformed splenic marginal zone lymphoma.

Author

Grau M, López C, Navarro A, Frigola G, Nadeu F, Clot G, Bastidas-Mora G, Alcoceba M, Baptista MJ, Blanes M, Colomer D, Costa D, Domingo-Domènech E, Enjuanes A, Escoda L, Forcada P, Giné E, Lopez-Guerra M, Ramón O, Rivas-Delgado A, Vicente Folch L, Wotherspoon A, Climent F, Campo E, López-Guillermo A, Matutes E, and Beà S

Subjects
Humans, Mutation, Translocation, Genetic, Splenic Neoplasms genetics, Splenic Neoplasms diagnosis, Splenic Neoplasms pathology, Lymphoma, Large B-Cell, Diffuse genetics, Leukemia, Lymphocytic, Chronic, B-Cell genetics
Abstract

The genetic mechanisms associated with splenic marginal zone lymphoma (SMZL) transformation are not well defined. We studied 41 patients with SMZL that eventually underwent large B-cell lymphoma transformation. Tumor material was obtained either only at diagnosis (9 patients), at diagnosis and transformation (18 patients), and only at transformation (14 patients). Samples were categorized in 2 groups: (1) at diagnosis (SMZL, n = 27 samples), and (2) at transformation (SMZL-T, n = 32 samples). Using copy number arrays and a next-generation sequencing custom panel, we identified that the main genomic alterations in SMZL-T involved TNFAIP3, KMT2D, TP53, ARID1A, KLF2, 1q gains, and losses of 9p21.3 (CDKN2A/B) and 7q31-q32. Compared with SMZL, SMZL-T had higher genomic complexity, and higher incidence of TNFAIP3 and TP53 alterations, 9p21.3 (CDKN2A/B) losses, and 6p gains. SMZL and SMZL-T clones arose by divergent evolution from a common altered precursor cell that acquired different genetic alterations in virtually all evaluable cases (92%, 12 of 13 cases). Using whole-genome sequencing of diagnostic and transformation samples in 1 patient, we observed that the SMZL-T sample carried more genomic aberrations than the diagnostic sample, identified a translocation t(14;19)(q32;q13) present in both samples, and detected a focal B2M deletion due to chromothripsis acquired at transformation. Survival analysis showed that KLF2 mutations, complex karyotype, and International Prognostic Index score at transformation were predictive of a shorter survival from transformation (P = .001; P = .042; and P = .007; respectively). In summary, SMZL-T are characterized by higher genomic complexity than SMZL, and characteristic genomic alterations that could represent key players in the transformation event., (© 2023 by The American Society of Hematology. Licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), permitting only noncommercial, nonderivative use with attribution. All other rights reserved.)

Published
2023
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46. Detection of early seeding of Richter transformation in chronic lymphocytic leukemia.

Author

Nadeu F, Royo R, Massoni-Badosa R, Playa-Albinyana H, Garcia-Torre B, Duran-Ferrer M, Dawson KJ, Kulis M, Diaz-Navarro A, Villamor N, Melero JL, Chapaprieta V, Dueso-Barroso A, Delgado J, Moia R, Ruiz-Gil S, Marchese D, Giró A, Verdaguer-Dot N, Romo M, Clot G, Rozman M, Frigola G, Rivas-Delgado A, Baumann T, Alcoceba M, González M, Climent F, Abrisqueta P, Castellví J, Bosch F, Aymerich M, Enjuanes A, Ruiz-Gaspà S, López-Guillermo A, Jares P, Beà S, Capella-Gutierrez S, Gelpí JL, López-Bigas N, Torrents D, Campbell PJ, Gut I, Rossi D, Gaidano G, Puente XS, Garcia-Roves PM, Colomer D, Heyn H, Maura F, Martín-Subero JI, and Campo E

Subjects
Cell Transformation, Neoplastic genetics, Disease Progression, Humans, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Lymphoma, Large B-Cell, Diffuse genetics, Lymphoma, Large B-Cell, Diffuse pathology
Abstract

Richter transformation (RT) is a paradigmatic evolution of chronic lymphocytic leukemia (CLL) into a very aggressive large B cell lymphoma conferring a dismal prognosis. The mechanisms driving RT remain largely unknown. We characterized the whole genome, epigenome and transcriptome, combined with single-cell DNA/RNA-sequencing analyses and functional experiments, of 19 cases of CLL developing RT. Studying 54 longitudinal samples covering up to 19 years of disease course, we uncovered minute subclones carrying genomic, immunogenetic and transcriptomic features of RT cells already at CLL diagnosis, which were dormant for up to 19 years before transformation. We also identified new driver alterations, discovered a new mutational signature (SBS-RT), recognized an oxidative phosphorylation (OXPHOS) high -B cell receptor (BCR) low -signaling transcriptional axis in RT and showed that OXPHOS inhibition reduces the proliferation of RT cells. These findings demonstrate the early seeding of subclones driving advanced stages of cancer evolution and uncover potential therapeutic targets for RT., (© 2022. The Author(s).)

Published
2022
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47. Revised International Prognostic Index and genetic alterations are associated with early failure to R-CHOP in patients with diffuse large B-cell lymphoma.

Author

Dlouhy I, Karube K, Enjuanes A, Salaverria I, Nadeu F, Ramis-Zaldivar JE, Valero JG, Rivas-Delgado A, Magnano L, Martin-García D, Pérez-Galán P, Clot G, Rovira J, Jares P, Balagué O, Giné E, Mozas P, Briones J, Sancho JM, Salar A, Mercadal S, Alcoceba M, Valera A, Campo E, and López-Guillermo A

Subjects
Adult, Aged, Antineoplastic Combined Chemotherapy Protocols adverse effects, Biomarkers, Tumor, Biopsy, Cyclophosphamide adverse effects, Cyclophosphamide therapeutic use, DNA Copy Number Variations, DNA Mutational Analysis, Doxorubicin adverse effects, Doxorubicin therapeutic use, Female, Gene Expression Profiling, Genetic Predisposition to Disease, Humans, In Situ Hybridization, Fluorescence, Lymphoma, Large B-Cell, Diffuse diagnosis, Lymphoma, Large B-Cell, Diffuse mortality, Male, Middle Aged, Neoplasm Grading, Neoplasm Staging, Odds Ratio, Prednisone adverse effects, Prednisone therapeutic use, Prognosis, Rituximab adverse effects, Rituximab therapeutic use, Treatment Failure, Treatment Outcome, Vincristine adverse effects, Vincristine therapeutic use, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Genetic Variation, Lymphoma, Large B-Cell, Diffuse drug therapy, Lymphoma, Large B-Cell, Diffuse genetics
Abstract

Relapsed or refractory diffuse large B-cell lymphoma (DLBCL) cases have a poor outcome. Here we analysed clinico-biological features in 373 DLBCL patients homogeneously treated with rituximab, cyclophosphamide, doxorubicin, vincristine and prednisolone (R-CHOP), in order to identify variables associated with early failure to treatment (EF), defined as primary refractoriness or relapse within 12 months from diagnosis. In addition to clinical features, mutational status of 106 genes was studied by targeted next-generation sequencing in 111 cases, copy number alterations in 87, and gene expression profile (GEP) in 39. Ninety-seven cases (26%) were identified as EF and showed significantly shorter overall survival (OS). Patients with B symptoms, advanced stage, high levels of serum lactate dehydrogenase (LDH) or β2-microglobulin, low lymphocyte/monocyte ratio and higher Revised International Prognostic Index (R-IPI) scores, as well as those with BCL2 rearrangements more frequently showed EF, with R-IPI being the most important in logistic regression. Mutations in NOTCH2, gains in 5p15·33 (TERT), 12q13 (CDK2), 12q14·1 (CDK4) and 12q15 (MDM2) showed predictive importance for EF independently from R-IPI. GEP studies showed that EF cases were significantly enriched in sets related to cell cycle regulation and inflammatory response, while cases in response showed over-representation of gene sets related to extra-cellular matrix and tumour microenvironment., (© 2021 British Society for Haematology and John Wiley & Sons Ltd.)

Published
2022
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48. Genomic and transcriptomic profiling reveals distinct molecular subsets associated with outcomes in mantle cell lymphoma.

Author

Yi S, Yan Y, Jin M, Bhattacharya S, Wang Y, Wu Y, Yang L, Gine E, Clot G, Chen L, Yu Y, Zou D, Wang J, Phan AT, Cui R, Li F, Sun Q, Zhai Q, Wang T, Yu Z, Liu L, Liu W, Lyv R, Sui W, Huang W, Xiong W, Wang H, Li C, Xiao Z, Hao M, Wang J, Cheng T, Bea S, Herrera AF, Danilov A, Campo E, Ngo VN, Qiu L, and Wang L

Subjects
Adult, Aged, Aged, 80 and over, Disease-Free Survival, Female, Humans, Male, Middle Aged, Survival Rate, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Lymphoma, Mantle-Cell genetics, Lymphoma, Mantle-Cell metabolism, Lymphoma, Mantle-Cell mortality, Neoplasm Proteins biosynthesis, Neoplasm Proteins genetics, Transcriptome
Abstract

Mantle cell lymphoma (MCL) is a phenotypically and genetically heterogeneous malignancy in which the genetic alterations determining clinical indications are not fully understood. Here, we performed a comprehensive whole-exome sequencing analysis of 152 primary samples derived from 134 MCL patients, including longitudinal samples from 16 patients and matched RNA-Seq data from 48 samples. We classified MCL into 4 robust clusters (C1-C4). C1 featured mutated immunoglobulin heavy variable (IGHV), CCND1 mutation, amp(11q13), and active B cell receptor (BCR) signaling. C2 was enriched with del(11q)/ATM mutations and upregulation of NF-κB and DNA repair pathways. C3 was characterized by mutations in SP140, NOTCH1, and NSD2, with downregulation of BCR signaling and MYC targets. C4 harbored del(17p)/TP53 mutations, del(13q), and del(9p), and active MYC pathway and hyperproliferation signatures. Patients in these 4 clusters had distinct outcomes (5-year overall survival [OS] rates for C1-C4 were 100%, 56.7%, 48.7%, and 14.2%, respectively). We also inferred the temporal order of genetic events and studied clonal evolution of 16 patients before treatment and at progression/relapse. Eleven of these samples showed drastic clonal evolution that was associated with inferior survival, while the other samples showed modest or no evolution. Our study thus identifies genetic subsets that clinically define this malignancy and delineates clonal evolution patterns and their impact on clinical outcomes.

Published
2022
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49. SOX11, CD70, and Treg cells configure the tumor-immune microenvironment of aggressive mantle cell lymphoma.

Author

Balsas P, Veloza L, Clot G, Sureda-Gómez M, Rodríguez ML, Masaoutis C, Frigola G, Navarro A, Beà S, Nadeu F, Giné E, López-Guillermo A, Martínez A, Ribera-Cortada I, Engel P, Quintanilla-Martínez L, Klapper W, Campo E, and Amador V

Subjects
Antigen Presentation, CD27 Ligand analysis, Humans, Lymphocyte Activation, Lymphoma, Mantle-Cell pathology, SOXC Transcription Factors analysis, T-Lymphocytes, Regulatory pathology, Tumor Microenvironment, CD27 Ligand immunology, Lymphoma, Mantle-Cell immunology, SOXC Transcription Factors immunology, T-Lymphocytes, Regulatory immunology
Abstract

Mantle cell lymphoma (MCL) is a mature B-cell neoplasm with a heterogeneous clinical and biological behavior. SOX11 oncogenic expression contributes to the aggressiveness of these tumors by different mechanisms, including tumor and stromal cell interactions. However, the precise composition of the immune cell microenvironment of MCL, its possible relationship to SOX11 expression, and how it may contribute to tumor behavior is not well known. Here, we performed an integrative transcriptome analysis of 730 immune-related genes combined with the immune cell phenotype analysis by immunohistochemistry in SOX11+ and SOX11- primary nodal MCL cases and non-neoplastic reactive lymph nodes. SOX11+ MCL had a significant lower T-cell intratumoral infiltration compared with negative cases. A reduced expression of MHCI/II-like and T-cell costimulation and signaling activation related transcripts was significantly associated with poor clinical outcome. Moreover, we identified CD70 as a SOX11 direct target gene, whose overexpression was induced in SOX11+, but not SOX11- tumor cells by CD40L in vitro. CD70 was overexpressed in primary SOX11+ MCL and it was associated with an immune unbalance of the tumor microenvironment characterized by increased number of effector regulatory t (Treg) cell infiltration, higher proliferation, and aggressive clinical course. CD27 was expressed with moderate to strong intensity in 76% of cases. Overall, our results suggest that SOX11 expression in MCL is associated with an immunosuppressive microenvironment characterized by CD70 overexpression in tumor cells, increased Treg cell infiltration and downmodulation of antigen processing, and presentation and T-cell activation that could promote MCL progression and represent a potential target for tailored therapies., (© 2021 by The American Society of Hematology.)

Published
2021
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50. MAPK and JAK-STAT pathways dysregulation in plasmablastic lymphoma.

Author

Ramis-Zaldivar JE, Gonzalez-Farre B, Nicolae A, Pack S, Clot G, Nadeu F, Mottok A, Horn H, Song JY, Fu K, Wright G, Gascoyne RD, Chan WC, Scott DW, Feldman AL, Valera A, Enjuanes A, Braziel RM, Smeland EB, Staudt LM, Rosenwald A, Rimsza LM, Ott G, Jaffe ES, Salaverria I, and Campo E

Subjects
Herpesvirus 4, Human genetics, Humans, In Situ Hybridization, Fluorescence, Epstein-Barr Virus Infections complications, Epstein-Barr Virus Infections genetics, Lymphoma, Large B-Cell, Diffuse genetics, Plasmablastic Lymphoma diagnosis, Plasmablastic Lymphoma genetics
Abstract

Plasmablastic lymphoma (PBL) is an aggressive B-cell lymphoma with an immunoblastic/large-cell morphology and terminal B-cell differentiation. The differential diagnosis from Burkitt lymphoma, plasma cell myeloma and some variants of diffuse large B-cell lymphoma may be challenging because of the overlapping morphological, genetic and immunophenotypic features. Furthermore, the genomic landscape in PBL is not well known. To characterize the genetic and molecular heterogeneity of these tumors, we investigated 34 cases of PBL using an integrated approach, including fluorescence in situ hybridization, targeted sequencing of 94 B-cell lymphoma-related genes, and copy-number arrays. PBL were characterized by high genetic complexity including MYC translocations (87%), gains of 1q21.1-q44, trisomy 7, 8q23.2- q24.21, 11p13-p11.2, 11q14.2-q25, 12p and 19p13.3-p13.13, losses of 1p33, 1p31.1-p22.3, 13q and 17p13.3-p11.2, and recurrent mutations of STAT3 (37%), NRAS and TP53 (33%), MYC and EP300 (19%) and CARD11, SOCS1 and TET2 (11%). Pathway enrichment analysis suggested a cooperative action between MYC alterations and MAPK (49%) and JAK-STAT (40%) signaling pathways. Of note, Epstein-Barr virus (EBV)-negative PBL cases had higher mutational and copy-number load and more frequent TP53, CARD11 and MYC mutations, whereas EBV-positive PBL tended to have more mutations affecting the JAK-STAT pathway. In conclusion, these findings further unravel the distinctive molecular heterogeneity of PBL identifying novel molecular targets and the different genetic profile of these tumors in relation to EBV infection.

Published
2021
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