Pathway discovery in mantle cell lymphoma by integrated analysis of high-resolution gene expression and copy number profiling

Elena M. Hartmann; Elias Campo; George Wright; Georg Lenz; Itziar Salaverria; Pedro Jares; Wenming Xiao; Rita M. Braziel; Lisa M. Rimsza; Wing Chung Chan; Dennis D. Weisenburger; Jan Delabie; Elaine S. Jaffe; Randy D. Gascoyne; Sandeep S. Dave; Hans Konrad Mueller-Hermelink; Louis M. Staudt; German Ott; Sílvia Beà; Andreas Rosenwald

doi:10.1182/blood-2010-01-263806

Pathway discovery in mantle cell lymphoma by integrated analysis of high-resolution gene expression and copy number profiling

Elena M. Hartmann, Elias Campo, George Wright, Georg Lenz, Itziar Salaverria, Pedro Jares, Wenming Xiao, Rita M. Braziel, Lisa M. Rimsza, Wing Chung Chan, Dennis D. Weisenburger, Jan Delabie, Elaine S. Jaffe, Randy D. Gascoyne, Sandeep S. Dave, Hans Konrad Mueller-Hermelink, Louis M. Staudt, German Ott, Sílvia Beà, Andreas Rosenwald

Pathology

Research output: Contribution to journal › Article › peer-review

118 Scopus citations

Abstract

The genome of mantle cell lymphoma (MCL) is, in addition to the translocation t(11;14), characterized by a high number of secondary chromosomal gains and losses that probably account for the various survival times of MCL patients. We investigated 77 primary MCL tumors with available clinical information using high-resolution RNA expression and genomic profiling and applied our recently developed gene expression and dosage integrator algorithm to identify novel genes and pathways that may be of relevance for the pathobiology of MCL. We show that copy number neutral loss of heterozygosity is common in MCL and targets regions that are frequently affected by deletions. The molecular consequences of genomic copy number changes appear complex, even in genomic loci with identified tumor suppressors, such as the region 9p21 containing the CDKN2A locus. Moreover, the deregulation of novel genes, such as CUL4A, ING1, and MCPH1, may affect the 2 crucial pathogenetic mechanisms in MCL, the disturbance of the proliferation, and DNA damage response pathways. Deregulation of the Hippo pathway may have a pathogenetic role in MCL because decreased expression of its members MOBKL2A, MOBKL2B, and LATS2 was associated with inferior outcome, including an independent validation series of 32 MCLs.

Original language	English (US)
Pages (from-to)	953-961
Number of pages	9
Journal	Blood
Volume	116
Issue number	6
DOIs	https://doi.org/10.1182/blood-2010-01-263806
State	Published - Aug 12 2010

ASJC Scopus subject areas

Biochemistry
Immunology
Hematology
Cell Biology

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Hartmann, E. M., Campo, E., Wright, G., Lenz, G., Salaverria, I., Jares, P., Xiao, W., Braziel, R. M., Rimsza, L. M., Chan, W. C., Weisenburger, D. D., Delabie, J., Jaffe, E. S., Gascoyne, R. D., Dave, S. S., Mueller-Hermelink, H. K., Staudt, L. M., Ott, G., Beà, S., & Rosenwald, A. (2010). Pathway discovery in mantle cell lymphoma by integrated analysis of high-resolution gene expression and copy number profiling. Blood, 116(6), 953-961. https://doi.org/10.1182/blood-2010-01-263806

Hartmann, EM, Campo, E, Wright, G, Lenz, G, Salaverria, I, Jares, P, Xiao, W, Braziel, RM, Rimsza, LM, Chan, WC, Weisenburger, DD, Delabie, J, Jaffe, ES, Gascoyne, RD, Dave, SS, Mueller-Hermelink, HK, Staudt, LM, Ott, G, Beà, S & Rosenwald, A 2010, 'Pathway discovery in mantle cell lymphoma by integrated analysis of high-resolution gene expression and copy number profiling', Blood, vol. 116, no. 6, pp. 953-961. https://doi.org/10.1182/blood-2010-01-263806

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title = "Pathway discovery in mantle cell lymphoma by integrated analysis of high-resolution gene expression and copy number profiling",

abstract = "The genome of mantle cell lymphoma (MCL) is, in addition to the translocation t(11;14), characterized by a high number of secondary chromosomal gains and losses that probably account for the various survival times of MCL patients. We investigated 77 primary MCL tumors with available clinical information using high-resolution RNA expression and genomic profiling and applied our recently developed gene expression and dosage integrator algorithm to identify novel genes and pathways that may be of relevance for the pathobiology of MCL. We show that copy number neutral loss of heterozygosity is common in MCL and targets regions that are frequently affected by deletions. The molecular consequences of genomic copy number changes appear complex, even in genomic loci with identified tumor suppressors, such as the region 9p21 containing the CDKN2A locus. Moreover, the deregulation of novel genes, such as CUL4A, ING1, and MCPH1, may affect the 2 crucial pathogenetic mechanisms in MCL, the disturbance of the proliferation, and DNA damage response pathways. Deregulation of the Hippo pathway may have a pathogenetic role in MCL because decreased expression of its members MOBKL2A, MOBKL2B, and LATS2 was associated with inferior outcome, including an independent validation series of 32 MCLs.",

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doi = "10.1182/blood-2010-01-263806",

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AU - Hartmann, Elena M.

AU - Campo, Elias

AU - Wright, George

AU - Lenz, Georg

AU - Salaverria, Itziar

AU - Jares, Pedro

AU - Xiao, Wenming

AU - Braziel, Rita M.

AU - Rimsza, Lisa M.

AU - Chan, Wing Chung

AU - Weisenburger, Dennis D.

AU - Delabie, Jan

AU - Jaffe, Elaine S.

AU - Gascoyne, Randy D.

AU - Dave, Sandeep S.

AU - Mueller-Hermelink, Hans Konrad

AU - Staudt, Louis M.

AU - Ott, German

AU - Beà, Sílvia

AU - Rosenwald, Andreas

PY - 2010/8/12

Y1 - 2010/8/12

N2 - The genome of mantle cell lymphoma (MCL) is, in addition to the translocation t(11;14), characterized by a high number of secondary chromosomal gains and losses that probably account for the various survival times of MCL patients. We investigated 77 primary MCL tumors with available clinical information using high-resolution RNA expression and genomic profiling and applied our recently developed gene expression and dosage integrator algorithm to identify novel genes and pathways that may be of relevance for the pathobiology of MCL. We show that copy number neutral loss of heterozygosity is common in MCL and targets regions that are frequently affected by deletions. The molecular consequences of genomic copy number changes appear complex, even in genomic loci with identified tumor suppressors, such as the region 9p21 containing the CDKN2A locus. Moreover, the deregulation of novel genes, such as CUL4A, ING1, and MCPH1, may affect the 2 crucial pathogenetic mechanisms in MCL, the disturbance of the proliferation, and DNA damage response pathways. Deregulation of the Hippo pathway may have a pathogenetic role in MCL because decreased expression of its members MOBKL2A, MOBKL2B, and LATS2 was associated with inferior outcome, including an independent validation series of 32 MCLs.

AB - The genome of mantle cell lymphoma (MCL) is, in addition to the translocation t(11;14), characterized by a high number of secondary chromosomal gains and losses that probably account for the various survival times of MCL patients. We investigated 77 primary MCL tumors with available clinical information using high-resolution RNA expression and genomic profiling and applied our recently developed gene expression and dosage integrator algorithm to identify novel genes and pathways that may be of relevance for the pathobiology of MCL. We show that copy number neutral loss of heterozygosity is common in MCL and targets regions that are frequently affected by deletions. The molecular consequences of genomic copy number changes appear complex, even in genomic loci with identified tumor suppressors, such as the region 9p21 containing the CDKN2A locus. Moreover, the deregulation of novel genes, such as CUL4A, ING1, and MCPH1, may affect the 2 crucial pathogenetic mechanisms in MCL, the disturbance of the proliferation, and DNA damage response pathways. Deregulation of the Hippo pathway may have a pathogenetic role in MCL because decreased expression of its members MOBKL2A, MOBKL2B, and LATS2 was associated with inferior outcome, including an independent validation series of 32 MCLs.

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Pathway discovery in mantle cell lymphoma by integrated analysis of high-resolution gene expression and copy number profiling

Abstract

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