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Conference Paper: Genome-wide identification of novel regions of DNA copy number alterations in natural killer cell lymphoma by array comparative genomic hybridization

TitleGenome-wide identification of novel regions of DNA copy number alterations in natural killer cell lymphoma by array comparative genomic hybridization
Authors
Issue Date2006
PublisherAmerican Association for Cancer Research
Citation
The 97th AACR Annual Meeting, Washington, D.C., 1-5 April 2006. In Cancer Research, 2006, v. 66 n. 8S, p. 613 Abstract no. 2603 How to Cite?
AbstractIntroduction: Natural killer (NK) cell lymphoma encompasses a related spectrum of diseases and is among the most aggressive of all lymphoid malignancies. The nasal type is characterized by necrotic lesions in the nasal cavity, nasopharynx, or palate, whereas patients suffering from the aggressive type might die within a short time from disseminated disease or multi-organ failure. It is a relatively rare disease and is generally more common in Asians than in other races. Since it has not been well characterized until recently, the identification of genetic alterations would provide important insights into the genomic mechanism of lymphomagenesis. Hypotheses: NK cell lymphoma pathogenesis occurs via multiple genomic alterations and the critical alterations will be present in multiple NK cell lines. Objective: Alignment of high resolution genomic profiles from multiple NK cell lines will reveal minimal regions of alteration important in the pathogenesis of NK-cell lymphoma. Experimental Approach: To determine segmental DNA copy number changes across an entire genome, whole genome tiling path array is employed to evaluate segmental DNA gains and losses which may contain oncogenes and tumor suppressors. Currently, the whole genome has been arrayed as 26,819 bacterial artificial chromosome (BAC) derived amplified fragment pools spotted in duplicate (53,638 elements) resulting in tiling resolution with complete coverage of the sequenced human genome. Results: Whole genome array CGH was used to generate high resolution segmental copy number profiles of seven NK cell lymphoma cell lines (HANK1, KHYG-1, NK-92, NK-YS, SNK1, SNK6, and KAI3). Alignment of these profiles with the human genome map has resulted in fine-mapping the regional losses of 6q. Numerous novel regions, including gain of 5p15.33, and loss of 4q21.23-q32.1, 9p21.1-p22.3, and 12q24.32-q24.33 were also identified in at least five (>70%) of these cell lines. Conclusions: The generation of the high resolution segmental copy number profiles by array CGH allows the identification of genomic alterations of NK-cell lymphomas as well as the candidate genes involved in the pathogenesis of NK-cell lymphoma. Novel candidate oncogenes and tumor suppressor genes identified in this study will provide further insights into the genetic basis of lymphomagenesis. Acknowledgements: This work was supported by funds from Genome Canada/British Columbia. WCC is supported by the Director’s Challenge grant (U01-CA 84967). We would like to thank Spencer Watson for BAC array production and Magan Trottier for technical assistance.
Persistent Identifierhttp://hdl.handle.net/10722/104751
ISSN
2023 Impact Factor: 12.5
2023 SCImago Journal Rankings: 3.468

 

DC FieldValueLanguage
dc.contributor.authorTsui, IFen_HK
dc.contributor.authorIqbal, Jen_HK
dc.contributor.authorDeLeeuw, RJen_HK
dc.contributor.authorSrivastava, Gen_HK
dc.contributor.authorShimizu, Nen_HK
dc.contributor.authorChan, WCen_HK
dc.contributor.authorLam, WLen_HK
dc.date.accessioned2010-09-25T22:05:52Z-
dc.date.available2010-09-25T22:05:52Z-
dc.date.issued2006en_HK
dc.identifier.citationThe 97th AACR Annual Meeting, Washington, D.C., 1-5 April 2006. In Cancer Research, 2006, v. 66 n. 8S, p. 613 Abstract no. 2603-
dc.identifier.issn0008-5472-
dc.identifier.urihttp://hdl.handle.net/10722/104751-
dc.description.abstractIntroduction: Natural killer (NK) cell lymphoma encompasses a related spectrum of diseases and is among the most aggressive of all lymphoid malignancies. The nasal type is characterized by necrotic lesions in the nasal cavity, nasopharynx, or palate, whereas patients suffering from the aggressive type might die within a short time from disseminated disease or multi-organ failure. It is a relatively rare disease and is generally more common in Asians than in other races. Since it has not been well characterized until recently, the identification of genetic alterations would provide important insights into the genomic mechanism of lymphomagenesis. Hypotheses: NK cell lymphoma pathogenesis occurs via multiple genomic alterations and the critical alterations will be present in multiple NK cell lines. Objective: Alignment of high resolution genomic profiles from multiple NK cell lines will reveal minimal regions of alteration important in the pathogenesis of NK-cell lymphoma. Experimental Approach: To determine segmental DNA copy number changes across an entire genome, whole genome tiling path array is employed to evaluate segmental DNA gains and losses which may contain oncogenes and tumor suppressors. Currently, the whole genome has been arrayed as 26,819 bacterial artificial chromosome (BAC) derived amplified fragment pools spotted in duplicate (53,638 elements) resulting in tiling resolution with complete coverage of the sequenced human genome. Results: Whole genome array CGH was used to generate high resolution segmental copy number profiles of seven NK cell lymphoma cell lines (HANK1, KHYG-1, NK-92, NK-YS, SNK1, SNK6, and KAI3). Alignment of these profiles with the human genome map has resulted in fine-mapping the regional losses of 6q. Numerous novel regions, including gain of 5p15.33, and loss of 4q21.23-q32.1, 9p21.1-p22.3, and 12q24.32-q24.33 were also identified in at least five (>70%) of these cell lines. Conclusions: The generation of the high resolution segmental copy number profiles by array CGH allows the identification of genomic alterations of NK-cell lymphomas as well as the candidate genes involved in the pathogenesis of NK-cell lymphoma. Novel candidate oncogenes and tumor suppressor genes identified in this study will provide further insights into the genetic basis of lymphomagenesis. Acknowledgements: This work was supported by funds from Genome Canada/British Columbia. WCC is supported by the Director’s Challenge grant (U01-CA 84967). We would like to thank Spencer Watson for BAC array production and Magan Trottier for technical assistance.-
dc.languageengen_HK
dc.publisherAmerican Association for Cancer Research-
dc.relation.ispartofCancer Researchen_HK
dc.titleGenome-wide identification of novel regions of DNA copy number alterations in natural killer cell lymphoma by array comparative genomic hybridizationen_HK
dc.typeConference_Paperen_HK
dc.identifier.emailSrivastava, G: gopesh@pathology.hku.hken_HK
dc.identifier.authoritySrivastava, G=rp00365en_HK
dc.identifier.hkuros121213en_HK
dc.identifier.issnl0008-5472-

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