BACKGROUND: A rare subset of human immunodeficiency virus (HIV) lymphomas, known as primary effusion lymphomas (PELs), are high-grade tumors carrying human herpes virus 8. Mechanisms postulated to contribute to lymphomagenesis include impaired immune surveillance, alterations in hemopoietic regulatory pathways due to expressed viral genes, and acquisition of genomic alterations in regions of the genome that contain regulatory genes. In PEL, limited information exists about the nature of genome-wide aberrations in these rare lymphomas. METHODS: We used comparative genomic hybridization to detect regions of sequence gain and loss throughout the genome of 8 PEL cases. Regions of DNA sequence loss or gain were confirmed using forward and reverse hybridization and t-statistic analyses. RESULTS: Genomic aberrations were identified in 6 of 8 cases, including recurrent gain of sequence in chromosomes 12 [ish enh (12q22;12q23, 12q12;12q23)] in 3 of 8 cases and X [ish enh (X, Xp)] in 2 of 8 cases. CONCLUSIONS: DNA copy number changes occurred in a majority of PEL cases and are consistent with changes observed in other HIV lymphomas. These observations suggest that common genetic events may occur in HIV-associated lymphoid malignancies, but they probably do not contribute to the unique markers and morphology of PEL. Although individual genetic loci have been evaluated previously in a few PEL cases, to our knowledge this study represents the first reported genome-wide scan of copy number changes in these rare HIV-associated tumors.
BACKGROUND: A rare subset of human immunodeficiency virus (HIV) lymphomas, known as primary effusion lymphomas (PELs), are high-grade tumors carrying human herpes virus 8. Mechanisms postulated to contribute to lymphomagenesis include impaired immune surveillance, alterations in hemopoietic regulatory pathways due to expressed viral genes, and acquisition of genomic alterations in regions of the genome that contain regulatory genes. In PEL, limited information exists about the nature of genome-wide aberrations in these rare lymphomas. METHODS: We used comparative genomic hybridization to detect regions of sequence gain and loss throughout the genome of 8 PEL cases. Regions of DNA sequence loss or gain were confirmed using forward and reverse hybridization and t-statistic analyses. RESULTS: Genomic aberrations were identified in 6 of 8 cases, including recurrent gain of sequence in chromosomes 12 [ish enh (12q22;12q23, 12q12;12q23)] in 3 of 8 cases and X [ish enh (X, Xp)] in 2 of 8 cases. CONCLUSIONS: DNA copy number changes occurred in a majority of PEL cases and are consistent with changes observed in other HIV lymphomas. These observations suggest that common genetic events may occur in HIV-associated lymphoid malignancies, but they probably do not contribute to the unique markers and morphology of PEL. Although individual genetic loci have been evaluated previously in a few PEL cases, to our knowledge this study represents the first reported genome-wide scan of copy number changes in these rare HIV-associated tumors.
Authors: Dongmei Yang; Wuguo Chen; Jie Xiong; Carly J Sherrod; David H Henry; Dirk P Dittmer Journal: Proc Natl Acad Sci U S A Date: 2014-10-23 Impact factor: 11.205