Interphase fluorescence in situ hybridization for detection of 8q24/MYC breakpoints on routine histologic sections: validation in Burkitt lymphomas from three geographic regions

Autor:	Eva van den Berg, Shama L. van Zelderen-Bhola, Eugenia Haralambieva, Jeroen E. J. Guikema, Clemens Mellink, Henry Wabinga, King H. Lam, Ed Schuuring, Inge M. Appel, Luiz Fernando Bleggi-Torres, Stefano Rosati, Patty M. Jansen, Philip M. Kluin, Carel J. M. van Noesel
Přispěvatelé:	Cancer Center Amsterdam, Pathology, Other departments, Human Genetics, Human genetics, Pediatrics
Jazyk:	angličtina
Rok vydání:	2004
Předmět:	Adult Cancer Research Lymphoma B-Cell Adolescent Chromosomal translocation Locus (genetics) Biology law.invention DNA Glycosylases law Cell Line Tumor hemic and lymphatic diseases Genetics medicine Humans Child Gene Interphase Polymerase chain reaction In Situ Hybridization Fluorescence Contig medicine.diagnostic_test Breakpoint Chromosome Breakage DNA Neoplasm Middle Aged medicine.disease Molecular biology Burkitt Lymphoma Lymphoma Child Preschool DNA Probes Fluorescence in situ hybridization Chromosomes Human Pair 8
Zdroj:	Genes, chromosomes & cancer, 40(1), 10-18. Wiley-Liss Inc. Haralambieva, E, Schuuring, E, Rosati, S, Van Noesel, C, Jansen, P, Appel, I, Guikema, J, Wabinga, H, Bleggi-Torres, L F, Lam, K, Van Den Berg, E, Mellink, C, Van Zelderen-Bhola, S & Kluin, P 2004, ' Interphase Fluorescence In Situ Hybridization for Detection of 8q24/MYC Breakpoints on Routine Histologic Sections : Validation in Burkitt Lymphomas from Three Geographic Regions ', Genes Chromosomes and Cancer, vol. 40, no. 1, pp. 10-18 . https://doi.org/10.1002/gcc.20009 Genes Chromosomes and Cancer, 40(1), 10-18 Genes Chromosomes & Cancer, 40, 10-18. Wiley-Liss Inc.
ISSN:	1045-2257
DOI:	10.1002/gcc.20009
Popis:	A chromosomal translocation involving the MYC gene is characteristic of Burkitt lymphoma (BL) and represents a molecular disease marker with diagnostic and clinical implications. The detection of MYC breakpoints is hampered by technical problems, including the distribution of the breakpoints over a very large genomic region of approximately 1,000 kb. In this article, we report on the testing and validation of a segregation fluorescence in situ hybridization (FISH) assay for MYC breakpoints on a large series of BLs. A contig of overlapping genomic clones was generated, and two probe sets flanking the MYC gene were selected. Both probe sets were tested in an interphase FISH segregation assay on 8 B-cell lymphoma cell lines and 32 lymphoma samples with proved 8q24/MYC abnormalities and validated in 47 BLs from The Netherlands, Brazil, and Uganda. MYC translocation breakpoints were identified in 98% of the tumors of the test series and in 89% of the cases of the validation series. In 89% of all positive samples, the breakpoints were located between 190 kb 5′ and 50 kb 3′ of MYC. Nine cases had more distant breakpoints, and in one patient an insertion of MYC into the IGH region was detected. In two of the three BLs lacking CD10 expression, no breakpoint could be detected, suggesting that CD10 is a discriminative marker of BL. We did not find consistent differences between BL and atypical BL in incidence of an MYC breakpoint. © 2004 Wiley-Liss, Inc.
Databáze:	OpenAIRE
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