[Evidence of genetic alterations in chromosome 11 in embryonal and alveolar rhabdomyosarcoma]

TY - JOUR

T1 - [Evidence of genetic alterations in chromosome 11 in embryonal and alveolar rhabdomyosarcoma]

AU - Brinkschmidt, C

AU - Poremba, C

AU - Schäfer, K L

AU - Simon, Ronald

AU - Jürgens, H

AU - Böcker, W

AU - Dockhorn-Dworniczak, B

PY - 1998

Y1 - 1998

N2 - Various chromosome 11 alterations have been described in rhabdomyosarcoma (RMS). Allelic losses of 11p15.5 are characteristic of embryonal RMS (eRMS), whereas an increase in the expression of the Igf2 gene located on 11p15.5 has regularly been observed in eRMS and alveolar RMS (aRMS). The aim of our study was to analyse chromosome 11 alterations of RMS by combining different molecular-genetic and cytogenetic methods. 16 RMSs (7 aRMS with proven 2;13 or 1;13 translocations, 9 eRMS) were studied by a PCR-based microsatellite analysis of loci 11p15.5 and 11q23. Comparative genomic hybridization (CGH) was performed in 8/16 cases. The ploidy status of chromosome 11 was evaluated using the FISH technique. A RT-PCR analysis of Igf2 gene region was performed to evaluate the imprinting status. Allelic losses (LOH) of 11p15.5 were observed in 4/7 aRMS and 8/9 eRMS. These losses were accompanied by LOH of 11q23 in 2/7 aRMS and 5/9 eRMS, respectively. CGH of all the eRMSs and one aRMS studied revealed gains of genetic material mostly involving the entire length of chromosome 11. One aRMS showed a loss of chromosome 11 material, both in CGH and LOH analysis. In 2/9 aRMS, which neither in CGH nor in LOH analysis had exhibited chromosome 11 alterations, biallelic IGF-II expression was revealed. Our results show that chromosome 11 alterations play a major role in the biology of both alveolar and eRMS. Combining the data of our study, we demonstrated that three different chromosome 11 alterations are involved in the tumorigenesis of RMS: 1) LOH resulting in hemizygosity of chromosome 11. 2) LOH with simultaneous gains of chromosome 11 material due to uniparental polysomy. 3) loss of imprinting for the Igf2 gene in the absence of gross chromosome 11 alterations.

AB - Various chromosome 11 alterations have been described in rhabdomyosarcoma (RMS). Allelic losses of 11p15.5 are characteristic of embryonal RMS (eRMS), whereas an increase in the expression of the Igf2 gene located on 11p15.5 has regularly been observed in eRMS and alveolar RMS (aRMS). The aim of our study was to analyse chromosome 11 alterations of RMS by combining different molecular-genetic and cytogenetic methods. 16 RMSs (7 aRMS with proven 2;13 or 1;13 translocations, 9 eRMS) were studied by a PCR-based microsatellite analysis of loci 11p15.5 and 11q23. Comparative genomic hybridization (CGH) was performed in 8/16 cases. The ploidy status of chromosome 11 was evaluated using the FISH technique. A RT-PCR analysis of Igf2 gene region was performed to evaluate the imprinting status. Allelic losses (LOH) of 11p15.5 were observed in 4/7 aRMS and 8/9 eRMS. These losses were accompanied by LOH of 11q23 in 2/7 aRMS and 5/9 eRMS, respectively. CGH of all the eRMSs and one aRMS studied revealed gains of genetic material mostly involving the entire length of chromosome 11. One aRMS showed a loss of chromosome 11 material, both in CGH and LOH analysis. In 2/9 aRMS, which neither in CGH nor in LOH analysis had exhibited chromosome 11 alterations, biallelic IGF-II expression was revealed. Our results show that chromosome 11 alterations play a major role in the biology of both alveolar and eRMS. Combining the data of our study, we demonstrated that three different chromosome 11 alterations are involved in the tumorigenesis of RMS: 1) LOH resulting in hemizygosity of chromosome 11. 2) LOH with simultaneous gains of chromosome 11 material due to uniparental polysomy. 3) loss of imprinting for the Igf2 gene in the absence of gross chromosome 11 alterations.

M3 - SCORING: Zeitschriftenaufsatz

VL - 82

SP - 210

EP - 214

ER -