TY - JOUR
T1 - Two novel tumor suppressor gene loci on chromosome 6q and 15q in human osteosarcoma identified through comparative study of allelic imbalances in mouse and man
AU - Nathrath, Michaela H.
AU - Kuosaite, Virginija
AU - Rosemann, Michael
AU - Kremer, Marcus
AU - Poremba, Christopher
AU - Wakana, Shigeharu
AU - Yanagi, Masayuki
AU - Nathrath, Walter B.J.
AU - Höfler, Heinz
AU - Imai, Kenji
AU - Atkinson, Michael J.
N1 - Funding Information:
We thank Utz Linzner for oligonucleotide preparation and Wibke Wistrich for excellent technical assistance. Parts of this project were funded by grant F14P-CT95-0008 from the Radiation protection program of the European Union (M Rosemann) and from the Land Bayern (M Nathrath: HSP III) and the clinical research fund ‘KKF’ of the Technical University Munich (M Nathrath).
PY - 2002
Y1 - 2002
N2 - We have performed a comparative study of allelic imbalances in human and murine osteosarcomas to identify genetic changes critical for osteosarcomagenesis. Two adjacent hut discrete loci on mouse chromosome 9 were found to show high levels of allelic imbalance in radiation-induced osteosarcomas arising in (BALB/c x CBA/CA) F1 hybrid mice. The syntenic human chromosomal regions were investigated in 42 sporadic human osteosarcomas. For the distal locus (OSS1) on mouse chromosome 9 the syntenic human locus was identified on chromosome 6q14 and showed allelic imbalance in 77% of the cases. Comparison between the human and mouse syntenic regions narrowed the locus down to a 4 Mhp fragment flanked by the marker genes ME1 and SCL35A1. For the proximal locus (OSS2) on mouse chromosome 9, a candidate human locus was mapped to chromosome 15q21 in a region showing allelic imbalance in 58% of human osteosarcomas. We have used a combination of synteny and microsatellite mapping to identify two potential osteosarcoma suppressor gene loci. This strategy represents a powerful tool for the identification of new genes important for the formation of human tumors.
AB - We have performed a comparative study of allelic imbalances in human and murine osteosarcomas to identify genetic changes critical for osteosarcomagenesis. Two adjacent hut discrete loci on mouse chromosome 9 were found to show high levels of allelic imbalance in radiation-induced osteosarcomas arising in (BALB/c x CBA/CA) F1 hybrid mice. The syntenic human chromosomal regions were investigated in 42 sporadic human osteosarcomas. For the distal locus (OSS1) on mouse chromosome 9 the syntenic human locus was identified on chromosome 6q14 and showed allelic imbalance in 77% of the cases. Comparison between the human and mouse syntenic regions narrowed the locus down to a 4 Mhp fragment flanked by the marker genes ME1 and SCL35A1. For the proximal locus (OSS2) on mouse chromosome 9, a candidate human locus was mapped to chromosome 15q21 in a region showing allelic imbalance in 58% of human osteosarcomas. We have used a combination of synteny and microsatellite mapping to identify two potential osteosarcoma suppressor gene loci. This strategy represents a powerful tool for the identification of new genes important for the formation of human tumors.
KW - Allelic imbalance
KW - Inbred mouse strains
KW - LOH
KW - Osteosarcoma
KW - Synteny relationship
UR - http://www.scopus.com/inward/record.url?scp=0037194606&partnerID=8YFLogxK
U2 - 10.1038/sj.onc.1205764
DO - 10.1038/sj.onc.1205764
M3 - Article
C2 - 12185601
AN - SCOPUS:0037194606
SN - 0950-9232
VL - 21
SP - 5975
EP - 5980
JO - Oncogene
JF - Oncogene
IS - 38
ER -