we propose that A91V may represent a molecular alteration that is not, per se, causative of the disease and not sufficient to impair the cytolytic activity. Beside this, A91V seems to play a role in the pathogenesis of the disease conferring a genetic susceptibility in the development of FHLH
We analyzed 14 native osteosarcoma tissue samples for alterations of the tumor suppressor genes RB1 and p53 on the DNA level, and as far as possible, the RNA level. Southern blot analyses concerning both tumor suppressor genes were carried out in all osteosarcomas. In two cases we could demonstrate a deletion within the RB1 gene. DNA analysis of a third osteosarcoma patient revealed a rearrangement of the p53 gene. We had the opportunity of performing corresponding northern analyses in eight native osteosarcoma specimens. The RB1 gene expression was significantly decreased or completely absent in six tumor samples. In two of these tissue probes the expression of both tumor suppressor genes was missing. We determined coexistence of decreased expression of both tumor suppressor genes in one additional case. In summary, 7/14 or 6/8 cases of osteosarcomas (including only those cases which allowed both analyses) showed RB1 gene alteration. In 3/14 or 3/8 osteosarcomas we could determine p53 gene abnormalities. This may indicate that either loss of p53 function is etiologically important only for the development of some osteosarcomas, or a major part of p53 gene mutations are subtle ones and their detection requires more sophisticated techniques, which are currently under development.
In a native osteosarcoma specimen of a patient cured of a bilateral retinoblastoma eight years before we found a homozygous deletion of a 7.5 kb Hind III-fragment within the retinoblastoma gene and a hemizygous deletion of the same fragment in its constitutional cells. In a native osteosarcoma tissue of a lung metastasis of a patient with sporadic osteosarcoma the Rb-gene-analysis did not reveal any deletion within the gene. This might be due to the fact that the used c-DNA-probe did not detect point mutations. Nevertheless, the possibility of additional or alternative transforming events should be kept in mind.
Alterations of the retinoblastoma (RB1) tumor suppressor gene are not only associated with retinoblastoma but also with several other malignancies including osteosarcoma. Besides direct sequence alterations, hypermethylation of a CpG island in the promoter region can cause inactivation of the RB1 gene as it has been shown in retinoblastomas. We examined the methylation status of the RB1 gene in 25 osteosarcoma specimens by using the methylation-sensitive restriction enzymes SacII and SmaI. The restriction fragments were hybridized with clone p123, which is a 1.8-kb genomic subclone that spans the RB1 CpG island including the promoter region and exon 1. Whereas we reconfirmed hypermethylation of the RB1 gene in a sporadic retinoblastoma, no hypermethylation could be detected in the 25 osteosarcoma specimens, suggesting that hypermethylation of the RB1 promoter is not of major importance during osteosarcoma genesis.
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