The expression of 7 protooncogenes (c-sis, c-abl, c-mos, c-bas, c-Ki-ras, c-fos, c-myc) was examined in transplants and established cell lines from spontaneous and radiation-induced murine osteosarcomas. The transplant tumors were compared with different tissues, particularly skeletal tissue (sternum), and the osteosarcoma cell lines with fibroblast lines from the same mouse strains. C-sis was expressed above the level of controls in 2 osteosarcomas (TV, Os5). Three osteosarcomas showed over-expression of c-abl (TVK, DOS, Os5), c-bas (DOS, Os5 and V893) and c-fos (TVK, DOS, Os5), and 4 osteosarcomas showed over-expression of c-Ki-ras (TVK, DOS, Os5, Os16) and c-myc (TVK, DOS, TV, Os5). C-mos expression was not observed under the conditions used. One cell line (Os5) showed an altered transcript (1 kb transcript of c-fos). Apart from the relatively frequent increase in expression of the c-myc and c-ras-family, there was no indication that any particular protooncogene or combination of protooncogenes was associated with murine osteosarcomas.
The proviral genome of a leukemogenic and thymotropic C57BL/Ka mouse retrovirus, RadLV/VL3(T+ L+), was cloned as a biologically active PstI insert in the bacterial plasmid pBR322. Its restriction map was compared with those, already known, of two nonthymotropic and nonleukemogenic viruses of the same mouse strain: the ecotropic BL/Ka(B) virus and the xenotropic constituent of the radiation leukemia virus complex. Differences were observed around the gag-pol gene junction, in the pol gene, and in the env gene. Moreover, the nucleotide sequence of the RadLVNVL3(T+ L+) long terminal repeat revealed the existence of two copies of a 43-base-pair sequence, of which BL/Ka(B) possesses only one copy.
In mice, external X- or gamma-irradiation may induce thymic lymphomas or myeloid leukaemias, while bone-seeking alpha-emitters may induce osteosarcomas and, to a lesser extent, acute myeloid leukaemia. The present paper aims to review briefly some of the experimental data with respect to the molecular mechanisms underlying these radiation-induced carcinogenic processes. Thymic lymphomagenesis proceeds through an indirect mechanism. Recombinant proviruses often occur in the tumour cell DNA, favouring the idea that they might be involved. However, there are indications that they might mediate tumour growth rather than induction. It is plausible that activation of ras oncogenes by somatic point mutations might play a role in the carcinogenic process, although at a yet undetermined stage. Myeloid leukaemogenesis is characterized by a very early, putative initiating event, consisting of non-random rearrangements and/or deletions of chromosome 2. These may be related to deletions in the developmentally important homeobox gene clusters and to rearrangements of the sequences flanking the IL-1 beta gene. Either a gene of the homeobox family or IL-1 beta might be considered as potentially involved in the induction process. Osteosarcomagenesis in mice is often associated with the expression of proviruses, and the tumours often contain somatically acquired proviruses. These viruses may contribute to tumour development by affecting various growth-suppressor genes. Viruses isolated from bone tumours, although non-sarcomagenic, induce osteopetrosis, osteomas and lymphomas upon infection of newborn mice. Osteogenic tumours frequently display amplification of a region on mouse chromosome 15, which encompasses c-myc and Mlvi-1 sequences. Enhanced transcription of various oncogenes is found in individual tumours, but no specificity for osteosarcomas has been identified. In vitro systems of skeletoblast differentiation are being developed to study tumour induction in vitro.
Sheared chromatin may be separated into two peaks representing active and inactive fractions by gel exclusion chromatography on agarose columns. The active fraction is identified by the presence of nascent RNA chains synthesized in vivo or in vitro. Similarly, 3H labelled E. coli polymerase binds preferentially to the front active peak. Labelled hormones become associated with the chromatin of target tissues. Again this association occurs predominantly with the minor chromatin fraction identified as active by the above criteria. The basis for fractionation and the implications for our understanding of chromatin structure are discussed.
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