AN ANALYSIS OF THE DNA DAMAGE INDUCED BY NICKEL COMPOUNDS IN CHINESE HAMSTER OVARY CELLS (CARCINOGENESIS, HETEROCHROMATIN, CYTOTOXICITY, REPLICATION, PROTEIN CROSSLINKING)

The carcinogenic activity of water-insoluble crystalline nickel sulfide requires phagocytosis and lysosome-mediated intracellular dissolution of the particles to yield Ni('2+). This study investigated the extent and nature of the DNA damage in Chinese hamster ovary cells treated with various nickel compounds using the technique of alkaline elution. Crystalline NiS and water-soluble NiCl(,2) induced single strand breaks that were repaired quickly and DNA-protein crosslinks that persisted up to 24 hr after exposure to nickel. The induction of single strand breaks was concentration dependent at both noncytotoxic and lethal amounts of nickel. The induction of DNA-protein crosslinks was concentration dependent but was absent at lethal amounts of nickel. The cytoplasmic and nuclear uptake of nickel was concentration dependent even at the toxic level of nickel. However, the induction of DNA-protein crosslinks by nickel required active cell cycling and occurred predominantly in mid-late S phase of the cell cycle, suggesting that the lethal amounts of nickel inhibited DNA-protein crosslinking by inhibiting active cell cycling. Since the DNA-protein crosslinking induced by nickel was resistant to DNA repair, the nature of this lesion was investigated using various methods of DNA isolation and chromatin fractionation in combination with SDS-polyacrylamide gel electrophoresis. High molecular weight, non-histone chromosomal proteins and possibly histone 1 were preferentially crosslinked to DNA by nickel. The crosslinked proteins were concentrated in a magnesium-insoluble fraction of sonicated chromatin (5% of the total) that was similar to heterochromatin in solubility and protein composition. Alterations in DNA structure and function, brought about by the effect of nickel on protein-DNA interactions, may be related to the carcinogenicity of nickel compounds. ^

MOUSE MAMMARY TUMOR VIRUS EPITOPES EXPRESSED ON TUMOR SPECIFIC TRANSPLANTATION ANTIGENS OF CHEMICALLY INDUCED C3H/HEJ SARCOMAS (TSTA, FIBROSARCOMA, CARCINOGENESIS, MMTV, METHYLCHOLANTHRONE)

This dissertation addressed the hypothesis that the unique tumor specific transplantation antigens (TSTA) of chemically induced sarcomas express epitopes encoded by endogenous viral genes. TSTA from two 3-methylcholanthrene-induced, C3H/HeJ fibrosarcomas (MCA-F and MCA-D) were serologically assessed for viral epitopes in an enzyme-linked immunospecific assay (ELISA) and by immunoaffinity chromatography. Initial evidence with an anti-TSTA antiserum suggested that TSTA were associated with mouse mammary tumor virus (MMTV) peptides, but not peptides from murine leukemia virus (MuLV). TSTA extracted from MCA-F, was assessed with specific anti viral antibodies at three levels of purification for its association with MuLV peptides (gp 70 and p 15E) and MMTV peptides (gp52, gp36 and p27). The results demonstrate that purified preparations enriched for TSTA activity are devoid of MuLV epitopes, but enriched for a subset of MMTV epitopes. Immunoaffinity supports constructed with anti-MMTV antibodies retained TSTA from partially purified MCA-F or MCA-D extracts. Immunoaffinity chromatography with antibodies against individual MMTV peptides demonstrated that the MCA-F TSTA was specifically retained by anti-gp36 and anti-p27 supports, but not by anti-gp52 supports nor a support made with bovine serum albumin. Analysis of the affinity purified TSTA preparations by HPGPC and SDS-PAGE revealed only a few components. Application of the anti-gp36 and anti-p27 retained materials to HPGPC and subsequent in vivo analysis demonstrated that the TSTA migrated in a low and a high molecular weight region. These results suggest that TSTA specificity in C3H/HeJ mice, results from MMTV recombinant proteins. ^