Crude preparations of interferon (IFN)-gamma derived from human peripheral blood leukocyte (PBL) cultures induced with 12-O-tetra-decanoylphorbol-13-acetate (TPA) and phytohemagglutinin (PHA) were more cytotoxic to HeLa cells than partially purified nautral or highly purified recombinant human IFN-gamma preparations. Conditioned media from PBL cultures contained, in addition to IFN-gamma, a mixture of cytotoxins, including classic lymphocyte-derived lymphotoxin (LT), and a TPA-induced cytotoxic activity produced by the adherent cell population (presumably monocytes). These two types of cytotoxins, indistinguishable in the mouse L929 cell LT assay, could be differentiated by an antiserum prepared against LT derived from the B lymphoblastoid cell line RPMI 1788. This antiserum neutralized lymphocyte-derived classic LT but failed to neutralize the activity of the monocyte-derived cytotoxin. Processing of conditioned media by sequential chromatography on silicic acid, Con A-Sepharose, and DEAE-Sephacel failed to separate IFN-gamma from the LT activity. However, this procedure did remove the monocyte-derived cytotoxic activity present in the original starting material, leaving predominantly classic LT. This LT showed a slightly basic isoelectric point (pI 7.6) which partially overlapped the more basic pI range of IFN-gamma. The two lymphokine activities also could not be completely separated by fast protein liquid chromatography or molecular sieve chromatography. LT in these partially purified preparations was associated with a protein having an apparent molecular weight of 58,000 on gel filtration. This form dissociated partially into a 20,000 mol wt species after denaturation with 0.1% NaDodSO4. IFN-gamma could be selectively removed from preparations containing both IFN-gamma and LT with the aid of monoclonal antibody to IFN-gamma. The addition of purified LT to purified E. coli-derived recombinant human IFN-gamma resulted in a marked synergistic enhancement of cytotoxicity for HeLa cells.
Cultures of human peripheral blood leukocytes (PBL) induced with phytohemagglutinin (PHA) and the phorbol ester 12-0-tetradecanoylphorbol 13-acetate (TPA) produced two types of cytotoxic proteins, indistinguishable in the in vitro assay employing murine L 929 cells as targets. One of these proteins had the antigenic and physicochemical properties of lymphotoxin (LT). We have identified the other cytotoxin as tumor necrosis factor (TNF), mainly on the basis of antigenic cross-reactivity demonstrated with antiserum to TNF, and also by its characteristic physicochemical properties and cell source. Unlike LT, PBL-derived TNF did not bind to Concanavalin A-Sepharose or to several other agglutinin-Sepharose columns specific for carbohydrate moieties common in glycoproteins. The molecular weight of native TNF determined by gel filtration was approximately 40,000 while SDS-PAGE revealed a single sharp peak of 16,500 +/- 500. When cultures of monocytes and lymphocytes separated by elutriation were stimulated with PHA and/or TPA, monocytes were the major source of TNF. In contrast, only lymphocytes produced LT. A mixture of antisera to TNF and LF neutralized all cytotoxicity of crude human lymphokine preparations for L 929 cells, suggesting that TNF and LT are either the only, or the major, cytotoxic proteins present in such crude lymphokine preparations demonstrable in this assay.
In order to determine the mutagenic specificity of mutagenic and carcinogenic agents in mammalian cells, a reversion system capable of distinguishing between frameshift mutations and various kinds of base pair substitutions would be useful. We report here a method for the isolation and characterization of HGPRT- Chinese hamster V79 cell mutants that might form the basis for such a system. Two mutants of different specificity have been partially characterized. DEW-1, isolated following N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) treatment, is revertible by the base pair substitution mutagens MNNG and ethyl methanesulfonate (EMS), but not by frameshift mutagens. DSW-3, isolated following ICR-191 treatment, is specifically reverted by frameshift mutagens, but not by EMS or MNNG. With the further characterization of these and other mutants, it should be feasible to determine not only whether an agent is mutagenic in V79 cells, but also to determine the type(s) of mutation(s) it produces.
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