The binding of [3H]chlorambucil to nuclear proteins of the Yoshida ascites sarcoma.

The binding of [3H]chlorambucil to nuclear proteins, extracted from Yoshida ascites sarcoma cells at 6 h and 24 h after administration of 3H-labelled drug to tumour-bearing animals, has been examined. Both covalent and non-covalent binding was detected. Considerably more drug was found associated with the proteins isolated from the tumour sensitive to the effects of the drug compared with similar proteins isolated from the tumour with an acquired resistance to the effects of alkylating agents. The two-fold difference in binding to total cell protein is attributed to a higher intranuclear protein binding in sensitive cells. In particular the soluble nuclear sap fraction from sensitive cells bound at least five times as much drug as the corresponding fraction from resistant cells. Low levels of binding to histones were demonstrated compared with that to the non-histone chromatin proteins. Binding to the nuclear sap and non-histone chromatin proteins was principally to high molecular weight protein species; these did not appear to represent aggregation products as scans of stained polyacrylamide gels of the extracted protein fractions were unaltered by the treatment of tumour-bearing animals with chlorambucil. Binding to the nuclear proteins from sensitive cells tended to persist over a 24-h period, whereas it was considerably reduced in resistant cells.     

Some effects of chlorambucil on nuclear protein phosphorylation in the yoshida ascites sarcoma

The ability of nuclei, isolated from Yoshida ascites sarcoma cells, to phosphorylate nuclear proteins in the presence of [γ-³²P] ATP has been investigated. Comparisons were made between a strain sensitive to the effects of the alkylating agent, chlorambucil, with a corresponding resistant strain both before and after drug-treatment of tumour-bearing animals.There was no gross quantitative differences between the drug-sensitive and -resistant untreated cells but treatment resulted in increased levels in the sensitive strain.Qualitative differences were seen before treatment in the phosphorylation pattern of the tris-saline-soluble nuclear sap fraction. The high molecular weight species in the fraction from sensitive cells showed phosphorylations which were absent, or present at very low levels, in the corresponding fraction from drug-resistant cells.Changes were observed in the tris-saline-soluble and non-histone protein fractions from drug-sensitive cells following treatment of tumour-bearing animals. Only minor alterations in patterns of phosphorylation were seen in fractions from drug-resistant cells.     

Some effects of chlorambucil on enzymes of glutathione metabolism in drug-sensitive and -resistant strains of the Yoshida ascites sarcoma

1. Yoshida ascites cells from a strain sensitive to chemotherapy with alkylating agents contained elevated activities of the two enzymes directly responsible for glutathione synthesis, in comparison with a resistant cell strain. The activities of the glutathione-degrading enzyme γ-glutamyltranspeptidase were comparable in both cell strains. 2. After parenteral administration of chlorambucil to rats carrying either strain of tumour, the activities of the glutathione-synthetic enzymes increased in the sensitive cells, but remained unchanged in the resistant cells. Drug treatment was without effect on the γ-glutamyltranspeptidase activity of either cell strain. 3. The activities of a number of enzymes concerned in the oxidoreduction of glutathione remained unchanged after the administration of chlorambucil to rats carrying either strain of cells.     

Enhanced activity of tRNA-pseudouridine synthetase in Yoshida ascites sarcoma.

Five days after transplantation of Yoshida ascites sarcoma cells into a rat, specific activity of tRNA-pseudouridine synthetase was extremely high in the supernatant of tumor cells and moderately high in the tumor-bearing rat liver compared with normal rat liver. Enzyme assay was performed at 37°C by determining the release of tritium from heterogeneous [³H] tRNA extracted from $\text{E. coli}$ B grown in the presence of [5,6-³H]-uracil and resulting in the increased ratio of the amount of pseudouridine to uridine residues in [³H] tRNA. Neither [5-³H]-uridine, [5,6-³H]-UTP, nor [5,6-³H]-poly U released tritium in the present assay conditions.     

RNA synthesis by isolated Yoshida ascites hepatoma A.H. 130 cells mitochondria.

Mitochondria isolated from Yoshida ascites hepatoma A.H. 130 cells are able to incorporate 3H-UTP into RNA. The reaction has been extensively characterized and appear to be supported by a typical DNA-dependent RNA polymerase, and no special differences with the system of normal rat liver mitochondria have been found.     

Antigenic properties of heterogeneous nuclear ribonucleoprotein particles weakly binding nonhistone proteins and proteins binding single-stranded DNA (SSB proteins) from Ehrlich ascites tumor]

Antigenic properties of the proteins of heterogeneous nuclear ribonucleoprotein particles, (hnRNP), weakly bound nonhistone chromatin proteins (WB(N)P) and single-strand DNA-binding proteins (SSB proteins) from chromatin and extrachromatin fraction of the Ehrlich ascites tumor cells have been comparatively studied. The chromatin and extrachromatin SSB proteins displayed similar mobility in the tube and slab SDS/PAGE, had the same ssDNA-binding capacity and similarly stimulated the replicative synthesis in permeable cells. However, the chromatin SSB proteins contained 1.4 times higher phosphate amount than the extrachromatin ones (3.1 and 2. 2. moles phosphorus per 1 mole protein, respectively). The study of four protein groups with the use of a rabbit antiserum to/against extrachromatin SSB proteins (titer 1:13000 by enzyme immunoassay) showed that the chromatin and the extrachromatin SSB proteins have similar antigenic properties. One fraction of the hnRNP proteins was also reactive with the antiserum, whereas the WB(N)P displayed no cross-reactivity. The specificity of the ferm "SSB proteins" as applied to eukaryotic cells, their affinity with hnRNP proteins and differences from the HMG proteins are discussed.     

IMP dehydrogenase. II. Purification and properties of the enzyme from Yoshida sarcoma ascites tumor cells

The preceding paper showed that IMP dehydrogenase [IMP:NAD+ oxidoreductase, EC 1.2.1.14] tended to form a precipitable complex(es) through ionic and hydrophobic interactions. On the basis of these observations, a method was developed for purification of IMP dehydrogenase from Yoshida sarcoma ascites cells. On SDS-polyacrylamide gel electrophoresis, the purified preparation (1.19 U/mg protein) appeared homogeneous and its minimum molecular weight was estimated to be 68K daltons. Amino acid analyses indicated a subunit molecular weight of 68,042. Molecular sieve chromatography in the presence of 10% (NH4)2SO4 showed that the molecular weight of the native enzyme was 127K daltons. These values indicate that the native enzyme is composed of two identical subunits. However, the purified enzyme gave 4 protein bands on polyacrylamide gel electrophoresis under non-denaturing conditions, and appeared as a single fraction in the vicinity of the void volume on Ultrogel AcA 34 column chromatography at low salt concentration, indicating that its molecular weight exceeded 200K daltons. These findings indicate that the enzyme tends to aggregate owing to its own physicochemical characteristics. The Km values for IMP and NAD were calculated to be 12 and 25 microM, respectively, and the Ki values for XMP, GMP, and AMP to be 109, 130, and 854 microM, respectively. The purified enzyme showed full activity in the presence of K+, and K+ could be partially replaced by Na+. PCMB inactivated the enzyme, but the activity was completely restored by the addition of DTT. Cl-IMP also inactivated the enzyme and IMP prevented this inactivation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evidence for the presence of chromatin-bound deoxyribonucleic acid phosphatase-exonuclease in Yoshida sarcoma ascites cells

An enzyme which cleaves the phosphoester bond of 3′-phosphoryl termini of DNA was isolated and purified from the chromatin of Yoshida sarcoma cells. The DNA phosphatase is specific for only 3′-phosphorylated DNA with a lesser activity for its single stranded form. Phosphoester bonds of various nucleotides, 3′-phosphorylated RNA and 5′-phosphorylated DNA were not hydrolysed by the enzyme. The DNA phosphatase required 10 mM MgCl₂, and was inactivated by 70 % with 1 mM ?-chloromercuribenzoate and completely by heat treatment at 70° for 5 min. Furthermore, an exonuclease activity could not be separated from the purified DNA phosphatase.     

Characterization of hyaluronate binding proteins isolated from 3T3 and murine sarcoma virus transformed 3T3 cells

A hyaluronic acid binding fraction was purified from the supernatant media of both 3T3 and murine sarcoma virus (MSV) transformed 3T3 cultures by hyaluronate and immunoaffinity chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis resolved the hyaluronate affinity-purified fraction into three major protein bands of estimated molecular weight (Mr,e) 70K, 66K, and 56K which contained hyaluronate binding activity and which were termed hyaluronate binding proteins (HABP). Hyaluronate affinity chromatography combined with immunoaffinity chromatography, using antibody directed against the larger HABP, allowed a 20-fold purification of HABP. Fractions isolated from 3T3 supernatant medium also contained additional binding molecules in the molecular weight range of 20K. This material was present in vanishingly small amounts and was not detected with a silver stain or with [35S]methionine label. The three protein species isolated by hyaluronate affinity chromatography (Mr,e 70K, 66K, and 56K) were related to one another since they shared antigenic determinants and exhibited similar pI values. In isocratic conditions, HABP occurred as aggregates of up to 580 kilodaltons. Their glycoprotein nature was indicated by their incorporation of 3H-sugars. Enzyme-linked immunoadsorbent assay showed they were antigenically distinct from other hyaluronate binding proteins such as fibronectin, cartilage link protein, and the hyaluronate binding region of chondroitin sulfate proteoglycan. The apparent dissociation constant of HABP for hyaluronate was approximately 10(-8) M, and kinetic analyses showed these binding interactions were complex and of a positive cooperative nature.(ABSTRACT TRUNCATED AT 250 WORDS)