Nonmutagenicity of tetrabromophthalic anhydride and tetrabromophthalic acid in the ames Salmonella/microsome mutagenicity test.

The in vitro assay system used to study the reversion of L5178Y-Ala32 cells from an alanine requiring state to a non-requiring state has been modified in order to be of use in selected in vivo systems. Gamma-ray induced mutations were compared between cells cultured in vitro and those grown in vivo in the intraperitoneal cavity of mice. The expression time was chosen to be 2 days for cells grown in vitro and 5 days for those grown in vivo. The dose response curve can be described as cumulative for cells grown in vitro and linear for those grown in vivo. A dose-rate effect was observed in both systems. The cells grown in vivo were less sensitive to γ-ray with respect to both mutation rate per rad and cell killing as compared to cells grown in vitro. The delayed expression and reduced sensitivity of cells in vivo with respect to induced mutation may be due to factors such as hypoxia and/or reduced availability of essential nutrients. Sensitization in vitro by BUdR was detectable at a concentration as low as 10^?6 M, using an exposure time of 15 h. Under these conditions, BUdR alone did not induce any observable mutations.     

UV-induced mutagenesis at the hypoxanthine—guanine phosphoribosyl transferase locus in two L5178Y mouse lymphoma cell strains with different UV sensitivities

Two strains of L5178Y mouse lymphoma cells, L5178Y-R (LY-R) and L5178Y-S (LY-S), differ markedly in their sensitivity to 254 nm UV radiation (D₀ = 0.7 and 5.5 J/m²; n = 6.0 and 2.0 for LY-R and LY-S cells, respctively). In this study, the frequency o hypoxanthine-guanine-phosporibosyl-transferase-deficient mutants was determined, using 6-thioguanine (TG) as a selective agent, in populations of LY-R and LY-S cells exposed to various fluences of UV radiation. The spontaneous mutation frequency for LY-R cells was (3.7 ± 0.6) × 10^?5 TG^r mutants per viable cell, and the UV induction rate was (2.2 ± 0.8) × 10^?4 TG^r mutants per viable cell, per J/m². Both spontaneous and induced mutantion frequencies were much lower for LY-S cells. The sopntaneous mutation frequency for these cells were too low to make its measurement practicable ( < 0.0013 × 10^?5 TG^r mutants per viable cell). Mutation induction rate was (4.2 ± 2.2) × 10^?7 TG^r mutants per viable cell, per J/m². These differences in mutability do not appear to be due to gene duplication in LY-S cells, or to selective growth disadvantage of LY-S-derived TG-resistant mutants. Possible mechanisms underlying the differences in mutability of LY-R and LY-S cells are considered.     

Different contributions of the indirect effects of γ-rays on the cytotoxicity in M10 and XRCC4 transfected M10 cells

The protective effects of dimethyl sulfoxide (DMSO) against cell killing by ¹³⁷Cs γ-rays were investigated in XRCC4-deficient cell line M10, XRCC4-complemented M10 and the parental mouse leukemia cell line L5178Y. Cell survival was determined by the colony-forming ability. M10 cells were more sensitive to γ-ray-induced cell death than L5178Y and complemented M10 cells. Cell survival was increased in both M10 and L5178Y in the presence of DMSO. However, estimation of the DMSO-protectable fraction revealed a smaller protectable fraction for M10 cells than for L5178Y cells, indicating that indirect effects contributed in a smaller extent to the cytotoxicity in M10 than that in L5178Y. This effect is due to XRCC4 deficiency, since transfection of XRCC4 cDNA into M10 cells restored the radioprotective effects of DMSO to the level seen in L5178Y. In M10 cells, the killing effects of high LET radiation (Auger electrons from ¹²⁵I-antipyrine, carbon ions with an LET of 166 keV μm⁻¹) were similar to those of low LET radiation (¹³⁷Cs γ-rays, characteristic X-rays from ¹²⁵I-bovine serum albumin). We discuss that lethal lesions produced by indirect actions in L5178Y and XRCC4-complemented M10 cells may differ, at least in part, from DNA double-strand breaks repairable by non-homologous end joining.     

Electrokinetic properties of asparaginase sensitive or resistant mouse leukemic cells treated with L-asparaginase

The electrophoretic mobility of L5178Y cells in 0.0145 M NaCl, 4.5% sorbitol, 0.6 mM NaHCO₃, pH 7.2, at 25°C was — 1.78 μ·s^?1·V^?1·cm^?1 while that of an L-asparaginase resistant subline, L5178Y/ASN, was — 1.11 μm·s^?1·V^?1·cm^?1. Both cell lines were characterized by terminal sialic acid residues on their surfaces. Treatment of L5178Y cells for 90 min with 10 units of L-asparaginase per ml in saline decreased the electrophoretic mobility of the cells to — 1.65 μm·s^?1·V^?1·cm^?1 while treatment in Fischer's medium decreased the mobility to — 1.25 μm·s^?1·V^?1·cm^?1; neither treatment had a significant effect on the L5178Y/ASN electrophoretic mobility. The results suggest that L-asparaginase has an immediate and specific effect on synthesis of cell surface asparaginyl glycoproteins.     

Synergistic cytolytic activity by combined populations of peritoneal T lymphocytes and macrophages during the L5178Y cell tumor-dormant state in DBA/2 mice

It was previously reported that the establishment of the L5178Y cell tumor-dormant state in DBA/2 mice is mediated principally by a peritoneal cytolytic T-cell response that reaches peak levels 4 days after L5178Y cell challenge, lyses more than 99% but less than 100% of peritoneal L5178Y cells, and gradually wanes to background levels by 40–70 days postchallenge (DPC). At this time the majority of mice are clinically normal, and contain a relatively small number of L5178Y cells in the peritoneal cavity. During the tumor-dormant state, mice that harbor more than 10⁴ L5178Y cells contain peritoneal macrophage-mediated cytolytic activity. We report here that tumor-dormant mice that contain fewer than 10⁴ peritoneal L5178Y cells also produce cytolytic activity in vitro, but that it is synergistic, in that the cytolytic activity of adherent (AD) peritoneal cells (PEC) and nonadherent (NAD) PEC cultured together is greater than the additive lysis produced by these cell populations when cultured separately. This synergistic cytolytic activity is: (1) effector cell density dependent, (2) dependent on the tumor-dormant status of the NAD and AD PEC donor mice, (3) protracted in its kinetics during a 48-hr in vitro assay, and (4) dependent on an interaction between NAD T cells and AD phagocytic macrophages. The consistent detection of this in vitro-assayed cytolytic activity in PEC of tumor-dormant mice which harbor small endogenous tumor burdens suggests that it reflects an in vivo cytotoxic effector mechanism involved in the long-term maintenance of the tumor-dormant state.     

Effects of biogenic amines on fat cells of Glossina morsitans in vitro

Lipid synthesis from leucine by fat cells of Glossina morsitans in vitro was inhibited by dopamine, adrenaline, noradrenaline and octopamine. Noradrenaline and octopamine were most active with maximal response occurring at 10^?4 and 10^?5 M respectively. The release of free fatty acids and the synthesis of proline from alanine by fat cells were stimulated by octopamine but not by the other amines. Maximal release of material from fat cells occurred at an octopamine concentration of 10^?2 M but at higher concentrations the response was diminished.The inhibition of lipid synthesis by octopamine was blocked by the α-adrenergic antagonist phentolamine but not by the β-adrenergic antagonist propranolol. Neither receptor-blocking-agent affected the action of corpora cardiaca extracts upon fat cells indicating that separate receptors are present for amines and the peptide hormones.     

Gluconeogenesis in rat liver parenchymal cells in primary culture: Permissive effect of the glucocorticoids on glucagon stimulation of gluconeogenesis

Primary cultures of parenchymal cells isolated from adult rat liver by a collagenase perfusion procedure and maintained as a monolayer in a serum-free culture medium were used to study glucoeogenesis and the role that the glucocorticoids play in the control of this pathway. These cells carried out gluconeogenesis from three-carbon precursors (alanine and lactate) in response to glucagon and dexamethasone added alone or in combination. Maximum glucose production was observed with cells pretreated for several hours with dexamethasone and glucagon prior to addition of substrate and glucagon (8- to 12-fold increase over basal glucose production). Half-maximum stimulation of gluconeogenesis was seen with 3.6 × 10^?10 M glucagon and 3.6 × 10^?8 M dexamethasone. Maximum stimulation was oberved with 10^?7 M glucagon and 10^?6 M dexamethasone. The length of time of dexamethasone pretreatment was found to be important in demonstrating the effect of glucocorticoids on glucagon-stimulated gluconeogenesis. Treeatment of cells with dexamethasone for 2 hours did not result in an increase in glucose production over identical experimental conditions in the absence of dexamethasone, wherease pretreatment for 5 hours (1.2-fold increase) or 15 hours (1.7-fold increase) did result in an increase in glucose production. The results establish that the adult rat liver parenchymal cells in primary culture are a valid model system to study hepatic gluconeogenesis. In addition, we have established directly that the glucocorticoids amplify the glucagon stimulation of gluconeogenesis.     

6-(2, 3, 4-Trihydroxy-3-methylbutylamino)purine,a cytokinin with high biological activity

6-(2, 3, 4-Trihydroxy-3-methylbutylamino)purine, isolated from the oxidation of cis- zeatin with potassium permanganate, has been identified by ¹H NMR and high resolution mass spectrometry. Its activity as a cell division factor, when examined by the soybean callus assay in the concentration range 10^?11–10^?5 M, equalled that of the parent compound.     

Induction of sister chromatid exchanges in Chinese hamster cells by carcinogenic mutagens requiring metabolic activation

The induction of SCEs has proven to be the most sensitive mammalian system for detecting the effects of mutagenic carcinogens. Several chemicals that are mutagenic in the exquisitely sensitive Salmonella mutagenesis test have now been tested in Chinese hamster ovary (CHO) cells in culture. Cells were grown for 24 h (two rounds of DNA replication) in the presence of bromodeoxyuridine (Brd Urd) to form harlequin chromosomes in which it is possible to see the SCEs. To test whether the chemicals increase SCEs without metabolic activation, they were added at various concentrations for the entire culture period. To test if they induce SCEs after activation they were added for 30 min along with microsomes from rat liver (S-9 Mix of Ames). After this treatment the cells were cultured with Brd Urd. N-hydrosy-2-acetylamino-fluorene (10^?6?10^?4 M), N-acetoxy-2-acetylaminofluorenee (10)^?9?10^?7 M), and aflatoxin B₁ (10^?6?10^?4 M) all increased the yield of SCEs with increasing concentration. Further, aflatoxin B₁ was dramatically activated by the addition of rat liver microsomes. Benzo(a)pyrene (10^?6?10^?4 M), however, gave an increase only when activated. 2-aminofluorene (10^?6?10^?4 M) gave a slight increase only after long treatments without activation. In no case did 2-acetylamino-fluorene (10^?6?10^?4 M) increase SCE's. It thus appears that some of the chemicals that are positive in the Salmonella system are negative in the mammalian SCE system. Whether this reflects a difference in sensitivity between the two tests or the ability of the SCE test to discriminate between those chemicals that are active in bacteria, but not in mammals, is as yet unknown.     

Studies on glucocorticoid-induced cytolysis in cultured mouse lymphoma cells, L5178Y : I. Glucocorticoid specificity and cytoplasmic receptors in sensitive and resistant cells

1. 1. The cytolytic action of glucocorticoids such as dexamethasone was studied in a murine cultured lymphoma L5178Y cell.

2. 2. Dexamethasone-resistant cells, which could grow even in a culture medium containing 2 × 10⁻⁵ M dexamethasone, were selected from hormone-sensitive L5178Y lymphoma cells by stepwise increasing concentrations of dexamethasone in culture medium.

3. 3. The synthetic activities of macromolecules corresponded closely with the viabilities and with the resistibilities at various concentrations of dexamethasone in both cells.

4. 4. Studies of binding of dexamethasone to lymphoma L5178Y cells in vivo demonstrated that (1) equilibrium of binding at 37 °C was established within 5 min in both cells; (2) the specific binding to either whole cell or the subcellular fractions was, in sensitive cells, about double that in resistant cells.

5. 5. The cytoplasm of L5178Y lymphoma cells contains specific binding sites for dexamethasone and its binding sites (5.7 × 10⁻¹⁰ mmol/mg protein) were about 2.5-fold more than that of dexamethasone-resistant cells (2.3 × 10⁻¹⁰ mmol/mg protein).

6. 6. Studies on the dissociation constant, competition of various steroids for the specific binding with dexamethasone, and the sedimentation constant of steroid-receptor complex, suggested that the nature of cytoplasmic binding in resistant cells might be the same as that in sensitive cells.

7. 7. The nuclear binding of dexamethasone was extremely dependent on the affinity of cytoplasm to steroid. Studies suggested an equal level of nuclear association sites for cytoplasmic steroidreceptor complex in the two cell types.

     

Purine salvage in Methanocaldococcus jannaschii: Elucidating the role of a conserved cysteine in adenine deaminase

Adenine deaminases (Ade) and hypoxanthine/guanine phosphoribosyltransferases (Hpt) are widely distributed enzymes involved in purine salvage. Characterization of the previously uncharacterized Ade (MJ1459 gene product) and Hpt (MJ1655 gene product) are discussed here and provide insight into purine salvage in Methanocaldococcus jannaschii. Ade was demonstrated to use either Fe(II) and/or Mn(II) as the catalytic metal. Hpt demonstrated no detectable activity with adenine, but was equally specific for hypoxanthine and guanine with a k_cat/K_M of 3.2 × 10⁷ and 3.0 × 10⁷ s^{? 1}M^{? 1}, respectively. These results demonstrate that hypoxanthine and IMP are the central metabolites in purine salvage in M. jannaschii for AMP and GMP production. A conserved cysteine (C127, M. jannaschii numbering) was examined due to its high conservation in bacterial and archaeal homologues. To assess the role of this highly conserved cysteine in M. jannaschii Ade, site‐directed mutagenesis was performed. It was determined that mutation to serine (C127S) completely abolished Ade activity and mutation to alanine (C127A) exhibited 10‐fold decrease in k_cat over the wild type Ade. To further investigate the role of C127, detailed molecular docking and dynamics studies were performed and revealed adenine was unable to properly orient in the active site in the C127A and C127S Ade model structures due to distinct differences in active site conformation and rotation of D261. Together this work illuminates purine salvage in M. jannaschii and the critical role of a cysteine residue in maintaining active site conformation of Ade. Proteins 2016; 84:828–840. © 2016 Wiley Periodicals, Inc.     

Purification and characterization of β-(pyrazol-1-yl)-l-alanine synthase from Citrullus vulgaris

From seedlings of Citrullus vulgaris the enzyme β-(pyrazol-1-yl)-l-alanine synthase was purified 200-fold, when it showed electrophoretic homogeneity (MW 58 000) and could be dissociated into identical subunits (MW 32 000) each containing one molecule of pyridoxal 5′-phosphate. The K_m value was 2.5 × 10^?3 M for O-acetyl-l-serine and 7.4 × 10^?2 M for pyrazole. The enzyme did not catalyse the formation of related β-substituted alanines, such as l-mimosine and l-quisqualic acid, and significant differences were found between the β-(pyrazol-1-yl)-l-alanine synthase and β-substituted alanine syntheses and cysteine synthase from other sources.     

Metabolic profiling in Caenorhabditis elegans provides an unbiased approach to investigations of dosage dependent lead toxicity

The nematode, Caenorhabditis elegans (CE), serves as a model system in which to explore the impact of particularly low-levels of lead [250, 500, 1000 and 2000 parts per million (ppm) (1.4 × 10^?6 M to 1.1 × 10^?5 M/nematode)] on specific metabolic pathways and processes. Chromatographic profiles of redox active metabolites are captured through application of high performance liquid chromatography coupled to electrochemical detection (Coularray/HPLC). Principal Component Analysis (PCA: unbiased cluster analysis) and the application of a slicing program, located significant areas of difference occurring within the 2.8–4.58 min section of the chromatograms. It is within this region of the data profiles that known components of the purine pathway reside. Two analytes of unknown structure were detected at 3.5 and 4 min respectively. Alterations in levels of the purine, tryptophan and tyrosine pathway intermediates measured in response to differing concentrations of lead acetate indicate that the effect of lead on these pathways is not linear, yet the ratio of the pathway precursors, tryptophan and tyrosine remains relatively constant. The application of the above combined analytical approaches enhances the value of data generated. Exposure of CE to very low levels of lead produced significant alterations in profiles of electrochemically active compounds.     

Mechanistic insights into mitochondrial tRNAAla 3’-end metabolism deficiency

Mitochondrial tRNA 3’-end metabolism is critical for the formation of functional tRNAs. Deficient mitochondrial tRNA 3’-end metabolism is linked to an array of human diseases, including optic neuropathy, but their pathophysiology remains poorly understood. In this report, we investigated the molecular mechanism underlying the Leber’s hereditary optic neuropathy (LHON)-associated tRNA^Ala 5587A>G mutation, which changes a highly conserved adenosine at position 73 (A73) to guanine (G73) on the 3’-end of the tRNA acceptor stem. The m.5587A>G mutation was identified in three Han Chinese families with suggested maternal inheritance of LHON. We hypothesized that the m.5587A>G mutation altered tRNA^Ala 3’-end metabolism and mitochondrial function. In vitro processing experiments showed that the m.5587A>G mutation impaired the 3’-end processing of tRNA^Ala precursors by RNase Z and inhibited the addition of CCA by tRNA nucleotidyltransferase (TRNT1). Northern blot analysis revealed that the m.5587A>G mutation perturbed tRNA^Ala aminoacylation, as evidenced by decreased efficiency of aminoacylation and faster electrophoretic mobility of mutated tRNA^Ala in these cells. The impact of m.5587A>G mutation on tRNA^Ala function was further supported by increased melting temperature, conformational changes, and reduced levels of this tRNA. Failures in tRNA^Ala metabolism impaired mitochondrial translation, perturbed assembly and activity of oxidative phosphorylation complexes, diminished ATP production and membrane potential, and increased production of reactive oxygen species. These pleiotropic defects elevated apoptotic cell death and promoted mitophagy in cells carrying the m.5587A>G mutation, thereby contributing to visual impairment. Our findings may provide new insights into the pathophysiology of LHON arising from mitochondrial tRNA 3’-end metabolism deficiency.     

2H-1,3-Oxazine-2,6(3H)-dione,a new pyrimidine antimetabolite

2H-1,3-Oxazine-2,6(3H)-dione inhibits the growth of $\text{Escherichia}\text{coli}$ B, the inhibition being complete at a concentration of 10^?4M. It may be relieved with uridine, cytidine and partly with uracil. Orotic acid, cytosine, purine bases and purine ribonucleosides show no effect. At a molar ratio of uridine to the inhibitor of 1:2 the inhibition is completely suppressed. 2H-1,3-Oxazine-2,6(3H)-dione is thus a novel inhibitor of the biosynthesis of pyrimidine precursors of nucleic acids.     

Somatic cell mutation. Detection and quantification of x-ray-induced mutation in cultured, diploid human fibroblasts

We describe a system for detecting somatic cell mutation to 8-azaguanine (8AG) resistance in cultured, diploid human fibroblasts. Hypoxanthine-guanine phosphoribosyltransferase (HG-PRT)-deficient, AG-resistant fibroblasts from boys with the X-chromosomal, Lesch-Nyhan (L-N) mutation served as one type of prototype mutant cells. Both spontaneous and X-ray-induced mutation were studied. Recovery of L-N cells was a function both of density of normal cells and of the AG concentration used for selection. Optimum recovery was achieved at an initial inoculum of 2·10⁴ normal cells per 60 mm diameter culture dish and an AG concentration of 8·10^?6M. Efficiency of recovery was between 39 and 90% and controls to determine this efficiency were included in mutagenesis experiments.Attempts to free normal cell populations of pre-existing AG-resistant mutant cells by pregrowth in HAT medium failed because, unlike L-N mutants, most spontaneous AG-resistant mutants can grow in HAT medium. Although pre-existing mutants probably caused overestimation, the average spontaneous mutation rate derived from our experiments was 4.5·10^?6 per cell generation. Eliminating one large-yieldv experiment reduced this estimate to 1.9·10^?6. Clonal survival of cultured human fibroblasts as a function of X-ray dose was studied. X-Irradiation increased the mutation rate above spontaneous background. Minimum estimates of the increases were 1.13·10^?9 per R per cell at 75 R, 7.49·10^?8 per R per cell at 125 R, 6.87·10^?8 per R per cell at 150 R and 2.16·10^?7 per R per cell at 250 R. The total mutagenic effect and the induced mutation rate appeared to be dose-dependent. Normal parental cell strains and their derived AG-resistant mutants had similar X-ray sensitivities indicating that X-rays induced mutations rather than selected for pre-existing mutants.Because of the realism of the cultured diploid, human fibroblast model vis-a-vis in vivohuman cellular events, the mutation detection system described herein is proposed as being potentially useful for environmental monitoring.     

Characteristics of γ-ray-induced chromosomal aberrations in mutagen-sensitive mutants of L5178Y cells

We have examined the chromosomal radiosensitivities of an ionizing-radiation- and MMS-sensitive mutant (M10), and a UV- and 4NQO-sensitive mutant (Q31), isolated from mouse lymphoma L5178Y cells, with regard to killing effects. In the first mitoses after 100 R γ-irradiations, it was found that M10 cells were highly radiosensitive in terms of chromosomal aberrations accompanying longer mitotic delay (3 h); the frequencies of both chromatid-type and chromosome-type aberrations were, respectively, about 7 and 4 times higher than that of wild-type L5178Y cells. Furthermore, chromatid exchanges, particularly triradials, isochromatid breaks with sister union, and chromatid gaps and breaks were markedly enhanced at G₁ phase of M10 cells. In contrast, the chromosomal radiosensitivity of Q31 cells after 100 R irradiation was similar to that of L5178Y cells. On the other hand, spontaneous aberration frequencies (overall breaks per cell) of M10 and Q31 cells were, respectively, 5.1 and 2.2 times higher than that of wild-type L5178Y cells. The chromosomal hypersensitivity to γ-rays in M10 cells is discussed in the light of knowledge obtained from ataxia telangiectasia cells.     

A Biotechnological Approach for Enhancement of Colchicine Accumulation in Iphigenia indica Kunth

An attempt has been made to enhance colchicine biosynthesis in Iphigenia indica L grown in vitro by exogenous supply of precursors and elicitors during culture. Addition of tyrosine at 30 mg l^?1 enhanced colchicine accumulation up to 6.1 mg g^?1 dry wt (control 0.99 mg g^?1 dry wt), while 25 μM NiSO₄ stimulated maximum colchicine accumulation (10.25 fold of control value). The colchicine accumulation was recorded as 16.25 mg g^?1 dry wt when NiSO₄ was added with tyrosine.     

L'adeninephosphoribosyltransferase des pousses de topinambour Helianthus tuberosus

An extract from Jerusalem artichoke shoots exhibited important adeninephosphoribosyltransferase activity. Only partial purification was possible because of the great instability of the enzyme. Phosphate ions and thiol reducing substances were necessary to stabilize it. The optimal temperature and pH were 40–45° and 5.5 to 6.5. The enzyme showed an absolute requirement for divalent cation: Mn²⁺ > Mg²⁺ = CO²⁺ = Zn²⁺ ? Ca²⁺. Kinetic studies gave K_m values of 6.4 × 10^?1 M for phosphoribosylpyrophosphate (PRPP) and 5.5 × 10^?6 M for adenine. AMP exercised a strong product inhibition, competitive towards PRPP (K_i = 10^?4 M). Inhibition by phosphate and pyrophosphate ions was also observed. The results suggested that the adeninephosphoribosyltransferase of Helianthus tuberosus has a key role in the purine salvage pathway.