Chemical induction of presumed dominant-lethal mutations in postcopulation germ cells of mice. I. Relative sensitivity between pre- and postcopulation germ cells to isopropyl methanesulfonate

Females from ($\text{C}\text{3}\text{H}\text{×}\text{IOI}\text{)}\text{F}{}_1$ and a mixed stock were injected intraperitoneally with either 25 or 50 mg/kg isopropyl methanesulfonate (IMS) or Hanks' solution 4.5 h after the midpoint of the dark period during which mating occurred. It was determined that at the time of treatment the great majority of oocytes were undergoing second meiotic division. For comparison, the same doses of IMS were given to females treated within 3.5 days prior to mating (predominantly dictyate oocytes) or to males treated within 4.5 days prior to mating (sperm in vas and epididymis). The frequencies of presumed dominant lethals induced by 50 mg/kg IMS in sperm treated in vas and epididymis, dictyate oocytes, and germ cells in mated females are 22%, 19%, and 79%, respectively, for (C3H × IOI)F₁ and 26%, 30%, and 76% for the other stock. Clearly, in both stocks, effects in mated females, when both female and male germ cells were treated, are relatively much higher than the added effects on dictyate oocytes and spermatozoa. This is also true for the 25 mg/kg dose.     

Expression of TEM-induced damage to postmeiotic stages of spermatogenesis of the mouse during early embryogenesis. I. Investigations with in vitro embryo culture.

After treatment of postmeiotic stages of spermatogenesis of the mouse with TEM, dose and stage of spermatogenesis-dependent disturbances of the early embryonic development can be observed both in vivo and after in vitro culture of the embryos. The observations in both systems can be correlated. The embryo-culture system thereby enables analysis of the expression of mutagen-induced damage more accurately than the in vivo dominant lethal test. With the doses used (0.2 and 0.4 mg/kg) TEM-treatment of the fathers did not affect the rate of fertilized and cleaving eggs during the first three weeks post-treatment but severely disturbed the further development of the embryos at all stages up to implantation, exhibiting a maximum effect on morulae.     

The induction of chromosome-type aberrations in G1 by methyl methanesulfonate and 4-nitroquinoline-N-oxide,and the non-requirement of an S-phase for their production

Human lymphocyte were treated in G₁ with 4-nitroquinoline-N-oxide (4NQO) and methyl methanesulfonate (MMS) and then incubated in the presence or absence of cytosine arabinoside (ara-C). There was an increase in aberration frequency in those cells incubated with ara-C compared with those treated with 4NQO or MMS alone. This increase was restricted to chromosome-type aberrations. When cells were treated in G₂ with 4NQO and then incubated with ara-C until fixation, there was an increase in deletions compared with cells treated with 4NQO alone. No exchange aberrations were observed following any treatment even when deletion frequencies were high, as in the case with 4NQO plus ara-C treatment. These results suggest that ara-C can inhibit the repair of DNA damage induced by 4NQO and MMS that is converted into aberrations. They also show that the terms “S-dependent” and “S-independent” used to describe the modes of action of chemical clastogens are not valid.     

Investigation of styrene in the liver perfusion/cell culture system. No indication of styrene-7,8-oxide as the principal mutagenic metabolite produced by the intact rat liver

Mutagenic effect of styrene and styrene-7,8-oxide was studied with the isolated perfused rat liver as metabolizing system and Chinese hamster V79 cells as genetic target cells. Styrene-7,8-oxide which is mutagenic per se was rapidly metabolized by the perfused rat liver. Thus no mutagenic effect was detected neither in the perfusion medium nor in the bile. However when styrene was added to the perfusion system, an increase in V79 mutants was observed regardless of where in the circulating perfusion medium the V79 cells were placed: the same effect was obtained with V79 cells close to the liver as well as at a distance from the liver. No mutagenic effect was observed in the bile. Simultaneous analysis of the styrene-7,8-oxide concentration in the perfusion medium, suggest that this metabolite is not the cause of the mutagenic effect observed during perfusion with styrene.The effect of the two test compounds on some liver functions was also studied. Both styrene and styrene-7,8-oxide changed the bile flow without affecting bile acid secretion: styrene caused a reduction in bile flow as compared to control perfusions and styrene-7,8-oxide increased the bile flow. Styrene, but not styrene-7,8-oxide, reduced gluconeogenesis from lactate. Styrene had no effect on the liver's capacity to incorporate amino acids into plasma proteins, whereas styrene-7,8-oxide reduced the amino acid incorporation. The microsomal cytochrome P-450 content was not affected by the two test compounds. No alteration in microsomal N- and C-oxygenation of N, N-dimethylaniline (DMA) was observed with styrene-7,8-oxide or the lower styrene dose used (240 μmol), whereas the higher styrene concentration (480 μmol) reduced N-oxygenation and thus also the total DMA metabolism.It is suggested that the results on styrene and styrene-7,8-oxide found here using the liver perfusion/cell culture system mimic the metabolism expected to be found in the intact animal, thus indicating that styrene-7,8-oxide is not the principal mutagenic metabolite of styrene in vivo.     

Direct analysis of radiation-induced chromosome fragments and rings in unstimulated human peripheral blood lymphocytes by means of the premature chromosome condensation technique

Development of the procedure to stimulate peripheral blood lymphocytes has greatly facilitated the understanding of chromosome aberration formation and repair mechanisms in human cells. Yet, because radiation induces far more initial chromosome breaks than are observed as aberrations in metaphase, it has not been possible to examine the kinetics of primary chromosome breakage and rejoining with this procedure. An improved method to induce premature chromosome condensation in unstimulated lymphocytes has been used to study primary chromosome breakage, rejoining, and ring formation at various times after irradiation with up to 800 rad of X-rays. The dose-response relations for chromosome fragments analyzed immediately or 1, 2, or 24 h after exposure were found to be linear. Rapid rejoining of chromosome fragments, which takes place in the first 3 h after X-ray exposure, was not correlated with a simultaneous increase in the formation of rings. The yield of rings per cell scored 24 h after irradiation, however, increased significantly and fit a linear quadratic equation. Both chromosome fragment rejoining and ring formation were completed about 6 h after irradiation. The frequency distributions of rings among cells followed a Poisson distribution, whereas chromosome fragments were overdispersed.     

Radioreceptor assay for epidermal growth factor.

An established cell line of human lung fibroblasts with a high number of surface receptorsfor mouse epidermal growth factor (mEGF) was used to develop a simple and highly sensitive radioreceptor assay for EGF. ¹²⁵I-Labeled mEGF competed mole for mole with unlabeled mEGF for specific receptors. Optimal range for discriminating EGF concentrations in body fluids and tissue extracts by a competitive binding assay was between 5 and 100 ng/ml. Interassay correlation of variation was 8.47% and the recovery of highly purified mEGF added to serum and urine samples was greater than 95%. Human serum and amniotic fluids contained about 24 and 4 ng/ml, respectively, of mEGF equivalents. Concentrations of mEGF in mouse urine and serum were highly variable and were 2- to 10-fold greater than that previously detected by radioimmune assay. Hypophysectomy nearly abolished submaxillary mEGF content in both male and female mice, but testosterone treatment of hypophysectomized animals restored normal concentrations of mEGF to the glands. mEGF added to culture medium disappeared with time as a function of the number of cellular EGF receptors indicating cellular degradation of the growth factor. The radioreceptor assay for EGF is based on the close biologic relationship between the cell receptor site and the native hormone and should prove to be a useful complementary tool to characterize the physiological role of EGF.     

Differences in sialyl transferase activity and in concanavalin-A agglutination between T and B lymphoblastoid cell lines.

The concanavalin A agglutination patterns, sialyl transferase activity and sialic acid content were studied for cultured lymphoblastoid cell lines possessing either T or B surface markers. Concanavalin A caused marked agglutination of the two B cell lines studied, Raji and SB, while the two T cell lines, HSB-2 and CCRF-CEM, failed to agglutinate with this lectin. The surface sialyl transferase activity of the two B lines was significantly higher than on the two T lines studied. In contrast, the total cellular sialic acid content or the surface sialic acid that was released from the T and B cell lines by neuraminidase was not significantly different. This study indicates that T and B lymphoblastoid cells possess different levels of surface located sialyl transferase activity and display different agglutination patterns with Con A. Perhaps these assays can be of value in differentiating various classes of neoplastic lymphoid cells.     

A comparative study of different experimental protocols for mutagenesis assys with the 9-azaguanine resistance system in cultured Chinese hamster cells

Both spontaneous and EMS-induced mutant frequencies were determined in cultured cells from V79 Chinese hamsters using three different experimental protocols. After optimal expression time was attained, mutation frequencies only remained constant when a protocol was used in which the cell density was maintained below critical values both before and during mutant selection. The identification of such a palteau allows, besides more reliable and reproducible estimated of mutation frequency, reduction in the size of experiments for quantitative evaluation of mutagenicity. Determination of mutation frequencies over a wide range of expression times becomes in fact unnecessary.     

Interaction of lymphocytes and macrophage cell line cells (M1 cells). I. Functional maturation and appearance of Fc receptors im M1 cells

M₁ cells, which are cell line cells established from myeloid leukemia cells of the SL strain mouse, can differentiate from blast cells ($\text{M}{}_1{}^{\mathrm{?}}$) to mature macrophages ($\text{M}{}_1{}^{\mathrm{+}}$) within 48 hr, when they are cultured with conditioned medium (CM) obtained from murine embryonic fibroblasts. While $\text{M}{}_1{}^{\mathrm{?}}$ cells have no phagocytic activity nor Fc receptor (FcR), $\text{M}{}_1{}^{\mathrm{+}}$ cells possess both characteristics. The appearance of FcR is temperature-dependent and inhibited by a metabolic inhibitor, cycloheximide. FcR on $\text{M}{}_1{}^{\mathrm{+}}$ cells is resistant to trypsin and pronase. $\text{M}{}_1{}^{\mathrm{+}}$ cells improve the viability of macrophage-depleted SL splenic lymphocytes and restore the in vitro secondary plaque forming cell response of macrophage-depleted spleen cells to particulate and soluble antigens. $\text{M}{}_1{}^{\mathrm{?}}$ cells lack this macrophage-substituting capacity. Mm₁ cells, mutant cells from M₁ cells, having FcR and higher phagocytic activity than $\text{M}{}_1{}^{\mathrm{+}}$ cells, are also devoid of this capacity.     

Autoimmunity to glial antigens in vitro.

Lymph nodes cells and spleen cells in a 50:50 mixture from Fischer 344 rats were cultured on syngeneic glial cells and fibroblasts. In the glia cultures, but not in the fibroblast cultures, the lymphocytes were stimulated to a vivid blast transformation and mitotic activity with a peak after 7 days, after which they reverted to small- and medium-sized lymphocytes. The stimulated lymphoid cells were not cytotoxic to glial cells when tested in a microcytotoxicity assay. A fraction of the lymphoblasts and their progeny (approximately 4%) took a positive intracytoplasmic stain for γ-globulin immunoglobulin G after direct immunofluorescence. Efforts to demonstrate immunoglobulin produced and released into the culture medium by the stimulated cells were negative. The findings may indicate that among the lymphoid cells responding to the glial antigens under these conditions, there are suppressor cells that abrogate the killer cell effect.     

Methylation of DNA and protamine by methyl methanesulfonate in the germ cells of male mice

The molecular dosimetry of methyl methanesulfonate (MMS) in the germ cells of male mice has been investigated. The mice were injected i.p. with 100 mg/kg of [3H]MMS and methylations per sperm head, per deoxynucleotide, and per unit of protamine were then determined over a 3-week period. The methylations per sperm head paralleled the dominant lethal frequency curve for MMS, reaching a maximum of between 22 and 26 million methylations per vas sperm head 8-11 days after treatment. Methylation of sperm DNA was greatest at 4 h (the earliest time point studied) after treatment, with 16.6 methylations/10(5) deoxynucleotides. DNA methylation gradually decreased during the subsequent 3-week period. The methylation of germ-cell DNA did not increase in the stages most sensitive to MMS (late spermatids leads to early spermatozoa) and was not correlated with the dominant lethal frequency curve for MMS. However, methylation of protamine did increase in the germ-cell stages most sensitive to MMS, and showed an excellent correlation with the incidence of dominant lethals produced by MMS in the different germ-cell stages. The pattern of alkylation produced by MMS in the developing germ-cell stages of the mouse is similar to that found for EMS. However, for equimolar exposures, MMS alkylates the germ cells 5-7 times more than does EMS. Hydrolyzed samples of protamine from [3H]MMS-exposed animals were subjected to thin-layer chromatography and amino acid analysis. Both procedures showed that most of the labeled material recovered from the hydrolysates co-chromatographed with authentic standards of S-methyl-L-cysteine. The amino acid analyses showed an average of approximately 80% of the labeled material eluting with S-methyl-L-cysteine. The mechanism of action of both MMS and EMS on the developing germ cells appears to be similar. The occurrence of S-methyl-L-cysteine as the major reaction product in sperm protamine after MMS exposure supports our initial model of how dominant lethals are induced in mouse germ cells by these chemicals: Alkylation of cysteine sulfhydryl groups contained in mouse-sperm protamine blocks normal disulfide-bond formation, preventing proper chromatin condensation in the sperm nucleus. Subsequent stresses produced in the chromatin structure eventually lead to chromosome breakage, with resultant dominant lethality.     

Ethylation pf DNA and protamine by ethyl methanesulfonate in the germ cells of male mice and the relevancy of these molecular targets to the induction of dominant lethals

The molecular dosimetry of ethyl methanesulfonate (EMS) in the germ cells of male mice has been investigated. The mice were injected i.p. with 200 mg/kg of [³H]EMS and the ethylations per sperm head, per deoxynucleotide, and per unit of protamine were then determined over a 2-week period. The ethylations per sperm head closely paralleled the dominant-lethal frequency curve for EMS, reaching a maximum of 5 to 6.5 million ethylations per vas sperm head at 8 to 10 days after treatment. Ethylation of sperm DNA was greatest at 4 h after treatment, with 5.7 ethylations/10⁵ deoxynucleotides, and gradually decreased to 2.2 ethylations/10⁵ deoxynucleotides at 15 days after treatment. The ethylation of sperm DNA did not increase in the germ-cell stages most sensitive to EMS, ans was not correlated with the dominant-lethal frequency curve for EMS. However, ethylation of sperm protamine did increase in the germ-cell stages most sensitive to EMS, and showed an excellent correlation with the incidence of dominant lethals produced by EMS in the germ cells.A model is presented to explain, at a molecular level, how dominant lethals may be induced in mouse germ cells by EMS. Ethylation by cysteine sulfhydryl groups contained in mouse-sperm protamine could block normal disulfidebond formation, preventing proper chromatin condensation in the sperm nucleus. Stresses in the chromatin structure could then eventually lead to chromosome breakage, with resultant dominant lethality.     

Characterization of the cells that suppress the cytotoxic activity of T lymphocytes. II. Physical properties, specificity, and developmental kinetics of the inhibitory splenic non-T cell population.

The in vivo immune response to alloantigens (tumor allograft reaction and acute graft-versus-host reaction) generates a population of antigen-specific “killer” T cells (CTL) and a separate activity (INA) inhibiting target cell lysis in vitro. Using a simple mathematical model to quantitate each activity from ⁵¹Cr-release titration curves, we show that cells with inhibitory activity differ from CTL in several respects: INA resists destruction by RAMB + C, acts without specificity for the sensitizing alloantigen, and appears to act by a cell-contact mechanism which does not require that the inhibitory cells remain viable. Cells with INA produce noncompetitive inhibition, in contrast to the competitive inhibition produced by alloantigen. Velocity sedimentation separation indicates that INA is quite heterogenous; normal spleen contains low levels of INA, which is associated with small cells (s ? 3 mm/hr). Increased INA develops in a regular manner during an immune response and is associated with a larger inhibitor population (s > 4 mm/hr). Separation on plastic dishes and with carbonyl iron powder demonstrates that INA is not restricted to macrophages.     

Physicochemical properties and in vitro intestinal permeability properties and intestinal cell toxicity of silica particles,performed in simulated gastrointestinal fluids

Background

Amorphous silica particles with the primary dimensions of a few tens of nm, have been widely applied as additives in various fields including medicine and food. Especially, they have been widely applied in powders for making tablets and to coat tablets. However, their behavior and biological effects in the gastrointestinal tracts associated with oral administration remains unknown.

Methods

Amorphous silica particles with diameters of 50, 100, and 200 nm were incubated in the fasted-state and fed-state simulated gastric and intestinal fluids. The sizes, intracellular transport into Caco-2 cells (model cells for intestinal absorption), the Caco-2 monolayer membrane permeability, and the cytotoxicity against Caco-2 cells were then evaluated for the silica particles.

Results

Silica particles agglomerated in fed-state simultaneous intestinal fluids. The agglomeration and increased particles size inhibited the particles' absorption into the Caco-2 cells or particles' transport through the Caco-2 cells. The in vitro cytotoxicity of silica particles was not observed when the average size was larger than 100 nm, independent of the fluid and the concentration.

Conclusion

Our study indicated the effect of diet on the agglomeration of silica particles. The sizes of silica particles affected the particles' absorption into or transport through the Caco-2 cells, and cytotoxicity in vitro, depending on the various biological fluids.

General significance

The findings obtained from our study may offer valuable information to evaluate the behavior of silica particles in the gastrointestinal tracts or safety of medicines or foods containing these materials as additives.     

Spindle disturbances in mammalian cells. I. changes in the quantity of free sulfhydryl groups in relation to survival and c-mitosis in V79 chinese hamster cells after treatment with colcemid,diamide, carbaryl and methyl mercury

Asynchronously growing V79 Chinese hamster cells were treated with colcemid, diamide, carbaryl and methyl mercury, which are all known to be spindle disturbing agents. For each compound the dose response for c-mitosis, survival and level of free sulfhydryl groups was investigated under comparable conditions. Diamide, carbaryl and methyl were all found to give a significant increase of c-mitosis at a dose giving a decrease of non-protein sulfhydryl groups (NPSH, mainly glutathione) of 30–40% suggesting that a decrease of this magnitude may have a predictive value for spindle disturbances. Despite this similarity at concentrations close to the respective thresholds it was found that the c-mitotic activity at higher concentrations was not a simple function of average NPSH decrease. Diamide, which rapidly oxidizes glutathione to glutathione disulfide, was a less efficient c-mitotic agent than carbaryl and methyl mercury in relation to average NPSH decrease at higher concentrations. Protein bound sulfhydryl groups (PSH) were not significantly affected with diamide and carbaryl at their lowest c-mitotic concentrations while methyl mercury caused a significant decrease already at concentrations below the lowest c-mitotic concentration. With colcemid a significant decrease of average NPSH (14%) and PSH (12%) was observed only with concentrations giving close to 100% c-mitotic cells. Concentrations giving more than 20% c-mitosis gave a pronounced decrease of survival with carbaryl, diamide and methyl mercury while no toxic effects were obtained with colcemid, not even with concentrations giving close to 100% c-mitosis. Carbaryl, diamide and methyl mercury caused increased glutathione peroxidase activity indicating that these compounds cause increased lipid peroxidation. The possible connection between peroxidative damage of membranes and c-mitosis is discussed.     

Kinetic model of the inhibition of respiration by endogenous nitric oxide in intact cells

Nitric oxide (NO) inhibits mitochondrial respiration by decreasing the apparent affinity of cytochrome c oxidase (CcO) for oxygen. Using iNOS-transfected HEK 293 cells to achieve regulated intracellular NO production, we determined NO and O₂ concentrations and mitochondrial O₂ consumption by high-resolution respirometry over a range of O₂ concentrations down to nanomolar. Inhibition of respiration by NO was reversible, and complete NO removal recovered cell respiration above its routine reference values. Respiration was observed even at high NO concentrations, and the dependence of IC₅₀ on [O₂] exhibits a characteristic but puzzling parabolic shape; both these features imply that CcO is protected from complete inactivation by NO and are likely to be physiologically relevant. We present a kinetic model of CcO inhibition by NO that efficiently predicts experimentally determined respiration at physiological O₂ and NO concentrations and under hypoxia, and accurately predicts the respiratory responses under hyperoxia. The model invokes competitive and uncompetitive inhibition by binding of NO to the reduced and oxidized forms of CcO, respectively, and suggests that dissociation of NO from reduced CcO may involve its O₂-dependent oxidation. It also explains the non-linear dependence of IC₅₀ on O₂ concentration, and the hyperbolic increase of c₅₀ as a function of NO concentration.     

Caffeic acid phenethyl ester induces adrenoleukodystrophy (Abcd2) gene in human X-ALD fibroblasts and inhibits the proinflammatory response in Abcd1/2 silenced mouse primary astrocytes

X-linked adrenoleukodystrophy (X-ALD) is a peroxisomal disorder caused by mutations in the ABCD1 gene. Accumulation of very long chain fatty acids (VLCFA) that have been attributed to reduced peroxisomal VLCFA β-oxidation activity are the hallmark of the disease. Overexpression of ABCD2 gene, the closest homolog of ABCD1, has been shown to compensate for ABCD1, thus correcting the VLCFA derangement. The accumulation of VLCFA leads to a neuroinflammatory disease process associated with demyelination of the cerebral white matter. The present study underlines the importance of caffeic acid phenethyl ester (CAPE) in inducing the expression of ABCD2 (ALDRP), and normalizing the peroxisomal β-oxidation as well as the levels of saturated and monounsaturated VLCFAs in cultured human skin fibroblasts of X-ALD patients. The expression of ELOVL1, the single elongase catalyzing the synthesis of both saturated VLCFA (C26:0) and mono-unsaturated VLCFA (C26:1), was also reduced by CAPE treatment. Importantly, CAPE upregulated Abcd2 expression and peroxisomal β-oxidation and lowered the VLCFA levels in Abcd1-deficient U87 astrocytes and B12 oligodendrocytes. In addition, using Abcd1/Abcd2-silenced mouse primary astrocytes we examined the effects of CAPE in VLCFA-induced inflammatory response. CAPE treatment decreased the inflammatory response as the expression of inducible nitric oxide synthase, inflammatory cytokine, and activation of NF-κB in Abcd1/Abcd2-silenced mouse primary astrocytes was reduced. The observations indicate that CAPE corrects both the metabolic disease of VLCFA as well as secondary inflammatory disease; therefore, it may be a potential drug candidate to be tested for X-ALD therapy in humans.     

Oxidative stress induced by P2X7 receptor stimulation in murine macrophages is mediated by c-Src/Pyk2 and ERK1/2

Background

Activation of ATP-gated P2X7 receptors (P2X7R) in macrophages leads to production of reactive oxygen species (ROS) by a mechanism that is partially characterized. Here we used J774 cells to identify the signaling cascade that couples ROS production to receptor stimulation.

Methods

J774 cells and mP2X7-transfected HEK293 cells were stimulated with Bz-ATP in the presence and absence of extracellular calcium. Protein inhibitors were used to evaluate the physiological role of various kinases in ROS production. In addition, phospho-antibodies against ERK1/2 and Pyk2 were used to determine activation of these two kinases.

Results

ROS generation in either J774 or HEK293 cells (expressing P2X7, NOX2, Rac1, p47phox and p67phox) was strictly dependent on calcium entry via P2X7R. Stimulation of P2X7R activated Pyk2 but not calmodulin. Inhibitors of MEK1/2 and c-Src abolished ERK1/2 activation and ROS production but inhibitors of PI3K and p38 MAPK had no effect on ROS generation. PKC inhibitors abolished ERK1/2 activation but barely reduced the amount of ROS produced by Bz-ATP. In agreement, the amount of ROS produced by PMA was about half of that produced by Bz-ATP.

Conclusions

Purinergic stimulation resulted in calcium entry via P2X7R and subsequent activation of the PKC/c-Src/Pyk2/ERK1/2 pathway to produce ROS. This signaling mechanism did not require PI3K, p38 MAPK or calmodulin.

General significance

ROS is generated in order to kill invading pathogens, thus elucidating the mechanism of ROS production in macrophages and other immune cells allow us to understand how our body copes with microbial infections.