Effects of cordycepin on macromolecular synthesis and development in the preimplantation mouse embryo

Investigations were conducted to test the effects of cordycepin, a naturally-occurring analog of adenosine, on gene activity in preimplantation mouse embryos. Embryos were explanted into culture at the 2-cell, morula and blastocyst stages, and incubated in the absence or presence of cordycepin (5–100 μg/ml) to determine the effects of the drug on continued development and macromolecular synthesis. Cordycepin at concentrations exceeding 10 μg/ml caused a dose-responsive inhibition of cleavage and blastulation of embryos in culture. Exposure of morulae and blastocysts to cordycepin concentrations of 10–100 μg/ml produced a dose- and time-dependent suppression of RNA synthesis as measured by incorporation of [³H]uridine. Suppression in blastocyst-stage embryos was enhanced by preincubation, and reached 70% after 4 h at 100 μg/ml. Cordycepin (50–100 μg/ml) reduced synthesis of major RNA components detected by electrophoresis, blocked incorporation of radioactivity into fractions bound by olido(dT)-cellulose, and produced a time- and dose-dependent reduction of protein synthesis in blastocysts, causing a maximum inhibition of 25% after 4 h of preincubation at 50 μg/ml.     

The effects of actinomycin D and cordycepin on neurite formation and acetylcholinesterase activity in mouse neuroblastoma cells

Actinomycin D (actD) (0.003–0.10 μg/ml) and cordycepin (3–30 μg/ml) were used to examine the requirement of de novo RNA synthesis in the pH 6.6-induced expression of neurites and acetylcholinesterase activity in C-1300 mouse neuroblastoma cells. ActD at 0.03 and 0.10 μg/ml caused a pronounced stimulation in neurite formation following 20 h of treatment, although by 30 h exposure to actD (0.01–0.10 μg/ml), neurite formation had rapidly declined. Cordycepin (3–30 μg/ml) also inhibited neurite formation in a concentration- and time-dependent manner, although it did not produce an initial stimulation in neurite formation. The pH 6.6-induced increase in acetylcholinesterase activity was inhibited by both actD and cordycepin in a concentration- and time-dependent manner. Cell viabilities in the presence of actD and cordycepin were 90% or greater throughout the course of these studies.The effects of actD on [³H]uridine and [³H]leucine transport into cells and on incorporation into acid-insoluble material showed that actD inhibited RNA synthesis to a greater extent than it inhibited protein synthesis. Cordycepin caused only minor effects on [³H]uridine and [³H]leucine transport into cells and incorporation into acid-insoluble material; these effects were variable and neither concentration- nor time-dependent. The results of this study show that actD can inhibit the pH 6.6-induced expression of neurites and acetylcholinesterase activity in mouse neuroblastoma cells at concentrations which were relatively non-toxic and which caused a greater inhibition of RNA synthesis than of protein synthesis. This suggests that de novo RNA synthesis is required for the expression and maintenance of neurites and acetylcholinesterase activity in mouse neuroblastoma cells. Experiments with cordycepin were consistent with this conclusion.     

Effects of azadirachtin on ecdysis of Rhodnius prolixus

The effects of azadirachtin on the development of 4th-instar nymphs of Rhodnius prolixus were studied. Given through a blood meal, a dose-response relationship of azadirachtin was established using antifeedant effect and ecdysis inhibition as effective parameters. The effective dose (ED₅₀) was 25.0 μg/ml and 4 × 10⁻⁴ μg/ml of blood, respectively, for antifeedant and ecdysis inhibition effects. Feeding inhibition is an indirect effect due to an interference of azadirachtin with the endocrine system rather than through the inhibition of chemoreceptors. Ecdysone given orally (5.0 μg/ml) and juvenile hormone analogue (70 μg/insect) counteracted the ecdysis inhibition as induced by azadirachtin.     

Root Cortical Cell Spherical Bodies Associated with an Induced Resistance Reaction in Monoxenic Cultures of Meloidogyne incognita

The root-knot nematode Meloidogyne incognita was monoxenically cultured on excised roots of soybean cv. Pickett and tomato cv. Rutgers in agar media containing either 0 to 1,600 μg/ml ammonium nitrate or 0 to 100 μg/ml urea. Observations with scanning and transmission electron microscopy indicated that an elevated concentration of ammonium nitrate or urea inhibited giant cell formation and suppressed nematode development in the infected soybean roots. In the tomato roots, concentrations of ammonium nitrate above 400 μg/ml or urea above 25 μg/ml inhibited giant cell formation and nematode development. Coincident with the nitrogen concentrations that suppressed giant cell formation was the appearance of electron-dense spherical bodies in the cortical parenchyma cells of both the soybean and tomato roots. These bodies, which were 1-4 μm in diameter, appeared to form in the cytoplasm and migrate to the cell vacuole.     

Effects of genistein and lavendustin on reproductive processes in domestic animals in vitro

The aim of our experiments was to study the influence of genistein [tyrosine kinase (TK) inhibitor with estrogenic activity] and lavendustin A (TK inhibitor without estrogenic activity) on female reproductive processes in domestic animals in vitro. It was found that genistein (0.001–1 μg/ml) increased IGF-I release by cultured bovine and porcine granulosa cells, but decreased its secretion by rabbit granulosa cells (0.01–10 μg/ml). Genistein stimulated progesterone secretion by bovine and rabbit granulosa cells (at 0.01–10 μg/ml), estradiol output by rabbit granulosa cells (at 1 μg/ml) and porcine ovarian follicles (at 10 μg/ml), as well as cAMP production by bovine (at 0.001–1 μg/ml) and rabbit (at 1 μg/ml) granulosa cells. No effects of genistein (at 10 μg/ml) on PGF-2 alpha and progesterone release by porcine ovarian follicles were observed. Genistein significantly (P < 0.05) stimulated the reinitiation and completion of nuclear maturation of porcine oocytes (at 5 μg/ml), as well as the preimplantation development of rabbit zygotes (at 1 μg/ml). Lavendustin A (0.001–1 μg/ml) increased IGF-I release by bovine (but not by porcine) granulosa cells, cAMP release by bovine granulosa cells, and PGF-2 alpha output by porcine ovarian follicles (at 10 μg/ml). Lavendustin (at 1 μg/ml) had no significant effect on IGF-I release by porcine granulosa cells, on estradiol and cAMP output by rabbit granulosa cells, or on progesterone secretion by porcine follicles (at 10 μg/ml). Inhibitory actions of lavendustin (at 10 μg/ml) on estradiol secretion by porcine follicles were also found. Furthermore, lavendustin, like genistein, promoted the reinitiation and completion of meiosis in porcine oocytes. The present study demonstrates a predominantly stimulatory effect of TK inhibition on endocrine and generative processes in domestic animals. The majority of these effects are similar for both compounds, indirectly suggesting that their action is due to tyrosine kinase inhibition and protein kinase A-stimulation, rather than estrogenic activity.     

The relationship of protein synthesis to cell division and oral development in synchronized Tetrahymena pyriformis GL-C: An analysis employing cycloheximide

The effects of cycloheximide on synchronized Tetrahymena pyriformis strain GL-C were investigated at concentrations ranging from 0.01 to 10 μg/ml. The initial inhibition of protein synthesis was nearly total (>85%) at 1 μg/ml and above, partial (50–80%) at 0.2 to 0.05 μg/ml, and slight (<30%) at 0.02 μg/ml. Eventual recovery of protein synthesis to a rate approaching that of the controls took place at concentrations of 1 μg/ml and less. When the drug was added before a “transition point” at 55 minutes after the end of the synchronizing treatment (EST), cell division was blocked by 10 μg/ml, and delayed at concentrations of 1 μg/ml or less. The duration of delay was related to the degree of initial inhibition, and to the time required for recovery of protein synthesis; it also depended on the time after EST at which the drug was added. At a given concentration, maximum division delay was observed just prior to the “transition point;” this maximum delay was correlated with resorption of differentiating oral primordia, followed by the appearance of new primordia. The lesser delays observed at earlier times were correlated with temporary blockage of development of primordia in the “stomatogenic field” stage. Resumption of oral primordium development was, in both cases, temporally correlated with a substantial recovery of protein synthesis. After the “transition point,” cell division, and completion of oral development, was delayed slightly at the lower concentrations, and more substantially at 1 and 10 μg/ml, with some division-arrest at the latter concentration. Except for the recovery phenomenon, the developmental responses elicited by cycloheximide were similar to those observed earlier with puromycin. The bearing of these findings on the mechanism of synchronization in Tetrahymena is considered in the Discussion.     

The effect of puromycin and cycloheximide on vacuole formation and exocytosis in Tetrahymena pyriformis GL-9

It has been shown that both puromycin and cycloheximide, at concentrations of 434 and 100 g/ml respectively, produce a marked inhibition of vacuole formation and exocytosis in Tetrahymena pyriformis GL-9. These effects were analysed in a quantitative manner. At the same time as these inhibitions occurred the incorporation of 1-C¹⁴ leucine into trichloroacetic acid precipitable material was inhibited by 90% and 100% respectively over a 40 min period. This inhibition of protein synthesis by cycloheximide occurred almost immediately, whereas the inhibition of vacuole formation and egestion was delayed. The results suggested that the latter processes were dependent upon a continuing supply of proteinaceous material, of which there was only a small store within the cell. Cycloheximide inhibited exocytosis completely under the conditions employed (with 100% inhibition of protein synthesis) whereas puromycin (with a 90% inhibition of protein synthesis) only inhibited it by about 50%. This suggested that the amount of newly synthesized protein required for the exocytic egestion process was very small in relation to the total cell requirement for protein synthesis. The entry of both inhibitors into the cell was by means other than vacuole formation. Puromycin appeared to have some effect on vacuole formation which was unconnected with protein synthesis. Microscopic observations of living cells indicated that oral apparatus function and endocytic vacuole formation were probably both affected by the inhibitors. Chloramphenicol, at 200 g/ml, had little effect on vacuole formation by starved cells with an exposure of an hour. The uptake of 1-C¹⁴ leucine from the growth medium was found to be a selective process, giving a concentration of about 2000 times into the cells over a 1 hr period. The results are discussed.     

Effect of protein disulfide isomerase on the rate-determining steps of the folding of bovine pancreatic ribonuclease A

To address the effect of an agglutogen on virus infection, we studied the avidin-associated inhibition of infection by biotinylated M13 phages (BIO-phages). Microscopic observation of mixtures of BIO-phages and avidin–fluorescein conjugates revealed many aggregates. Even at low phage concentrations, avidin induced inhibition of infection significantly. Anti-M13 phage antibody also made aggregates and inhibited the infection but in a different manner from avidin. The inhibition by avidin was at ≥2 μg/ml, time dependent and marked until 10 min after the mixing of the BIO-phages and Escherichia coli. On the other hand, antibody inhibited the infection at ≥0.1 μg/ml dose dependently, and the inhibition was time dependent and marked until 45 min after the mixing at moderate and low phage concentrations. These results indicate that avidin against BIO-phages and antibodies are agglutogens, and the inhibition of the BIO-phages by avidin is closely related to the tetramerization of avidin. Agglutogens may be novel alternative antiviral drugs.     

Effects of tannic acid and its related compounds on food mutagens or hydrogen peroxide-induced DNA strands breaks in human lymphocytes

The effect of tannic acid (TA), gallic acid (GA), propyl gallate (PA) and ellagic acid (EA) on DNA damage in human lymphocytes induced by food mutagens [3-amino-1-methyl-5H-pyrido (4,3-b) indole (Trp-P-2) and 2-amino-1-methyl-6-phenylimadazo (4,5-b) pyridine (PhIP) or H₂O₂ was evaluated by using single-cell electrophoresis (comet assay). The toxicity of these tested compounds (0.1–100 μg/ml) on lymphocytes was not found. These compounds did not cause DNA strand breaks at lower concentrations of 0.1–10 μg/ml. At a concentration of 100 μg/ml, TA and GA exhibited slight DNA damage, whereas PA and EA showed no DNA strand breaks. TA and its related compounds decreased the DNA strand breaks induced by Trp-P-2, PhIP or H₂O₂ at concentrations of 0.1–10 μg/ml. DNA repair enzymes endonuclease III (Endo III) and formamidopyrimidine-DNA glycoslase (FPG)] were used to examine the levels of oxidised pyrimidines and purines in human lymphocytes induced by H₂O₂. All the compounds at 10 μg/ml can reduce the level of FPG sensitive sites. However, only EA inhibited the formation of EndoIII sensitive sites. The results indicated that these compounds can enhance lymphocytes resistance towards DNA strand breaks induced by food mutagens or H₂O₂ in vitro.     

Melatonin reduces both basal and bacterial lipopolysaccharide-induced lipid peroxidation in vitro

The protective effect of melatonin against lipopolysaccharide (LPS)-induced oxidative damage was examined in vitro. Lung, liver, and brain malonaldehyde (MDA) plus 4-hydroxyalkenals (4-HDA) concentrations were measured as indices of induced membrane peroxidative damage. Homogenates of brain, lung, and liver were incubated with LPS at concentrations of either 1, 10, 50, 200, or 400μg/ml for 1 h and, in another study, LPS at a concentration of 400 μg/ml for either 0, 15, 30, or 60 min. Melatonin at increasing concentrations from 0.01–3 mM either alone or together with LPS (400μg/ml) was used. Liver, brain, and lung MDA + 4-HDA levels increased after LPS at concentrations of 10, 50, 200 or 400 μg/ml; this effect was concentration-dependent. The highest levels of lipid peroxidation products were observed after tissues were incubated with an LPS concentration of 400 μg/ml for 60 min; in liver and lung this effect was totally suppressed by melatonin and partially suppressed in brain in a concentration-dependent manner. In addition, melatonin alone was effective in brain at concentrations of 0.1 to 3 mM, in lung at 2 to 3 mM, and in liver at 0.1 to 3 mM; in all cases, the inhibitory effects of melatonin on lipid peroxidation were always directly correlated with the concentration of melatonin in the medium. The results show that the direct effect of LPS on the lipid peroxidation following endotoxin exposure is markedly reduced by melatonin.     

Requirement of messenger RNA synthesis for the first division in heat synchronized Tetrahymena

When Tetrahymena are starved during the heat synchronization treatment, they synthesize a small amount of transfer RNA and DNA-like RNA containing poly A, but no ribosomal RNA and still retain the capacity to divide synchronously. Analysis with MAK chromatography revealed that the DNA-like RNA is eluted almost entirely as tenaciously bound, DNA-like RNA. SDS-sucrose gradient centrifugation revealed that the DNA-like RNA is heterogeneous in size with a dominant peak sedimenting at about 17S. The peak fraction containing poly A sediments at about 15S.A good correlation has been established between the percentage of cell division and the synthesis of either tenaciously bound, DNA-like RNA or RNase-resistant RNA using various concentrations of actinomycin D. Actinomycin D treatment causes little delay in the initiation of furrowing in division but prolongs the furrowing process. In the present system, the critical addition time with actinomycin D (50 μg/ml) is about 30 min after the end of the last heat shock (EH).The present data suggest that the synthesis of messenger-like RNA containing poly A is required after the last heat shock (approx. 30–40 min after EH) for the first division in heat synchronized Tetrahymena. This RNA synthesis appears to be related to the furrowing process.     

Processing of Digestive Vacuoles in Tetrahymena and the Effects of Dichloroisoproterenol1

The digestive-lysosomai system in Telrahymena has been extensively studied; however, the various vacuole stages and the existence of a required processing period prior to defecation have not been clearly denned, in this study the presence of such a required processing period and the rate of DV defecation in Tetrahymena thermophila were determined. Like the cycle in Paramecium. a digestive cycle in Tetrahymena consisted of two periods: the processing period was 45 min and the defecation period was ?2 h, making the complete cycle ?3 h. During the defecation period vacuole egestion followed the kinetics of a first-order rate reaction and had a rate constant of 0.0187/min and a t1/2 of 37 min (82 min into the cycle). Using the naphthol AS-TR phosphate-hexazotized rosanilin method to visualize acid phosphatase activity at the light microscopic level, DVs became positive beginning at 10 min. The number of positive DVs increased to a maximum of 13% when DVs were 20-min old and declined to 5-7% beyond 30 min. Although dichloroisoproterenol (DCI) has been reported by others to stimulate vacuole defecation, we found it inhibited the defecation rate. The extent of inhibition depended on the age of the DVs when exposed to DCI. Vacuole formation was completely blocked in cells pre-exposed to 40 μ DCI for only 10 min; however, upon further exposure, cells could recover from this inhibition. The time required for complete recovery increased with increasing DCI concentrations. If DCI was given to cells simultaneously with latex beads, it was found to exert a dose-dependent inhibitory effect on DV formation. These results showed the heterophagic pathway of the digestive-lysosomal system in Telrahymena to be similar to that of Paramecium, though it was less efficient in the former cell.     

A unique human mutant B-lymphoblastoid cell line (ataxia telangiectasia) which exhibits increased siste-chromatid exchange retaining hypersensitivity to neocarzinostatin and bleomycin

Chromosome aberrations and sister-chromatid exchanges (SCEs) were examined in 4 ataxia telangiectasia (AT)-derived B-lymphoblastoid cell lines (B-LCLs) (AT-S, AT-SHI, AT-SHI B13A and AsHa) following treatments with neocarzinostatin (NCS) and bleomycin. All of these cell lines exhibited extremely high frequencies of chromosome aberrations with the NCS and bleomycin treatments. Among them, AsHa, a mutant B-LCL originating from an AT patient, showed high frequencies of SCEs under high bromodeoxyuridine (BrdU) concentrations retaining hypersensitivity to NCS and bleomycin with regard to chromosome aberrations. A clear BrdU dose-dependent increase in SCEs (9.85 SCEs/cell at 40 μg/ml, 36.65 SCEs/cell at 100 μg/ml on average) in this mutant was observed. When AsHa mutant cells were treated with NCS (0.02 μg/ml) and/or bleomycin (5.0 μg/ml) under 40 μg/ml BrdU (minimum BrdU concentration for sister-chromatid differential staining), SCE levels increased from 9.85 (baseline level) to 21.1 with NCS and 20.5 with bleomycin, in a dose-dependent manner. These observations indicate that AsHa is a unique AT-derived mutant cell clone with a high SCE character retaining the original hypersensitivity to bleomycin and NCS.     

Ability of chloramphenicol to suppress phenotypically some bacterial mutations

Summary Chloramphenicol (CLP) at slightly inhibitory concentrations (3–5 g/ml) suppresses the inhibition of DNA synthesis and cell division caused by the temperature sensitive mutation dnaE486 at the nonpermissive temperature. Some other mutations can also be phenotypically suppressed by CLP. A similar effect is shown by chlortetracycline. Phenotypic suppression is caused by both these drugs in different cases than by streptomycin.     

Histatin and lactoferrin derived peptides: antimicrobial properties and effects on mammalian cells

In order to analyze the clinical potential of two antimicrobial peptides, human lactoferrin 1-11 (hLF1-11) and synthetic histatin analogue Dhvar-5, we measured the killing effect on bacteria, and the potential toxicity on erythrocytes and bone cells. The antimicrobial activity was determined in a killing assay on six strains, including methicillin resistant Staphylococcus Aureus. The effect on human erythrocytes and MC3T3 mouse bone cells was measured with a hemolysis assay and a viability assay, respectively. Both hLF1-11 and Dhvar-5 dose-dependently killed all bacterial strains, starting at concentrations of 6 μg/mL. hLF1-11 had no effect on mammalian cells at concentrations up to 400 μg/mL, but Dhvar-5 induced significant hemolysis (37% at 200 μg/mL) and bone cell death (70% at 400 μg/mL). This indicates that both peptides are able to kill various resistant and non-resistant bacteria, but Dhvar-5 may exert a cytotoxic effect on host cells at higher concentrations.     

Growth factor-receptor pathway interfering treatment by somatostatin analogs and suramin: Preclinical and clinical studies

Interference in growth factor mediated pathways is a new strategy in the treatment of cancer. Somatostatin analogs can inhibit hormone and growth factor secretion, while suramin can block the binding of several growth factors to their receptors. In addition, somatostatin analogs can cause direct growth inhibitory effects after binding to tumoral somatostatin receptors. We tested the efficacy and endocrine effects of chronic treatment with three somatostatin analogs (Sandostatin,^® RC-160 and CGP 15–425) or suramin in several tumor models and in patients with various types of cancer. Treatment with somatostatin analogs caused growth inhibition of breast cancer cells (MCF-7) in vitro, and of rat transplantable pancreatic (50–70% inhibition) and prostatic Dunning tumors (12% inhibition). No tumor growth inhibition was observed with respect to DMBA-induced rat mammary tumors, a transplantable color tumor and a rhabdomyosarcoma in rats. In 34 patients with metastatic pancreatic or gastrointestinal adenocarcinomas chronic Sandostatin treatment caused stable disease in 27% of the patients, but no objective remissions. Somatostatin receptors were found in the responding MCF-7 mammary tumor cells, rat pancreatic tumors and in 20–45% of human breast cancer specimens [J. Steroid Biochem. Molec. Biol. 37 (1990) 1073–1077], but not in rat DMBA-mammary tumors or in 10 human pancreatic adenocarcinomas. Suramin caused significant dose-dependent growth inhibition of human breast cancer cells in vitro and of rat pancreatic tumors in vivo in the presence of plasma levels up to 150 μg/ml. In a preliminary clinical study concerning 11 patients with various tumor types we observed significant hematological, biochemical, endocrine and clinical side effects, but no objective remissions in spite of relevant peak plasma suramin concentrations of 270–330 μg/ml. In conclusion: somatostatin analogs and suramin can cause growth inhibition of various experimental tumors in vitro and in vivo, but the clinical values has to be established for several types of cancer, especially with respect to suramin and suramin-like compounds.     

Changes in the organization and biosynthesis of cell surface acidic sugars during the phytohemagglutinin-induced blast formation of human T-lymphocytes

Use of cell electrophoresis combined with specific enzymes and varying ionic strength revealed a topological change of acidic sugars in lymphocyte membrane treated with a T-cell mitogen, phytohemagglutinin (PHA). The suggested alterations were an early translocation of hyaluronic acid to the cell periphery within 15 min of PHA addition and, 4 h later, the appearance of chondroitin sulphate in T-lymphocytes, but not in B-lymphocytes. As the contribution of chondroitin sulfate to the electrophoretic mobility increased with time up to 24 h, that of sialic acid decreased conversely. Several agents which block blast formation (2 mM ethylene glycol bis-β-aminoethylethyl-N,N,N′,N′-tetraacetic acid, 2 × 10⁻⁷ M ouabain, 0.1 μg/ml colchicine and 1 μg/ml cytochalasin B) also blocked the translocation of hyaluronic acid at the same concentrations. Chemical analysis of [¹⁴C]glycosaminoglycans by means of gel filtration followed by paper chromatography revealed a four-fold enhancement of the biosynthesis of chondroitin sulfate C after PHA stimulation. The presence of chondroitin sulfate in the cell periphery was also detected electrophoretically in T-cell type leukemia cells (MOLT-4B). These results suggest that the reorganization of glycosaminoglycans may be one of the membrane changes associated with blast formation of lymphocytes.     

Efficacy of thymol against Echinococcus granulosus protoscoleces

The aim of the present work was to determine the in vitro protoscolicidal effect of thymol against Echinococcus granulosus. Protoscoleces of E. granulosus were incubated with thymol at concentrations of 10, 5 and 1 μg/ml. The first signs of thymol-induced damage were observed between 1 and 4 days post-incubation. The maximum protoscolicidal effect was found with thymol at 10 μg/ml, viability reduced to 53.5 ± 11.9% after 12 days of incubation. At day 42, viability was 11.5 ± 15.3% and, reached 0% after 80 days. Thymol at concentrations of 5 and 1 μg/ml provoked a later protoscolicidal effect. Results of viability tests were consistent with the tissue damage observed at the ultrastructural level. The primary site of damage was the tegument of the parasite. The morphological changes included contraction of the soma region, formation of blebs on the tegument, rostellar disorganization, loss of hooks and destruction of microtriches. The data reported in this article demonstrate a clear in vitro effect of thymol against E. granulosus protoscoleces.     

Genotoxicity of food preservative sodium sorbate in human lymphocytes in vitro

The genotoxic effects of antimicrobial food additive sodium sorbate (SS) was assessed by using chromosome aberrations (CAs), sister-chromatid exchanges (SCEs), and micronucleus (MN) in cultured human lymphocytes and comet assay in isolated human lymphocytes. Lymphocytes were treated with four concentrations (100, 200, 400 and 800 μg/ml) of SS as well as a negative (sterile distilled water) and a positive control (Mitomycin-C: MMC for cultured lymphocytes and H₂O₂ for isolated lymphocytes). The result of this study indicated that SS increased the frequency of CAs at both 24 and 48 h period compared to control. When gaps were included, this increase was significant at 200, 400 and 800 μg/ml concentrations at 24 h and, at all concentrations at 48 h treatment time. When gaps were excluded, this increase was significant at only 800 μg/ml concentration at both 24 and 48 h treatments. In addition, SS increased SCEs/cell and MN frequency at 400 and 800 μg/ml concentrations at both 24 and 48 h compared to negative control. Furthermore, this additive caused DNA damage at all concentrations in isolated human lymphocytes after 1 h in vitro exposure. The present results show that SS is genotoxic to the human peripheral blood lymphocytes in vitro at the highest concentrations.     

The Action of Mercaptoethanol on Cell Division in Synchronized Tetrahymena1

SYNOPSIS. Action of mercaptoethanol (ME) on cell division and macromolecular synthesis was examined in Tetrahymena synchronized for division. Cells continuously exposed to increasingly higher concentrations of ME divided with progressively longer division delays showing a dosage-dependent response to the agent. Division was blocked in 2 × 10^?2 M ME. Many cells cytolyzed in high concentrations of ME (4 × 10^?2 M); others became spherical and motility decreased. Non-delaying concentrations of ME (2 × 10^?2 M) had little or no effect on protein synthesis but decreased DNA and RNA synthesis 10 and 35%, respectively. Blocking concentrations inhibited incorporation of phenylalanine, thymidine and uridine 35, 60, and 85%, respectively. It is suggested that the mode of action of ME is mediated thru inhibition of macromolecular synthesis essential for cell division and thru inhibition of formation of disulfide bridges between protein subunits.