Changes in apoptotic rate and cell viability in three fish epidermis cultures after exposure to nonylphenol and to a wastewater sample containing low concentrations of nonylphenol

Three types of epidermal cultures of fish were used for toxicological investigations, a primary cell culture and a tissue culture prepared from the rainbow trout Oncorhynchus mykiss Walbaum and the cell line EPC, derived from a skin tumour of the carp Cyprinus carpio L. Two studies were carried out to compare the different culture systems. In the first cultures were incubated with nonylphenol and in the second set of experiments the cell cultures were exposed to a wastewater sample containing low concentrations of nonylphenol (NP). Both cell cultures were similarly sensitive to nonylphenol with respect to the endpoints cell viability (LC₅₀ (24 h) 47.1 μM NP (primary cell culture) and 44.2 μM NP (EPC)) values and apoptotic rate (significantly increased apoptotic rate after exposure to 50 μM NP for 24 h, p < 0.001 (primary cell culture), p = 0.008 (EPC)). The explant culture was slightly less sensitive (increased apoptotic rate after exposure to 50 μM NP for 24 h, but not significant: p = 0.385), which could be due to the capabilities of a differentiated tissue, providing more protective repair mechanisms, compared with single cells. All cultures revealed a concentration–response relationship for the endpoint apoptotic rate after the application of nonylphenol for 24 h. After wastewater exposure, a significant decrease in the apoptotic rate was measured in the primary cell culture (dilution wastewater : medium 1:1:p = 0.018; dilution wastewater : medium 1:2:p = 0.003), whereas the cell line EPC did not reveal any effects. Our results show that the endpoint apoptotic rate is more sensitive than the parameter cell viability for detecting adverse effects of a wastewater sample.     

Differential degradation of nonylphenol isomers by Sphingomonas xenophaga Bayram

Sphingomonas xenophaga Bayram, isolated from the activated sludge of a municipal wastewater treatment plant, was able to utilize 4-(1-ethyl-1,4-dimethylpentyl)phenol, one of the main isomers of technical nonylphenol mixtures, as a sole carbon and energy source. The isolate degraded 1 mg of 4-(1-ethyl-1,4-dimethylpentyl)phenol/ml in minimal medium within 1 week. Growth experiments with five nonylphenol isomers showed that the three isomers with quaternary benzylic carbon atoms [(1,1,2,4-tetramethylpentyl)phenol, 4-(1-ethyl-1,4-dimethylpentyl)phenol, and 4-(1,1-dimethylheptyl)phenol] served as growth substrates, whereas the isomers containing one or two hydrogen atoms in the benzylic position [4-(1-methyloctyl)phenol and 4-n-nonylphenol] did not. However, when the isomers were incubated as a mixture, all were degraded to a certain degree. Differential degradation was clearly evident, as isomers with more highly branched alkyl side chains were degraded much faster than the others. Furthermore, the C9 alcohols 2,3,5-trimethylhexan-2-ol, 3,6-dimethylheptan-3-ol, and 2-methyloctan-2-ol, derived from the three nonylphenol isomers with quaternary benzylic carbon atoms, were detected in the culture fluid by gas chromatography-mass spectrometry, but no analogous metabolites could be found originating from 4-(1-methyloctyl)phenol and 4-n-nonylphenol. We propose that 4-(1-methyloctyl)phenol and 4-n-nonylphenol were cometabolically transformed in the growth experiments with the mixture but that, unlike the other isomers, they did not participate in the reactions leading to the detachment of the alkyl moiety. This hypothesis was corroborated by the observed accumulation in the culture fluid of an as yet unidentified metabolite derived from 4-(1-methyloctyl)phenol.     

Removal and biodegradation of nonylphenol by immobilized Chlorella vulgaris

The removal and biodegradation of nonylphenol (NP) by alginate-immobilized cells of Chlorella vulgaris were compared with their respective free cultures. The effects of four cell densities of 10(4) per algal bead were investigated, as were the four algal bead concentrations, with regard to the removal and biodegradation of NP. Although immobilization significantly decreased the growth rate and NP's biodegradation efficiency of C. vulgaris, NP removal over a short period was enhanced. The NP removal mechanism by immobilized cells was similar to that by free cells, including adsorption onto alginate matrix and algal cells, absorption within cells and cellular biodegradation. The optimal cell density and bead concentration for the removal and biodegradation of NP was 50-100×10(4) cells algal bead(-1) and 2-4 beads ml(-1) of wastewater, respectively. These results demonstrated that immobilized C. vulgaris cells under optimal biomass and photoautotrophic conditions are effective in removing NP from contaminated water.     

壬基酚对鲫鱼原代肝细胞增殖和抗氧化功能的影响

研究了不同浓度壬基酚对鲫鱼肝细胞增殖和抗氧化系统的影响.结果表明：各试验浓度壬基酚均能抑制鲫鱼肝细胞的增殖,其中高浓度的壬基酚（10^-3 mol·L^-1）对细胞增殖的抑制作用极其显著,肝细胞形态发生明显改变;壬基酚破坏了鲫鱼肝细胞抗氧化系统的平衡,经壬基酚处理后的肝细胞超氧化物歧化酶（SOD）和过氧化氢酶（CAT）的活性均受到抑制,而羟自由基的含量升高;壬基酚对原代鲫鱼肝细胞造成氧化损伤,引起培养液中丙二醛（MDA）含量升高.壬基酚诱导的氧化胁迫对原代鲫鱼肝细胞产生了一系列的体外毒性效应.     

Aerobic biodegradation of nonylphenol by cold-adapted bacteria

Three strains capable of mineralizing nonylphenol as sole carbon source were isolated from a sample of contaminated soil and characterized as two Pseudomonas spp. and a Stenotrophomonas sp. The two Pseudomonas spp. expressed characteristics typical of psychrophiles growing optimally of 10 °C and capable of growing at 0 °C. The Stenotrophomonas sp. was more likely psychrotrophic because it had an optimal temperature between 14 and 22 °C although it was not capable of growing at 4 °C. At 14 °C, one of the Pseudomonas spp. exhibited the highest rate of degradation of nonylphenol (4.4 mg l^–1 d^–1), when compared with axenic or mixed cultures of the isolates. This study represents, to the best of our knowledge, the first reported case of cold-adapted microorganisms capable of mineralizing nonylphenol.     

Biodegradation of nonylphenol in a continuous packed-bed bioreactor

A packed bed bioreactor, with 170 ml glass bead carriers and 130 ml medium, was tested for the removal of the endocrine disrupter, nonylphenol, with a Sphingomonas sp. The bioreactor was first continuously fed with medium saturated with nonylphenol in an attempt to simulate groundwater pollution. At best, nonylphenol was degraded by 99.5% at a feeding rate of 69 ml h^–1 and a removal rate of 4.3 mg nonylphenol day^–1, resulting in a 7.5-fold decrease in effluent toxicity according to the Microtox. The bioreactor was then fed with soil leachates at 69 ml h^–1 from artificially contaminated soil (1 g nonylphenol kg^–1 soil) and a real contaminated soil (0.19 g nonylphenol kg^–1 soil). Nonylphenol was always completely removed from the leachates of the two soils. It was removed by 99% from the artificial soil but only 62% from real contaminated soil after 18 and 20 d of treatment, respectively, showing limitation due to nonylphenol adsorption.     

Effect of nonylphenol on growth of Neurospora crassa and Candida albicans.

The effects of the nonionic surfactant nonylphenol on the growth and morphologies of the filamentous fungus Neurospora crassa and the diploid yeast Candida albicans have been examined. Nonylphenol inhibited respiration and growth of N. crassa, effecting a 10-fold decrease in organism yield at 25 microM. Severe morphological defects were also induced: cell shape was abnormal and apical dominance was lost. Nonylphenol monoethoxylate (the parent compound of nonylphenol) was a less potent growth inhibitor and morphogen. The growth of the yeast form of C. albicans was sensitive to nonylphenol (inducing an order of magnitude decrease in specific growth rate with a 10-fold increase in dose concentration) but not nonylphenol monoethoxylate. Similarly, C. albicans ATP content was reduced and glucose-induced extracellular acidification was inhibited only by nonylphenol. Although estrogens may induce the dimorphic transition of C. albicans, nonylphenol (as an environmental estrogen mimic) failed to trigger germ tube formation under nonpermissive conditions and inhibited it under permissive conditions. The effects of nonylphenol are most readily explained as the result of uncoupling of respiration, which produces multiple physiological effects.     

Trypanosoma theileri: In vitro cultivation in tsetse fly and vertebrate cell culture systems

Epimastigote forms of Trypanosoma theileri were grown at 25°C in insect cell culture media and in Glossina tissue cultures for more than 6 months. Doubling times of 10–14 h during exponential growth were observed. In cell cultures which had been derived from pupal tsetse flies growth rates were higher than in cell free media; in a larval cell line, however, growth of T. theileri was inhibited. Ecdysteroids and juvenile hormone I reduced multiplication of T. theileri in cell free media. When T. theileri was incubated in different sera only fetal calf serum (FCS) supported growth. Epimastigote forms transformed into trypomastigote bloodforms when cultured at 37°C in FCS, vertebrate cell cultures, and Eagle's medium, but not in insect media or Glossina cell cultures. Oxygen uptake of epimastigotes could be inhibited by rotenone antimycin A and cyanide; trypomastigotes were not affected by these inhibitors.     

Cyclodextrin-linked alginate beads as supporting materials for Sphingomonas cloacae, a nonylphenol degrading bacteria

Calcium alginate beads covalently linked with alpha-cyclodextrin (alpha-CD-alginate beads) were prepared and examined for their ability to serve as a supporting matrix for bacterial degradation of nonylphenol, an endocrine disruptor. Column chromatographic experiment using alpha-CD-alginate beads with diameter of 657+/-82 microm and with degree of CD substitution of 0.16 showed a strong affinity for nonylphenol adsorption. Although addition of alpha-CD (2.7-27 mM) to the culture broth of Sphingomonas cloacae retarded nonylphenol degradation, the immobilized bacteria on the CD-alginate beads were effective for the degradation. Batch degradation tests using the immobilized bacteria on alpha-CD-alginate-beads showed 46% nonylphenol recovery after 10-day incubation at 25+/-2 degrees C, and the recovery reached to about 17% when wide and shallow incubation tubes were used to facilitate uptake of the viscous liquid of nonylphenol on the surface of the medium. Scanning electron microscopic photographs revealed that multiplicated bacteria was present both on the surface and inside the beads and the matrix of CD-alginate was stable and suitable during 10-day incubation.     

Short-term exposure to nonylphenol induces pancreatic oxidative stress and alters liver glucose metabolism in adult female rats

Nonylphenol is known to have estrogenic properties and has been reported to cause health hazards to animals and humans. The effects of nonylphenol on pancreas are not clearly elucidated. In this study, we sought to evaluate the effects of nonylphenol on the oxidative status of pancreas and consequential effects of nonylphenol on some of the end points of carbohydrate metabolism in the female rats. Rats were administered nonylphenol orally at the doses of 1.5, 15, and 150 mg/kg of body weight per day for 7 days. After 24 h of last dosing, the animals were sacrificed by cervical dislocation. The activities of pancreatic superoxide dismutase and catalase were significantly decreased with a concomitant increase in the levels of H2O2 and lipid peroxidation. Nonylphenol increased plasma insulin levels with a concomitant decrease in the levels of plasma glucose as compared to the control groups of rats. A dose-dependent increase in the activities of liver hexokinase and phosphofructokinase was recorded along with decreased activity of glycogen phosphorylase in liver. Western blot analysis revealed a significant decrease in the levels of GLUT-2. These results show that nonylphenol causes oxidative stress in pancreas and impairs liver glucose homeostasis.     

Endocrine-disrupting effects of nonylphenol in the newt, Triturus carnifex (Amphibia, Urodela)

The aim of our study was to verify whether environmental concentrations of nonylphenol influenced the adrenal gland of Triturus carnifex. Newts were exposed to 19 μg/L nominal concentration of nonylphenol throughout the periods of December-January and March-April, corresponding to different stages of the chromaffin cell functional cycle. The morphological features of the steroidogenic and chromaffin tissues, and the serum levels of ACTH, aldosterone, corticosterone, norepinephrine and epinephrine were evaluated. Nonylphenol did not influence ACTH serum levels. During the two periods examined, the steroidogenic tissue had the same reaction: the quantity of cytoplasmic lipids, and the corticosteroid serum levels, decreased, suggesting the inhibition of synthesis and release of corticosteroids. During the two periods examined, the chromaffin tissue reacted differently to nonylphenol. During December-January, the numeric ratio of norepinephrine granules to epinephrine granules, and the epinephrine serum levels, increased, suggesting the stimulation of epinephrine release. During March-April, the numeric ratio of norepinephrine granules to epinephrine granules did not change, and the norepinephrine serum levels decreased, suggesting the inhibition of norepinephrine release. Our results show that nonylphenol influences the activity of the newt adrenal gland; considering the physiological role of this gland, our results suggest that nonylphenol may contribute to amphibian decline.     

The ability of white-rot fungi to degrade the endocrine-disrupting compound nonylphenol

Phanerochaete chrysosporium, Pleurotus ostreatus, Trametes versicolor and Bjerkandera sp. BOL13 were tested for their ability to degrade the endocrine-disrupting compound nonylphenol at an initial concentration of 100 mg l^–1. The highest removals were achieved with T. versicolor and Bjerkandera sp. BOL13, which were able to degrade 97 mg l^–1 and 99 mg l^–1 of nonylphenol in 25 days of incubation, respectively. Nonylphenol removal was associated with the production of laccase by T. versicolor, but the levels of laccase, manganese peroxidase and lignin peroxidase produced by Bjerkandera sp. BOL13 were very low. At 14°C, T. versicolor and Bjerkandera sp. BOL13 sustained the removal of 88 mg l^–1 and 79 mg l^–1 of nonylphenol, respectively. No pollutant removal was recorded at 4°C, although both fungi could grow at this temperature in the absence of nonylphenol. A microtoxicity assay showed that the fungi produced compounds that were toxic to Vibrio fischerii; and thus a reduction in toxicity could not be correlated with nonylphenol metabolism. T. versicolor and Bjerkandera sp. BOL13 were capable of colonizing soil artificially contaminated with 430 mg kg^–1 of nonylphenol. Only 1.3±0.1% of nonylphenol remained in the soil after 5 weeks of incubation.     

Eosinophil differentiation in response to Fasciola hepatica and its excretory/secretory antigens

Bone marrow cells from mice infected with Fasciola hepatica, from mice injected with F. hepatica excretory/secretory (ES) antigens, and from uninfected or uninjected control animals were cultured in the presence of F. hepatica ES antigens or the eosinophil differentiation cytokine IL-5. Eosinophil maturation in cultures was assessed quantitatively by measuring eosinophil peroxidase (EPO) activity and qualitatively by visual appraisal in stained preparations over a week. It was found that the presence in all cultures (including those from control animals) of either ES antigens at an optimal concentration of 100 μml⁻¹ (established in preliminary trials) or IL-5 at 500 units ml⁻¹ led to enhanced EPO activity. EPO activity in cultures without IL-5 or ES antigens remained static or fell over the culture period. At day 3 in all cultures containing IL-5 or ES antigens, there was maintenance of, or only a slight decline in, the number of eosinophils that were present when cultures were initiated, and more of them were mature than at day 0 as evidenced by their EPO activity. However, there was a marked fall in eosinophil numbers in all cultures in the absence of IL-5 or ES antigens. The results indicate that F. hepatica ES antigens, like IL-5, stimulate eosinophil maturation in bone marrow with a consequent rise in EPO activity in the cells. Whether the antigen(s) acts directly or indirectly on the eosinophils or their precursors has yet to be established. Nevertheless, it seems clear that F. hepatica produces a molecule with a functionally similar effect to that of IL-5.     

Cloning and production of Xylanase B from Paenibacillus barcinonensis in Bacillus subtilis hosts

Xylanase B from Paenibacillus barcinonensis was cloned in shuttle vectors for Escherichia coli and Bacillus subtilis, and expressed in Bacillus hosts. Several recombinant strains were constructed, among which B. subtilis MW15/pRBSPOX20 showed the highest production. This recombinant strain consists of a protease double mutant host containing P. barcinonensis xynB gene under the control of a phage SPO2 strong promoter. Maximum production was found when the strain was cultured in nutrient broth supplemented with xylans. Analysis of xylanase B location in B. subtilis MW15/pRBSPOX20 showed that the enzyme remained cell-associated in young cultures, consistent with its intracellular location in its original host, P. barcinonensis, and the lack of a signal peptide. However, when cultures reached the stationary phase, xylanase B was released to the external medium as a result of cell lysis. The amount of enzyme located in the supernatants of old cultures could account for 50% of total xylanase activity. Analysis by SDS-PAGE showed that xylanase B is an abundant protein found in the culture medium in late stationary phase cultures.     

Use of culture filtrates of Ceratocystis ulmi as a bioassay to screen for disease tolerant Ulmus americana

Cullus cultures of elm (Ulmus americana L.) derived from Dutch elm disease susceptible, intermediate-resistant, and resistant genotypes were exposed to the culture filtrates of three patogenic isolates of Ceratocystis ulmi, the causal agent of Dutch elm disease. Callus fresh weights, cell viability, and reactions of stem cuttings were determined after exposure to various concentrations of the filtrates. Calli from the susceptible elm failed to increase in fresh weight and lost viability after exposure to media containing culture filtrate. Calli from the resistant and the intermediate-resistant elms exhibited growth rates and maintained viability similar to controls not exposed to culture filtrate. Stem cuttings of the susceptible elm wilted after exposure to the culture filtrate. The symptoms were similar to wilt seen with the disease. Cuttings from the resistant elm had no disease symptoms whereas, the intermediate elm had some leaf chlorosis. Callus screening may thus be useful for selection of Ulmus germplasm for Dutch elm disease resistance.     

Production of erythropoietic cells in vitro for continuous culture of Plasmodium vivax

Plasmodium vivax cannot be maintained in a continuous culture. To overcome this major obstacle to P. vivax research, we have developed an in vitro method to produce susceptible red blood cell (RBC) precursors from freshly isolated human cord hematopoietic stem cells (HSCs), which were activated with erythropoietin to differentiate into erythroid cells. Differentiation and maturation of erythroid cells were monitored using cell surface markers (CD71, CD36, GPA and Fy6). Duffy⁺ reticulocytes appeared after 10 days of erythroid cell culture and exponentially increased to high numbers on days 14–16. Beginning on day 10 these erythroid cells, referred to as growing RBCs (gRBCs), were co-cultured with P. vivax-infected blood directly isolated from patients. Parasite-infected gRBCs were detected by Giemsa staining and a P. vivax-specific immunofluorescence assay in 11 out of 14 P. vivax isolates. These P. vivax cultures were continuously maintained for more than 2 weeks by supplying fresh gRBCs; one was maintained for 85 days before discontinuing the culture. Our results demonstrate that gRBCs derived in vitro from HSCs can provide susceptible Duffy⁺ reticulocytes for continuous culture of P. vivax. Of particular interest, we discovered that parasites were able to invade nucleated erythroid cells or erythroblasts that are normally in the bone marrow. The possibility that P. vivax causes erythroblast destruction and hence inflammation in the bone marrow needs to be addressed.     

Metabolic pathway of xenoestrogenic short ethoxy chain-nonylphenol to nonylphenol by aerobic bacteria, Ensifer sp. strain AS08 and Pseudomonas sp. strain AS90

Ensifer sp. strain AS08 and Pseudomonas sp. strain AS90 degrading short ethoxy (EO) chain-nonylphenol (NP) [NPEO_av2.0 containing NP mono- ∼ tetraethoxylates (NP1EO ∼ NP4EO); average 2.0 EO units] were isolated by enrichment cultures. Both strains grew on NP but not on octyl- and nonylphenol polyethoxylates (NPEOs) (average 10 EO units). Growth and degradation of NPEO_av2.0 was increased with increased concentrations of yeast extract (0.02–0.5%) in a culture medium. Culture supernatants of both strains grown on NPEO_av2.0 were analyzed by high-performance liquid chromatography, showing degradation of NP4EO–NP1EO. The metabolites from nonylphenol diethoxylate (NP2EO) by resting cells of both strains were identified by gas chromatography–mass spectrometry as nonylphenoxyethoxyacetic acid, NP1EO, nonylphenoxyacetic acid (NP1EC), and NP, while those from NP1EO were identified as NP1EC and NP. Cell-free extracts from strain AS08 grown on NPEO_av2.0 dehydrogenated NPEOs, NPEO_av2.0, NP2EO, NP1EO, and PEG 400, but the extracts were inactive toward di- ∼ tetraethylene glycol. Aldehydes were formed in the reaction mixture of each substrate with cell-free extracts. From these results, the aerobic metabolic pathway for short EO chain-NP is proposed: A terminal alcohol group of the EO chain is oxidized to a carboxylic acid via an aldehyde, and then one EO unit is removed. This process is repeated until NP is produced.English edition: The paper was edited by a native speaker through KN international ()     

The endocrine disruptor nonylphenol preferentially blocks cyclooxygenase-1

The anthropogenic chemicals nonylphenol, bisphenol A, phthalic acid benzyl n-butyl ester, phthalic acid di-n-butyl ester and phthalic acid di(2-ethylhexyl) ester have been shown to possess sex hormone-like activity. To explore the possible actions of these chemicals on the autacoid synthesis in the body, we investigated the effects of nonylphenol, bisphenol A, phthalic acid benzyl n-butyl ester, phthalic acid di-n-butyl ester and phthalic acid di(2-ethylhexyl) ester on the activities of cyclooxygenase-1 and -2. Bisphenol A and all three phthalic acid derivatives had no significant effect on the cyclooxygenase-1 and -2 activities up to 100 microM. On the other hand, nonylphenol exhibited a marked inhibition on the cyclooxygenase-1 activity (10-100 microM nonylphenol, 7-95% inhibition), with no detectable change in the activity of cyclooxygenase-2. The inhibition patterns for the substrate, arachidonic acid, and a cofactor, phenol, were competitive and uncompetitive, respectively. These results suggest that nonylphenol can be a selective inhibitor of cyclooxygenase-1 activity.     

Biodegradation of nonylphenol in a continuous bioreactor at low temperatures and effects on the microbial population

A packed-bed bioreactor inoculated with a mixed culture obtained from a contaminated site was used to continuously treat a saturated solution of nonylphenol. The reactor was operated at feeding rates of 13–112 ml h⁻¹ and temperatures of 5.5, 10, and 15°C. Optimal bioreactor performance was achieved at 10°C and at a feeding rate of 84 ml h⁻¹ (with a removal rate of 43 mg l⁻¹ day⁻¹ of nonylphenol). No endocrine activity was observed in the effluent of the bioreactor at any of the temperatures tested, and the only metabolic products found were branched carboxylic acids and alkanes (lacking an aromatic ring). The study of the microbial populations in the biofilm at the three temperatures tested using fluorescence in situ hybridization showed that all the bacterial species that could be identified belonged to the phylum Proteobacteria. The most abundant class identified at all three temperatures was β-Proteobacteria. The proportions of bacteria that bound to the specific probes among the total population, identified with the bacterial probe EUB338MIX, were 60, 43, and 24% at 15, 10, and 5.5°C, respectively.     

Developmental profiles of glial enzymes in the chick embryo: In vivo and in culture

The activities of two glial cell enzymes, glutamine synthetase (a marker for astrocytes) and 2′,3′-cyclic nucleotide 3′-phosphohydrolase (a marker for oligodendrocytes and myelination) were studied in the developing chick embryo brain in vivo and in cultures derived from chick embryos. The in vivo findings showed that the activities of both enzymes parallel the patterns of gliogenesis and myelination. Glutamine synthetase follows similar patterns in culture and in vivo, whereas the developmental profile of 2′,3′-cyclic nucleotide 3′-phosphohydrolase appears to be affected by the culture conditions.