Inhalation toxicity of soman vapor in non-anesthetized rats: A preliminary assessment of inhaled bronchodilator or steroid therapy

Respiratory toxicity, injury and treatment following vapor inhalational exposure to the chemical warfare nerve agent (CWNA) soman (GD) were examined in non-anesthetized rats. This study exposed male Sprague–Dawley rats (250–300 g) to 520, 560, 600, 825 or 1410 mg × min/m³ of soman in a customized head-out inhalation system. Signs of CWNA-induced cholinergic crises were observed in all soman-exposed animals. The LCt50 of vaporized soman as determined by probit analysis was 593.1 mg × min/m³. All animals exposed to 825 and 1410 mg × min/m³ developed severe convulsions and died within 4–8 min post-exposure. Edema measured by wet/dry weight ratio of the left lung lobe increased in a dose-dependent manner in all soman-exposed animals. Bronchoalveolar lavage (BAL) fluid and blood acetylcholinesterase (AChE) activities were inhibited dose-dependently in soman-exposed groups at 24 h. A significant increase in total BAL protein was observed in soman-exposed animals at all doses. AChE activity was inhibited in lung and whole brain tissues in all soman-exposed animals. Histopathological analysis of the lungs of animals exposed to 600 mg × min/m³ of soman revealed prominent morphological changes including alveolar histiocytosis, hemorrhage and inflammation consisting of neutrophilic exudate. Exposure of animals to 600 mg × min/m³ of soman followed by treatment with two actuations for 10 s of Combivent (21 μg of ipratropium bromide and 120 μg of albuterol sulfate) and Symbicort (80 μg budesonide and 4.5 μg formoterol) by inhalation into a modified metered dose inhaler (MDI) 10 min post-exposure resulted in increased minute volume, but did not decrease mortality. These results indicate that inhalation exposure to soman vapor causes acute respiratory toxicity and injury in untreated, un-anesthetized rats and that inhalation treatment with Combivent or Symbicort did improve the respiratory outcomes, but did not influence lethality.     

Preventive effects of phenoxybenzamine on nitrous oxide-induced reproductive toxicity in Sprague-Dawley rats

In previous studies, we have shown that the reproductive toxicity of N2O in rats is prevented by the co-administration of either halothane or isoflurane, whereas treatment with folinic acid, which should reverse the effects of N2O on DNA production, does not prevent toxicity. These results cast doubt on the commonly held theory that inactivation of methionine synthase is the sole cause of N2O-induced reproductive toxicity, and suggest the need for other hypotheses. One such possibility is that N2O causes adverse reproductive toxicity secondary to its sympathomimetic effects. As a first step to test this theory, we studied the effects of phenoxybenzamine (PX), an alpha-1 adrenergic antagonist, on N2O-induced reproductive toxicity using a well-established in vivo rat model. On day 8 of gestation (plug day = day 0), 130 timed-pregnant Sprague-Dawley rats were injected s.c. with either 0.5 ml of either 0.9% saline (control and N2O alone groups) or PX (0.5, 5, or 50 micrograms/kg) in 0.9% saline, the latter the maximum tolerated PX dose. They were then exposed to either air (control) or 60% N2O for 24 hours (all other groups). On day 20 of gestation, cesarean sections were performed and the fetuses were removed and examined for either visceral of skeletal abnormalities. Compared with control, treatment with N2O alone resulted in increased incidences of fetal resorptions, major and minor visceral abnormalities, and minor skeletal abnormalities.(ABSTRACT TRUNCATED AT 250 WORDS)     

Microcystis aeruginosa toxin: cell culture toxicity, hemolysis, and mutagenicity assays.

Crude toxin was prepared by lyophilization and extraction of toxic Microcystis aeruginosa from four natural sources and a unicellular laboratory culture. The responses of cultures of liver (Mahlavu and PCL/PRF/5), lung (MRC-5), cervix (HeLa), ovary (CHO-K1), and kidney (BGM, MA-104, and Vero) cell lines to these preparations did not differ significantly from one another, indicating that toxicity was not specific for liver cells. The results of a trypan blue staining test showed that the toxin disrupted cell membrane permeability within a few minutes. Human, mouse, rat, sheep, and Muscovy duck erythrocytes were also lysed within a few minutes. Hemolysis was temperature dependent, and the reaction seemed to follow first-order kinetics. Escherichia coli, Streptococcus faecalis, and Tetrahymena pyriformis were not significantly affected by the toxin. The toxin yielded negative results in Ames/Salmonella mutagenicity assays. Microtiter cell culture, trypan blue, and hemolysis assays for Microcystis toxin are described. The effect of the toxin on mammalian cell cultures was characterized by extensive disintegration of cells and was distinguishable from the effects of E. coli enterotoxin, toxic chemicals, and pesticides. A possible reason for the acute lethal effect of Microcystis toxin, based on cytolytic activity, is discussed.     

The dynamic assessment of toxicity and pathological process of DEHP in germ cells of male Sprague Dawley rats

Di-(2-ethylhexyl) phthalate is representative of Phthalate esters (PAEs), which is one of the most widely used plasticizer and known to act as a reproductive toxicant. However, little is known about the toxicity and pathological process of DEHP exposure in male reproductive system in terms of different concentrations and time points. In this study, peripubertal male Sprague Dawley rats were continually exposed to different DEHP doses (100 mg/kg, 500 mg/kg, and 900 mg/kg) and periods (7 days, 14 days, 21 days, 28 days, and 35 days) during critical periods for sexual maturity. The reproductive parameters have been investigated, including testicular morphology, serum testosterone level, and testicular P450scc, 3β-HSD, and PCYP17 levels. We observed disarrangement of testicular spermatogenic epithelium coupled with decrease of serum testosterone, testicular P450scc, 3β-HSD, and PCYP17 levels, and these changes were more obvious with increase of both the exposure time and dosage. Then trend of the time-dose response to DEHP exposure and the pathological process in germ cells were estimated. The results of this study suggested that DEHP exposure could affect the male reproductive system and the degree of adverse effect depended on the dose and extent of exposure.     

Microcystis aeruginosa toxin: cell culture toxicity, hemolysis, and mutagenicity assays

Crude toxin was prepared by lyophilization and extraction of toxic Microcystis aeruginosa from four natural sources and a unicellular laboratory culture. The responses of cultures of liver (Mahlavu and PCL/PRF/5), lung (MRC-5), cervix (HeLa), ovary (CHO-K1), and kidney (BGM, MA-104, and Vero) cell lines to these preparations did not differ significantly from one another, indicating that toxicity was not specific for liver cells. The results of a trypan blue staining test showed that the toxin disrupted cell membrane permeability within a few minutes. Human, mouse, rat, sheep, and Muscovy duck erythrocytes were also lysed within a few minutes. Hemolysis was temperature dependent, and the reaction seemed to follow first-order kinetics. Escherichia coli, Streptococcus faecalis, and Tetrahymena pyriformis were not significantly affected by the toxin. The toxin yielded negative results in Ames/Salmonella mutagenicity assays. Microtiter cell culture, trypan blue, and hemolysis assays for Microcystis toxin are described. The effect of the toxin on mammalian cell cultures was characterized by extensive disintegration of cells and was distinguishable from the effects of E. coli enterotoxin, toxic chemicals, and pesticides. A possible reason for the acute lethal effect of Microcystis toxin, based on cytolytic activity, is discussed.     

Multigeneration reproductive toxicity assessment of 60-Hz magnetic fields using a continuous breeding protocol in rats

Male and female reproductive functions have been proposed as possibly sensitive targets for the biological effects of 60-Hz (power frequency) magnetic fields (MF). However, experimental data relevant to this hypothesized association are very limited. In the present study, the "reproductive assessment by continuous breeding" design was used to identify possible effects of MF exposure on reproductive performance, fetal development, and early postnatal growth in rats. Groups of age-matched Sprague-Dawley rats (40 breeding pairs/group) were exposed continuously (18.5 hr per day) to linearly polarized, transient-free 60-Hz MF at field strengths of 0 Gauss (G; sham control), 0.02 G, 2.0 G, or 10.0 G. An additional group of 40 breeding pairs received intermittent (1 hr on/1 hr off) exposure to 10.0 G fields. F0 breeding pairs were exposed to MF or sham fields for 1 week prior to mating, during a 14-week period of cohabitation, and during a 3-week holding period after cohabitation. The duration of the cohabitation period was selected to be sufficient for the delivery of five litters in the sham control group. Pups from the final F1 litter from each breeding pair were exposed to MF or sham fields until sexual maturity, were cohabitated in MF or sham fields for 7 days with nonsiblings from the same exposure group, and were held in the MF or sham fields for 22 days to permit delivery of F2 pups for evaluation. No evidence of exposure-related toxicity was identified in any rat in the F0, F1, or F2 generations. Fetal viability and body weights in all litters of groups exposed to MF were comparable to those of sham controls. No significant differences between sham controls and MF-exposed groups were seen in any measure of reproductive performance (litters/breeding pair, percent fertile pairs, latency to parturition, litter size, or sex ratio) in either the F0 or F1 generation. Exposure of Sprague-Dawley rats to 60-Hz MF strengths of up to 10.0 G either during their peak reproductive period (F0) or during gestation and throughout their life span (F1) has no biologically significant effects on reproductive performance. These results do not support the hypothesis that exposure to pure, linearly polarized 60-Hz MF is a significant reproductive or developmental toxicant.     

Infertility observed in reproductive toxicity study of N-acetyl-L-cysteine in rats

The toxic effects of i.v. administration of N-acetyl-l-cysteine (NAC), a component of parenteral nutrition solutions, on fertility and embryonic development were investigated in SD male and female rats at doses of 100, 300, and 1000 mg kg-1 day-1. Infertility was observed in females in the 1000-mg/kg group throughout the period from before mating to embryogenesis. No effect of NAC on the reproductive ability of the male rats was seen. The oocytes and embryos were assessed morphologically to clarify the cause of the effects of NAC. The unfertilized oocytes (UO) recovered from the ampullae of the uterine tubes and Gestational Day (GD) 1 and 2 embryos recovered from the oviducts or uterus of the rats that received NAC i.v. at a dosage of 1000 mg kg-1 day-1 for more than 1 wk before mating were assessed morphologically by stereomicroscopy. In addition, the thickness of the zona pellucida (ZP) was calculated by morphometric evaluation of the UO. Fewer UO were collected in the NAC group than in the control (nontreatment) group. Interestingly, ZP-lacking or partially ZP-lacking oocytes were observed in the NAC group, and the morphometric evaluation of the UO showed thinning of the ZP. The number of embryos in each animal was markedly decreased on GD1, and no embryos were recovered on GD2 in the NAC group. The oocytes that had ZP affected by NAC treatment were abnormal or nonviable. The findings of the present study suggest that changes in the ZP are related to the infertility associated with NAC.     

Spirulina ameliorates arsenic induced reproductive toxicity in male rats

Spirulina (Spirulina platensis), has numerous health benefits including antioxidant, immunomodulatory, and anti-inflammatory activities, works against heavy metal toxicity, and is often used as a food supplement in human, animals, birds and fishes. This study aimed to evaluate the protective ability of the dietary spirulina against the toxic effects of inorganic arsenic (iAs) on male reproductive parameters in rats. Seventy-two mature Long-Evans male rats, dividing into six groups (T0, T1, T2, T3, T4 and T5) (12 rats/group) were included in this study. The T3, T4 and T5 group rats were treated with three consecutive doses (1.0 g, 1.5 g and 2.0 g/kg feed) of spirulina in feed along with 3.0 mg NaAsO₂/kg body weight (BW) in drinking water (DW) daily for 90 days. Each rat of group T1 received NaAsO₂ (3.0 mg/kg BW) in DW, and those of T2 group were fed with spirulina (2.0 g/kg feed) daily for 90 days. The rats of group T0 served as the control with normal feed and water. Total arsenic (tAs) contents, reproductive parameters (testicular weight, sperm motility and morphology), and histological changes in the testicles were evaluated in these rats. Arsenic dosing significantly (p=0.003, Kruskal-Wallis test) increased the tAs contents in the testicles, decreased testes weight, sperm morphology and motility compared to the controls. The effect of arsenic dosing was also evidenced by the histological changes like decreased germinal layers in the seminiferous tubules of the treated rats. Moreover, dietary spirulina (2.0 g/kg feed) supplementation significantly (p=0.011, Kruskal-Wallis test) lowered tAs contents in testicles and increases testes weights, sperm motility and morphology. Therefore, spirulina can be used as an effective dietary supplement to ameliorate the adverse effects of arsenic induced reproductive toxicities. However, further study is required to elucidate the underlying molecular mechanisms of reduction of arsenic induced reproductive toxicity by spirulina.     

Celery oil modulates DEHP-induced reproductive toxicity in male rats

The objective of the study was to investigate the protective effect of Apium graveolens (AP) against di-(2-ethylhexyl) phthalate (DEHP)-induced testes injury in rats. Adult rats were divided into nine groups: (1) control group (no treatment); (2) corn oil (60 μg/kg body weight – bwt); (3) AP (50 μg/kg bwt); (4) 300 mg DEHP/kg bwt; (5) 500 mg DEHP/kg bwt; (6) 1000 mg DEHP/kg bwt; (7) 300 mg DEHP/kg bwt + AP; (8) 500 mg DEHP/kg bwt + AP; and (9) 1000 mg DEHP/kg bwt + AP. Oral administration of treatments was performed daily for 6 weeks. DEHP decreased (p < 0.01) body weight, testis weight and serum concentrations of testosterone, cholesterol and total proteins. Moreover, DEHP increased (p < 0.001) total antioxidant capacity in the testis and plasma DEHP level. In addition, DEHP decreased mRNA expression of two testicular steroidogenic enzymes: 3β-hydroxysteroid dehydrogenase and 17β-hydroxysteroid dehydrogenase. DEHP also caused atrophy, vacuolar degeneration and aspermia of the seminiferous tubules. AP administered concurrently with DEHP effectively alleviated most of the DEHP-induced effects. In conclusion, in male rats, DEHP had adverse effects on the testis including inhibition of androgen production. A concurrent administration of A. graveolens (celery oil) protected the testis against DEHP-induced toxicity.     

Apium graveolens modulates sodium valproate-induced reproductive toxicity in rats

Sodium valproate (VPA), a common treatment of epilepsy and other diseases, is known to have severe toxic effects on testis both in experimental animals and in humans. The present study was designed to investigate the protective effect of Apium graveolens (AG) against the VPA-induced testis injury. Testicular toxicity was induced by the administration of VPA (500 mg/kg/day) once daily for 7 consecutive days. Protective group received daily doses (200 mg/kg/day) of AG crude extract for 23 days prior to VPA administration. VPA-induced reproductive toxicity was assessed based on the weight of testes, sperm analysis, and serum concentrations of sexual hormones. The relative weights of testes and epididymes and the sperm numbers viability were all decreased following the valproate administration. Testosterone levels dropped while follicle stimulating hormone (FSH) level increased following the drug administration. Severe histopathological changes in testis were observed such as degeneration of seminiferous tubules and depletion of germ cells. These biochemical and histological changes were also associated with alterations of oxidative stress markers. Levels of malondialdehyde have increased, while superoxide dismutase activity has decreased. Pretreatment with A. graveolens extract has effectively alleviated most of the VPA-induced effects suggesting a protective role of A. graveolens extract against experimental VPA-induced toxicity. Apigenin content was estimated and was shown as a major fraction of the A. graveolens extract.     

Juvenile toxicity assessment of open-acid lovastatin in rats

BACKGROUND: Lovastatin, an inhibitor of 3‐hydroxy‐3‐methylglutaryl‐coenzyme A reductase, reduces de novo cholesterol biosynthesis primarily in the liver. Since cholesterol is a major component of brain myelin and peak periods of brain myelination occurs after birth, this study was designed to encompass this period in rats and evaluate the potential neurotoxic effects. METHODS: The pharmacologically active, open‐acid form of lovastatin was administered to groups of 50 Sprague–Dawley rats per sex subcutaneously once daily at dose levels of 0 (vehicle), 2.5, 5, or 10 mg/kg/day beginning on postnatal day 4 and continuing until termination on postnatal day 41 to 51. Physical signs and body weights were monitored during the study. Animals were assessed in a battery of behavioral tests, and at termination a set of animals were examined for gross and histological changes. RESULTS: There were no test article‐related deaths, physical signs, or effects on preweaning and postweaning body weights during the study. In the behavior tests there were no test article‐related effects in the passive avoidance, auditory startle habituation, open‐field motor activity, or FOB. No test article‐related postmortem findings were observed, including brain weights and histomorphology of brain, spinal cord, eye, optic nerve, or peripheral nerve. CONCLUSION: Based on these results, the no‐effect level for general and neurobehavioral toxicity in neonatal rats was ≥10 mg/kg/day for open‐acid lovastatin. Birth Defects Res (Part B) 92:314–322, 2011. © 2011 Wiley‐Liss, Inc.     

Neural network assessment of herbal protection against chemotherapeutic-induced reproductive toxicity

The aim of this study is to assess the protective effects of Ginkgo biloba's (GB) extract against chemotherapeutic-induced reproductive toxicity using a data mining tool, namely Neural Network Clustering (NNC) on two types of data: biochemical & fertility indicators and Texture Analysis (TA) parameters. GB extract (1 g/kg/day) was given orally to male albino rats for 26 days. This period began 21 days before a single cisplatin (CIS) intraperitoneal injection (10 mg/kg body weight). GB given orally significantly restored reproductive function. Tested extract also notably reduced the CIS-induced reproductive toxicity, as evidenced by restoring normal morphology of testes. In GB, the attenuation of CIS-induced damage was associated with less apoptotic cell death both in the testicular tissue and in the sperms. CIS-induced alterations of testicular lipid peroxidation were markedly improved by the examined plant extract. NNC has been used for classifying animal groups based on the quantified biochemical & fertility indicators and microscopic image texture parameters extracted by TA. NNC showed the separation of two clusters and the distribution of groups among them in a way that signifies the dose-dependent protective effect of GB. The present study introduces the neural network as a powerful tool to assess both biochemical and histopathological data. We also show here that herbal protection against CIS-induced reproductive toxicity utilizing classic methodologies is validated using neural network analysis.     

噻吩磺隆的毒性及致突变性

选用大鼠、豚鼠及家兔,采用经口及皮肤,粘膜染毒途径,研究其急性毒性。同时有Ames试验,小鼠骨髓嗜多染红细胞微核试验及小鼠睾丸初级精母细胞染色体畸变试验进行致突变性研究,了解噻吩磺隆的毒性及致突变性。大鼠急性经口LD50大于5000mg／kg,经皮LD50大于2000mg／kg。家兔皮肤刺激试验阴性,轻度眼刺激性和弱致敏性。Ames试验,微核试验及小鼠睾丸初级精母细胞染色体畸变试验结果均为阴性。结论 噻吩磺隆属低毒性农药,在本实验条件下无致突变作用。     

Porcine reproductive and respiratory syndrome virus replicates in testicular germ cells, alters spermatogenesis, and induces germ cell death by apoptosis.

Like other arteriviruses, porcine reproductive and respiratory syndrome virus (PRRSV) is shed in semen, a feature that is critical for the venereal transmission of this group of viruses. In spite of its epidemiological importance, little is known of the association of PRRSV or other arteriviruses with gonadal tissues. We experimentally infected a group of boars with PRRSV 12068-96, a virulent field strain. By combined use of in situ hybridization and immunohistochemistry, we detected infection by PRRSV in the testes of these boars. The PRRSV testicular replication in testis centers on two types of cells: (i) epithelial germ cells of the seminiferous tubules, primarily spermatids and spermatocytes, and (ii) macrophages, which are located in the interstitium of the testis. Histopathologically, hypospermatogenesis, formation of multinucleated giant cells (MGCs), and abundant germ cell depletion and death were observed. We obtained evidence that such germ cell death occurs by apoptosis, as determined by a characteristic histologic pattern and evidence of massive DNA fragmentation detected in situ (TUNEL [terminal deoxynucleotidyltransferase-mediated digoxigenin-UTP nick end labeling] assay). Simultaneously with these testicular alterations, we observed that there is a significant increase in the number of immature sperm cells (mainly MGCs, spermatids, and spermatocytes) in the ejaculates of the PRRSV-inoculated boars and that these cells are infected with PRRSV. Our results indicate that PRRSV may infect target cells other than macrophages, that these infected cells can be primarily responsible for the excretion of infectious PRRSV in semen, and that PRRSV induces apoptosis in these germ cells in vivo.