Investigative and Diagnostic Toxicology and Feed-Related Outbreaks

Incidences of feed contamination are rare even though enormous amounts of animal feed are manufactured. However, there are still some cases of feed-related illness in horses. Veterinarians play a crucial role in recognizing and mitigating these events and in assessing the severity of risks. Due to these risks, proper reporting and consultation with government and state agencies are crucial. Accurate diagnosis and identification of the source of poisoning are promising when a thorough case workup is performed and agencies such as veterinary diagnostic laboratories and the US Food and Drug Administration Center for Veterinary Medicine are used effectively.

Investigation of a common canine factor VII deficiency variant in dogs with unexplained bleeding on autopsy

The factor VII (FVII) protein is an integral component of the extrinsic coagulation pathway. Deleterious variants in the gene encoding this protein can result in factor VII deficiency (FVIID), a bleeding disorder characterized by abnormal (slowed) clotting with a wide range of severity, from asymptomatic to life-threatening. In canids, a single FVIID-associated variant, first described in Beagles, has been observed in 24 breeds and mixed-breed dogs. Because this variant is present in breeds of diverse backgrounds, we hypothesized that it could be a contributing factor to unexplained bleeding observed in some canine autopsy cases. DNA was extracted from paraffin-embedded tissue samples from 67 anticoagulant-negative autopsy cases with unexplained etiology for gross lesions of hemorrhage. Each dog was genotyped for the c.407G>A (F71) variant. Experimental controls included 3 known heterozygotes and 2 known homozygotes for the F71 variant, 2 normal dogs with known homozygous wild-type genotypes (F7WF7W), and 5 dogs with bleeding at autopsy that tested positive for anticoagulant rodenticide and were genotyped as F7WF7W. All 67 cases tested homozygous for the wild-type allele, indicating that the common FVIID variant was not responsible for the observed unexplained bleeding. Our work demonstrates the usefulness of retrospective studies utilizing veterinary diagnostic laboratory databases and tissue archives for genetic studies. In the case of FVIID, our results suggest that a singular molecular test for the F71 variant is not a high-yield addition to postmortem screening in these scenarios.

Pathology in Practice

In collaboration with the American College of Veterinary Pathologists.

Atrazine intoxication in cattle, confirmed by gas chromatography-mass spectrometry

Ten of 40 cows died within 48 h of gaining access to a barn in which various chemicals were stored. Some of the surviving cows exhibited drooling, muscle tremors, and agitation. Postmortem examinations of 2 cows were performed in the field, and revealed nonspecific, moderate-to-severe pulmonary congestion. Liver and rumen contents, each from a different cow, were analyzed using a qualitative, multi-residue GC-MS method validated for the detection of pesticides and other chemical analytes. Using this method, extracts from the liver and rumen content samples were compared to atrazine (neat standard) and matrix-matched, control samples fortified with atrazine. GC-MS analysis detected atrazine at 215 m/z (NIST match >97%) with a retention time of ~13 min in liver and rumen content samples from our case. Detection of atrazine in the samples from the cows in this herd, combined with the clinical history, indicate that atrazine toxicity was the likely cause of clinical signs and death observed in this herd.

Commercial and Industrial Chemical Hazards for Ruminants: An Update

Livestock can be exposed to a wide variety of commercial or industrial chemicals that have variable toxicity. Adverse effects can be due to acute or chronic illnesses and deaths or due to contamination of meat or milk intended for human consumption. A diagnosis can be challenging in the absence of a known exposure. It is critical that a complete evaluation be conducted and appropriate samples be collected for possible analysis. Appropriate experts and regulatory agencies should be consulted as soon as possible to avoid potential contaminated animal products reaching consumers.

Chronic copper toxicosis in a crossbred heifer calf

An 8-mo-old, crossbred, heifer calf was presented to the Heeke Animal Disease Diagnostic Laboratory with a history of ataxia and altered mentation. Grossly, the liver was diffusely yellow-orange, turgid, and exuded watery, thin blood on cut section. The cortex and medulla in both kidneys were diffusely and markedly dark brown to black. The urinary bladder was filled with dark red urine. Histologically, centrilobular hepatocellular degeneration was observed, but these sections lacked necrosis. In the kidney, numerous cortical tubules contained intraluminal bright eosinophilic fluid and red-orange granular casts that stained positive for hemoglobin with the Dunn-Thompson method. The gross and histologic lesions supported a high level of suspicion for copper toxicosis. Feed and water samples from the farm were submitted for mineral analysis. The copper concentration in the feed was 118 mg/kg, and the molybdenum concentration was 0.9 mg/kg. Chronic copper toxicosis is rarely reported in cattle. The gross lesions in our case are a departure from, although similar to, previously reported cases, including lack of histologic hepatocellular necrosis. Collectively, gross and histologic lesions were compatible with copper toxicosis in this calf, and copper concentrations in the feed samples suggest a feed-mixing error.

Investigative Diagnostic Toxicology and the Role of the Veterinarian in Pet Food-Related Outbreaks: An Update

Although most commercial pet foods are safe, there have been a few instances in which chemical or bacterial contamination have caused outbreaks of illness in animals. Because of concerns regarding cases of contaminated commercial pet food that have been reported over the past several years, some pet owners may be choosing to feed noncommercial, home-prepared diets. When pet food contamination is suspected, pet owners often seek advice from their veterinarian regarding its health impact and subsequent diagnosis. This article addresses the role of the veterinarians in pet food contamination and highlights recommended approaches to handling pet food outbreaks or recalls.

Radiation Emergencies: Dogs and Cats

Exposure of dogs and cats to clinically significant amounts of ionizing radiation is unlikely. However, accidental release of radiation has occurred and nuclear terrorism is possible. If an incident occurs, early reaction will be by first responders, followed by state and federal emergency personnel. It is possible that veterinarians will be called upon to assist to evaluate animals for contamination and/or exposure, perform initial lifesaving tasks, and decontaminate people's pets. Therefore, veterinary professionals should understand radiation exposure, what is happening, the possible effects on animals, and how to provide veterinary care and assistance in a radiation emergency.

Hepatic Gene Expression Changes in Mice Associated with Prolonged Sublethal Microcystin Exposure

Microcystin-LR (MCLR) is an acute hepatotoxicant and suspected carcinogen. Previous chronic studies have individually described hepatic morphologic changes, or alterations in the cytoskeleton, cell signaling or redox pathways. The objective of this study was to characterize chronic effects of MCLR in wild-type mice utilizing gene array analysis, morphology, and plasma chemistries. MCLR was given daily for up to 28 days. RNA from the 28-day study was hybridized onto mouse genechip arrays. RNA from 4 hours, 24 hours, 4 days, 1 day, and 28 days for selected genes was processed for quantitative-PCR. Increases in plasma hepatic enzyme activities and decreases in total protein, albumin and glucose concentrations were identified in MCLR-treated groups at 14 and 28 days. Histologically, marked hepatokaryomegaly was identified in the 14-day MCLR group with the addition of giant cells at 28 days. Major gene transcript changes were identified in the actin organization, cell cycle, apoptotic, cellular redox, cell signaling, albumin metabolism, and glucose homeostasis pathways, and the organic anion transport polypeptide system. Using toxicogenomics, we have identified key molecular pathways involved in chronic sublethal MCLR exposure in wild-type mice, genes participating in those critical pathways and related them to cellular and morphologic alterations seen in this and other studies.

Fatal Ricin Toxicosis in a Puppy Confirmed by Liquid Chromatography/Mass Spectrometry when Using Ricinine as a Marker

Ricin, a lectin from the castor bean plant ( Ricinis communis), is considered one of the most potent plant toxins. Ingestion of masticated seeds results in high morbidity, with vomiting and watery to hemorrhagic diarrhea. The prognosis varies with the number of seeds ingested, the degree of mastication, individual susceptibility, and the delay in treatment. Low mortality restricts assessment of histologic lesions, and the literature on toxicologic analysis for ricin is limited. This report describes a fatal case of castor bean ingestion in a 12-week-old Mastiff puppy, with confirmation of ricin exposure through detection of the biomarker ricinine by liquid chromatography/mass spectrometry (LC/MS). Despite supportive therapy, the puppy died several hours after presentation for acute vomiting, diarrhea, and lethargy. At necropsy, a segment of jejunum and mesenteric lymph nodes were congested. When the owner reported the presence of castor beans in the dog's feces, selected formalin-fixed and unfixed tissues were submitted for diagnostic evaluation. Histopathologic findings included superficial necrotizing enteritis of the jejunum and occasional, random foci of coagulative necrosis in the liver. The alkaloid ricinine was detected in gastric content by using a newly developed LC/MS method. This confirmation of exposure is important in the diagnosis of ricin toxicosis, because ingestion of castor beans is not always fatal, histologic lesions are nonspecific, and the degree of mastication can influence the effective dose of ricin.

Rapid detection of terbufos in stomach contents using desorption electrospray ionization mass spectrometry

Desorption electrospray ionization mass spectrometry (DESI-MS) is an emerging analytical technique that permits the rapid and direct analysis of biological or environmental samples under ambient conditions. Highlighting the versatility of this technique, DESI-MS has been used for the rapid detection of illicit drugs, chemical warfare agents, agricultural chemicals, and pharmaceuticals from a variety of sample matrices. In diagnostic veterinary toxicology, analyzing samples using traditional analytical instrumentation typically includes extensive sample extraction procedures, which can be time consuming and labor intensive. Therefore, efforts to expedite sample analyses are a constant goal for diagnostic toxicology laboratories. In the current report, DESI-MS was used to directly analyze stomach contents from a dog exposed to the organophosphate insecticide terbufos. The total DESI-MS analysis time required to confirm the presence of terbufos and diagnose organophosphate poisoning in this case was approximately 5 min. This highlights the potential of this analytical technique in the field of veterinary toxicology for the rapid diagnosis and detection of toxicants in biological samples.

Myocardial fibrosis associated with previous ingestion of yew (Taxus sp.) in a Holstein heifer

Twenty-six 5-month-old Holstein calves were accidentally exposed to discarded branches of yew bushes ( Taxus sp.). Several calves were found dead approximately 24 hr after exposure; however, a few calves died several days after exposure. One calf died 18 days after the initial exposure to Taxus sp. and was examined on the farm via necropsy. Gross lesions included ascites, and dilated and flaccid myocardial ventricles. Sections of formalin-fixed heart were submitted to the Indiana Animal Disease Diagnostic Laboratory for histopathologic examination; fresh rumen contents were submitted for toxicologic testing. Histologically, large areas of myocardium were replaced by fibrous connective tissue, suggesting previous myocardial necrosis. Taxus alkaloids were identified in the rumen contents using gas chromatography–mass spectrometry. Based on the clinical history, the gross and histologic lesions, the identification of Taxus alkaloids in the rumen contents, and lack of exposure to other known cardiotoxic agents, yew toxicity was considered the cause of death in this calf. Ingestion of taxines is known to cause acute and subacute toxicity in human beings and animals; however, a chronic clinical course and severe histologic lesions have not been previously associated with yew toxicity. Although only 1 calf was examined, this case suggests that yew toxicity can result in a prolonged clinical course in cattle and can cause histologic myocardial lesions.

Investigative diagnostic toxicology and the role of the veterinarian in pet food-related outbreaks

Due to the potential implications of food-related illnesses in animals, recognition of pet food-related outbreaks is one of the many crucial roles of the veterinarian. This article describes the veterinarian’s role in investigating and reporting food-related illnesses in cats and dogs. Recommendations regarding taking thorough case histories, appropriate sample collection, effective use of veterinary diagnostic laboratories, and recommendations for reporting such illnesses are described.

Development of a gas chromatography–mass spectrometry technique to diagnose white snakeroot (Ageratina altissima) poisoning in a cow

An 8-year-old, crossbred beef cow was referred to the Indiana Animal Disease Diagnostic Laboratory at Purdue University for a complete necropsy in October 2009. The cow was the sixth to die in a 7-day period. Affected cows were reportedly stumbling and became weak, excitable, and recumbent. Histologically, myonecrosis was severe in the skeletal muscles and mild in the heart and tongue. According to the submitter, exposure to a poisonous plant was suspected, and a plant specimen received from this case was identified as white snakeroot ( Ageratina altissima). Using the white snakeroot specimen, a gas chromatography–mass spectrometry analytical method for the detection of tremetone and dehydrotremetone (2 components of white snakeroot) was developed. Both tremetone and dehydrotremetone were detected in the plant specimen. Dehydrotremetone was recovered from the liver, while neither component was recovered in the rumen content. In the past, because of the lack of standard reference material, the diagnosis of white snakeroot poisoning was based mainly on history of exposure and the presence of the plant in the rumen. The analytical method described herein can be used to document exposure to tremetone or dehydrotremetone in cases of suspected white snakeroot poisoning when coupled with the appropriate clinical signs and lesions.

Glycoproteomic profiling of serum peptides in canine lymphoma and transitional cell carcinoma

Differential expression of fucosylated glycoproteins has been correlated with malignancy and metastatic potential in various types of neoplasia. Utilizing glycoproteomics techniques, changes in fucosylated serum peptides associated with naturally occurring canine lymphoma and transitional cell carcinoma (TCC) have been evaluated. In both types of neoplasia, the majority of the fucosylated peptides that changed increased with the cancer. In one lymphoma case that was examined over the course of the disease, the same fucosylated peptides that increased during pre-chemotherapy decreased during post-chemotherapy, and then subsequently increased upon recurrence of the lymphoma. When comparing all the fucosylated peptides that increased in both types of cancer, there were only two peptides in common allowing discrimination between lymphoma and TCC based on their peptide profiles. These results emphasize the prospect of glycopeptide profiling in proteomics for use in discovering a panel of non-invasive, diagnostic or prognostic biomarkers of cancer.

Degenerative myelopathy and vitamin A deficiency in a young black-maned lion (Panthera leo)

Degenerative myelopathy and vitamin A deficiency were diagnosed in a 1-year-old, female, black-maned lion (Panthera leo). Diffuse white matter degeneration characterized by dilated myelin sheaths, Wallerian degeneration, and reactive astrocytosis was present at all levels of the spinal cord. With luxol fast blue-resyl echt violet stain, bilaterally symmetrical demyelination was observed in the fasciculus cuneatus of the cervical spinal cord and in peripheral white matter of cervical, thoracic, and lumbar segments. Additionally, the ventral gray columns and brain stem nuclei contained rare chromatolytic neurons with abnormal neurofilament accumulation. Leptomeninges of the cervical spinal cord were focally adhered to the dura and thickened by fibrosis and osseous metaplasia. Vitamin A deficiency was diagnosed based on hepatic vitamin A concentration of 1.71 microg/g dry weight. Adequate hepatic vitamin A concentration for yearling to adult domestic animals ranges between 150 and 1000 microg/g dry weight. Lesions were distinct from those previously described in young captive lions with vitamin A deficiency, which had thickened skull bones and cerebellar herniation. The pathogenesis of vitamin A-associated myelopathy in this lion may be similar to that described in adult cattle, which is believed to result from spinal cord compression secondary to elevated pressure of cerebrospinal fluid.

Chronic Microcystin Exposure Induces Hepatocyte Proliferation with Increased Expression of Mitotic and Cyclin-associated Genes in P53-deficient Mice

Homozygous p53 deficient knockout mice were used to assess the role of p53 in tumor promotion by the protein phosphatase inhibitor and hepatic tumor promoter microcystin-LR (MCLR). More than 50% of human cancers bear mutations in the p53 gene, and in particular, p53 tumor suppressor gene mutations have been shown to play a major role in hepatocarcinogenesis. Trp53 homozygous (inactivated p53) and age-matched wild-type control mice were assigned to vehicle or MCLR-treated groups. MCLR or saline was administered daily for up to 28 days. RNA from the 28-day study was hybridized onto Mouse Genome GeneChip arrays. Selected RNA from 28 days and earlier time points was also processed for quantitative polymerase chain reaction (PCR). Livers from the 28-day, Trp53-deficient, MCLR group displayed greater hyperplastic and dysplastic changes morphologically and increases in Ki-67 and phosphohistone H3 (mitotic marker) immunoreactivity. Gene-expression analysis revealed significant increases in expression of cell-cycle regulation and cellular proliferation genes in the MCLR-treated, p53-deficient mutant mice compared to controls. These data suggest that regulation of the cell cycle by p53 is important in preventing the proliferative response associated with chronic, sublethal microcystin exposure, and therefore, conclude that p53 plays an important role in MCLR-induced tumor promotion.

Phase I clinical trial of the use of zinc phthalocyanine tetrasulfonate as a photosensitizer for photodynamic therapy in dogs

OBJECTIVE

To determine the threshold for acute toxicosis of parenterally administered zinc phthalocyanine tetrasulfonate (ZnPcS(4)), a candidate second-generation photosensitizer, in mice and evaluate the compound's safety in a phase I clinical trial of ZnPcS(4)-based photodynamic therapy (PDT) in pet dogs with naturally occurring tumors.

ANIMALS

Male Swiss-Webster mice and client-owned dogs with naturally occurring neoplasms.

PROCEDURES

For the study of acute toxicosis, mice were given graded doses of ZnPcS(4). To determine safety, a rapid-titration phase I clinical trial of ZnPcS(4)-based PDT in tumor-bearing dogs was conducted.

RESULTS

In mice, administration of >or= 100 mg of ZnPcS(4)/kg resulted in renal tubular necrosis 24 hours after IP injection. In tumor-bearing dogs, ZnPcS(4) doses <or= 4 mg/kg induced no signs of toxicosis and resulted in partial to complete tumor responses in 10 of 12 dogs 4 weeks after PDT. Tumor remission was observed with ZnPcS(4) doses as low as 0.25 mg/kg.

CONCLUSIONS AND CLINICAL RELEVANCE

A conservative starting dose of ZnPcS(4) was arrived at on the basis of mouse toxicosis findings. Zinc phthalocyanine tetrasulfonate-based PDT was tolerated well by all dogs and warrants further study. The identification of the maximum tolerated dose through traditional phase I clinical trials may be unnecessary for evaluating novel PDT protocols.

Species comparison of vitamin K1 2,3-epoxide reductase activity in vitro: kinetics and warfarin inhibition

A comparative study of vitamin K(1) 2,3-epoxide reductase (VKOR) activity in vitro was conducted across species. The apparent kinetic constants K(m app), V(max), and Cl(int app) were determined in bovine, canine, equine, human, murine, ovine, porcine, and rat hepatic microsomes. In addition to these enzyme kinetic constants, the IC(50) of warfarin for VKOR was determined in human, murine, porcine, and rat hepatic microsomes. Interspecies differences were observed when comparing the K(m app) (range, 2.41-6.46 microM), V(max) (range, 19.5-85.7 nmol/mg/min), and Cl(int app) (range, 8.2-18.4 ml/mg/min) values. Comparison of the IC(50) values of warfarin, across the four species tested, revealed a significant species difference between murine microsomes (0.17 microM) and rat microsomes (0.07 microM). Overall, this study indicates that there are interspecies differences regarding the in vitro reduction of vitamin K(1) 2,3-epoxide by the warfarin-sensitive enzyme vitamin K(1) 2,3-epoxide reductase. Significant differences between the IC(50) values of murine and rat microsomes suggest differences in the susceptibility of these species to warfarin.

Toxicology of newer pesticides for use in dogs and cats

The past 10 years have witnessed the development of several new insecticides that have been specifically designed to exploit physiologic differences between insects and mammals. This has resulted in products that seem to have a wide margin of safety when used in dogs and cats. Compared with the more acutely toxic organophosphorous, carbamate, and heavy metal insecticides as well as with the environmental problems of bioaccumulation associated with some of the organochlorine insecticides, these newer insecticides such as fipronil, imidacloprid, selamectin, lufenuron, and nitenpyram seem to alleviate these known problems while still providing satisfactory insecticidal activity.

Taxines: a review of the mechanism and toxicity of yew (Taxus spp.) alkaloids

This literature review summarizes relevant information and recent progress regarding the scientific investigations of taxine alkaloids. Taxines are the active, poisonous constituents in yew plants (Taxus spp.) and have been implicated in animal and human poisonings. Several taxine alkaloids have been isolated and characterized through the use of high performance liquid chromatography, mass spectroscopy, and nuclear magnetic resonance. Recently, as a result of electrophysiological investigations, significant progress has been made with regard to their pharmacological and toxicological mechanisms of action. Current investigations suggest that their chief action is on cardiac myocytes resulting in heart failure and death in instances of animal and human poisoning.

Fulminant hepatocyte apoptosis in vivo following microcystin-LR administration to rats

Microcystin-LR (MCLR) is a cyanobacterial toxin responsible for human and livestock deaths worldwide. MCLR has also been implicated as a contributing factor in hepatocellular carcinoma. Following absorption, MCLR is taken up via a hepatocyte-specific bile acid carrier. Inside hepatocytes, MCLR selectively binds to protein phosphatases 1 and 2A, resulting in rapid, massive liver damage. However, the apoptotic nature of this toxicosis in rats has not been fully characterized as such at appropriate time points utilizing light and electron microscopy, terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling (TUNEL), and electrophoresis of hepatic DNA. Rats were administered intraperitoneal saline or MCLR at 500 microg/kg (0.5 micromol/kg) and necropsied at 3 or 9 hours. Light microscopy at 3 hours revealed massive, widespread apoptotic necrosis of the majority of hepatocytes. Hepatocytes were rounded and disassociated, with cell shrinkage, increased eosinophilia, and margination of nuclear chromatin or pyknosis. The apoptotic index increased from 0.03% +/- 0.02% in controls to 205% +/- 12% in MCLR-treated animals (p < or = 0.0001). At 3 hours, transmission electron microscopy revealed hepatocellular changes typical of apoptotic necrosis: rounding and disassociation of hepatocytes, loss of microvilli, and margination and condensation of nuclear chromatin. Laddering of hepatic DNA by electrophoresis and widespread TUNEL staining of hepatocytes were consistent with apoptosis. These results demonstrate that in rats, hepatic damage caused by MCLR is due to extremely rapid induction and progression of apoptosis in virtually every hepatocyte in the liver. This model of fulminant hepatic necrosis should be useful for increased characterization and understanding of the relationship between protein phosphatase inhibition and apoptosis.

Effects of storage conditions and hemolysis on vitamin E concentrations in porcine serum and liver

Vitamin E (alpha-tocopherol) is an antioxidant vitamin important in protecting unsaturated fatty acids in lipid membranes from peroxidation. Variation in collection, storage, and shipping conditions of samples can potentially lead to breakdown of vitamin E prior to analysis. Therefore, the purposes of this project were 1) to determine the stability of vitamin E in refrigerated and frozen porcine liver and serum and 2) to evaluate the effects of red blood cell (RBC) hemolysis on porcine serum vitamin E concentrations. Porcine liver and nonhemolyzed serum were collected and stored refrigerated or frozen. Samples were analyzed for vitamin E immediately or on days 2, 3, 7, or 14. In addition, porcine RBCs were added to normal serum at concentrations from 1 x 10(6) to 1 X 10(9) RBC/ml and hemolyzed by freeze-thaw prior to analysis for vitamin E or products of lipid peroxidation.

Acute pit gas (hydrogen sulfide) poisoning in confinement cattle

Rapid deaths in confinement cattle caused by exposure to hydrogen sulfide (H2S) gas from manure pits has not been reported in the USA. In 1997, 158 cattle in 2 confinement pens were exposed to H2S gas as the manure in the pits under a slatted floor was agitated prior to pumping. Approximately 35 of the cattle were lying on the floor when the upper agitator was turned on. Within 5 minutes, many these cattle were down on their sides and paddling. Of these, 26 died within a few minutes. The survivors were treated and sent to slaughter. Cattle that did not show immediate signs of toxicosis remained clinically unaffected. Two steers that were near death were brought to the Purdue Animal Disease Diagnostic Laboratory for clinical evaluation, euthanasia, and necropsy. They were recumbent and unresponsive to visual and auditory stimuli. Necropsy examination yielded no significant gross lesions. No evidence of viral or bacterial infection was found. Ocular fluid nitrate concentrations were within normal limits, and no lead was detected in either animal. Microscopic examination revealed lesions consistent with H2S-induced central nervous system anoxia. Histologically, sections of brain demonstrated massive, diffuse cerebral cortical laminar necrosis and edema. Portions of the outer lamina contained hypereosinophilic and shrunken neurons. The subcortical white matter was vacuolated in some areas. The history, clinical signs, and histologic lesion of cerebral laminar necrosis led to a diagnosis of H2S toxicosis in these cattle.

Cisplatin-DNA adduct formation in rat spermatozoa and its effect on fetal development

Exposure of males to some genotoxic chemicals causes DNA damage in spermatozoa resulting in embryotoxicity and developmental defects in their offspring. This study demonstrates that cisplatin-DNA adducts could be measured in spermatozoa following treatment with the antineoplastic drug, cisplatin. The formation of spermatozoa cisplatin-DNA adducts showed dose and time-dependent increases both in vitro, and in vivo up to 168 h (7 days) after dosing. Treatment of rats with 10 mg cisplatin/kg resulted in spermatozoa Pt-GG adduct levels of approximately 1.0 fmol/microg DNA. When cisplatin-treated male rats were bred to untreated females 6-24 h after cisplatin administration, no adverse developmental effects or decreases in body weight were seen in the offspring although there was a trend towards increased early embryo mortality.

Suppression of Kupffer cell function prevents cadmium induced hepatocellular necrosis in the male Sprague-Dawley rat

Exposure of humans to toxic metals and metalloids is a major environmental problem. Many metals, such as cadmium, can be hepatotoxic. However, the mechanisms by which metals cause acute hepatic injury are in many cases unknown. Previous reports suggest a major role for inflammation in acute cadmium induced hepatotoxicity. In initial experiments we found that a non-hepatotoxic dose of cadmium chloride (CdCl2; 2.0 mg/kg, i.v.) markedly increased the clearance rate of colloidal carbon from the blood, which is indicative of enhanced phagocytic activity by Kupffer cells (resident hepatic macrophages). Thus. the objective these studies was to determine the involvement of Kupffer cells in cadmium induced liver injury by inhibiting their function with gadolinium chloride (GdCl3). Male Sprague-Dawley rats were administered GdCl3 (10 mg/kg, i.v.) followed 24 h later by a single dose of CdCl2 (3.0 and 4.0 mg/kg, i.v.). Twenty four hours after CdCl2 administration animals were killed and the degree of liver toxicity was assessed using plasma alanine aminotransferase (ALT), as well as light microscopy. Cadmium chloride administration produced multifocal hepatocellular necrosis and increased plasma ALT activity. Pretreatment with GdCl3 significantly reduced both the morphological changes and hepatic ALT release caused by CdCl2. However, the protection was specific to the liver, and did not alter CdCl2 induced testicular injury, as determined by histopathological damage. In many cases, the inducible cadmium-binding protein, metallothionein (MT) is often an essential aspect of the acquisition of cadmium tolerance in the liver. Although cadmium caused a dramatic induction of hepatic MT (32-fold), GdCl3 caused only a minor increase (2-fold). Combined CdCl2 and GdCl3 treatment did not induce levels to an extent greater than CdCl2 alone. As expected, GdCl3 also caused a slight increase in the amount of cadmium associated with the liver. In cultured hepatocytes isolated from GdCl3 pretreated rats, CdCl2 induced cytotoxicity was not significantly altered compared to control hepatocytes, indicating that the mechanism of tolerance required the presence of other cell types. Thus, GdCl3 attenuation of CdCl2 induced hepatotoxicity does not appear to be caused by increased tissue MT content or a decreased susceptibility of hepatocytes to cadmium. From these data, we concluded that tolerance to cadmium induced hepatotoxicity involves the inhibition of Kupffer cell function which results in a decreased inflammatory response and an altered progression of hepatic injury. These data further indicate that Kupffer cell function is critical to cadmium induced hepatocellular necrosis.

Tolerance induced by all-trans-retinol to the hepatotoxic effects of cadmium in rats: role of metallothionein expression

Recently, it has been shown that large doses of all-trans-retinol (vitamin A) can potentiate the hepatotoxicity of several organic chemicals in the rat. Whether retinol pretreatment can alter the acute hepatotoxicity of an inorganic chemical, such as cadmium, is unknown. Therefore, the objective of this study was to determine how retinol might affect the acute toxicity of cadmium chloride (CdCl2) and to elucidate possible mechanisms. Cadmium exposure can induce acute, lethal hepatocellular necrosis in rodents, as well as lesions in the lung, kidney, testis, and gastrointestinal tract. In the present studies, male Sprague-Dawley rats were pretreated with retinol (75 mg/kg/day, po) for 7 consecutive days. One day after the last dose of retinol, animals were given a single injection of CdCl2 (2.5 to 4.0 mg/kg, iv). Cadmium chloride administration to unpretreated control rats caused extensive hepatic, renal, pulmonary, and testicular toxicity at 6, 24, and 48 hr postdosing as evaluated by plasma enzymes and/or histopathology. In retinol-pretreated rats, a significant attenuation of CdCl2-induced tissue injury was observed. Since the inducible cadmium-binding protein metallothionein (MT) is often an essential aspect of cadmium tolerance, its content in tissue was assessed using the cadmium-hemoglobin assay. Interestingly, retinol pretreatment significantly increased MT in the liver by sevenfold, but had no effect on lung, kidney, testicular, or pancreatic MT content. Although this increase in hepatic MT was much less than that induced by CdCl2, it was additive to the induction of CdCl2. Furthermore, the tissue distribution of cadmium was significantly altered by retinol pretreatment. The liver accumulated more cadmium, while less cadmium was found in the lung, kidney, and testis in retinol-pretreated rats than in controls. In monolayers of primary isolated hepatocytes, CdCl2-induced toxicity was significantly reduced in cells isolated from retinol-pretreated rats compared to those isolated from control rats. The dose response was shifted to the right and the in vitro cadmium LC50 was increased by in vivo retinol exposure from 1.1 +/- 0.1 to 2.4 +/- 0.04 microM. From these data it is concluded that the induction of hepatic MT is an essential aspect of retinol-induced tolerance to CdCl2 hepatotoxicity, as well as toxicity in other tissues.

Ovarian toxicity of 4-vinylcyclohexene and related olefins in B6C3F1 mice: role of diepoxides

4-Vinylcyclohexene (VCH) is an ovarian toxicant in mice. Studies have established that bioactivation of VCH to epoxides is required for its ovotoxicity, with vinylcyclohexene diepoxide being the most potent epoxide of VCH in terms of follicular depletion. To determine the role of the diepoxide in the ovarian toxicity of VCH and related compounds, a structure-activity study was conducted. Following administration (ip) of VCH for 30 days, a significant depletion of ovarian follicles was observed. No alteration of small ovarian follicle counts occurred following treatment with structural analogues of VCH (vinylcyclohexane, ethylcyclohexene, and cyclohexene) that contain only a single unsaturated site. These VCH analogues were converted to monoepoxides both in vitro and in vivo. In addition, when the monoepoxide forms of the VCH analogues were administered to mice, they were not ovotoxic. These results indicate that vinylcyclohexene diepoxide may be the ultimate ovotoxic metabolite of VCH. A diepoxide was also shown to be critical for butadiene- and isoprene-induced follicular loss. Butadiene monoepoxide, butadiene diepoxide, and isoprene were ovotoxic. In contrast, the monoepoxide, epoxybutane, was not ovotoxic. The ovotoxicity of these compounds correlated with their chemical reactivity as assessed by alkylation of nicotinamide. Vinylcyclohexene diepoxide and butadiene diepoxide had a 3.5- to 10-fold higher chemical reactivity as compared to their monoepoxide precursors and structurally related monoepoxides. Thus, a relationship exists between chemical reactivity and ovotoxicity. Only those compounds which are metabolized to a diepoxide or are a diepoxide were ovotoxic. The formation of these diepoxide metabolites may in turn be linked to the ovarian toxicity and carcinogenicity of these olefins.

All-trans-retinol alteration of 1-nitronaphthalene-induced pulmonary and hepatic injury by modulation of associated inflammatory responses in the male Sprague-Dawley rat

Large doses of retinol (vitamin A) have been shown to potentiate the hepatotoxicity of several chemicals in rats. The objective of this study was to determine how retinol would affect the pulmonary and hepatic toxicity caused by 1-nitronaphthalene (1-NN). All-trans-retinol (75 mg/kg/day, po) was administered for 7 days to male Sprague-Dawley rats. One day after the last dose of retinol, animals were given a single injection of 1-NN (100 mg/kg, ip). At 24 hr, animals receiving retinol vehicle and 1-NN exhibited respiratory distress syndrome and chromodacryorrhea. Pulmonary morphological changes included necrosis and exfoliation of the bronchiolar epithelium, as well as infiltration of inflammatory cells into the interstitial areas around affected bronchioles. The bronchioalveolar lavage fluid from these animals exhibited significant increases in the activities of gamma-glutamyl transpeptidase (GGT), lactate dehydrogenase (LDH), as well as protein and inflammatory cell content. Following pretreatment with retinol, none of the animals treated with 1-NN exhibited outward signs of toxicity. In addition, the lavage fluid of these rats revealed significant reductions in inflammatory cells, protein, and LDH activity. However, lavage fluid GGT activity was significantly increased. Morphological evaluation of the lungs revealed nonciliated bronchiolar epithelial (Clara) cell damage with no associated inflammation. Retinol pretreatment resulted in potentiated hepatotoxicity as indicated by increases in plasma alanine aminotransferase and GGT activities, as well as plasma total bilirubin. The altered plasma enzyme activities correlated with increased hepatocyte and bile duct epithelial necrosis, as well as an increased infiltration of neutrophils into the areas around bile ducts. Retinol potentiation of 1-NN-induced hepatocyte necrosis was significantly reduced following pretreatment with gadolinium chloride (GdCl3). From these experiments, we conclude that in the lung pretreatment with retinol decreased the severity of 1-NN-induced toxicity apparently by an anti-inflammatory mechanism. In the liver, retinol potentiated 1-NN-induced liver injury apparently through a proinflammatory mechanism by activating Kupffer cells and increasing the infiltration of neutrophils into the periportal regions adjacent to bile ducts.

Testicular germ cell toxicity caused by vinylcyclohexene diepoxide in mice

Vinylcyclohexene diepoxide (VCD) produces ovarian toxicity in female mice and rats, whereas testicular damage occurs only in mice. The objectives of these studies were to determine the target cell(s) and spermatogonial survival following VCD administration. In addition, the effects of 4-vinylcyclohexene (VCH) and two epoxide metabolites, vinylcyclohexene 1,2-monoepoxide and VCD were compared. Male mice were dosed daily with VCD (320 mg/kg/d, i.p.) and killed at 5, 10, 15, 20, 25, or 30 d. Two groups were dosed daily for 30 d and allowed to recover for 30 or 60 d. Decreases in testis weight began at 5 d and continued to 30 d. These decreases corresponded to progressive necrosis of germ cells. After 5 d of VCD, there was loss of Type I and B spermatogonia in Stages II to VI and of preleptotene spermatocytes in Stages VI to VIII. After 30 d of dosing, seminiferous tubules were devoid of germ cells except for spermatogonial stem cells. Following 30 d of recovery, 100% of the seminiferous tubules were repopulated. Epididymal spermatozoa were present after 60 d of recovery. Increasing doses of VCD (0 to 320 mg/kg/d) resulted in increasing testicular toxicity. Neither VCH (800 mg/kg, i.p.) nor VCM (200 mg/kg, i.p.) caused testicular damage. VCD administration initially results in destruction of spermatogonia and spermatocytes, which are undergoing DNA synthesis and cell replication, followed by loss of maturing cells. Neither VCH nor VCM caused testicular germ cell destruction, although all three compounds destroy germ cells in female mice. Therefore, further investigation will be necessary to understand these differences in chemical-induced toxicity between ovaries and testes.

The interactions between retinol and five different hepatotoxicants in the Swiss Webster mouse

The interactive effects between retinol and various hepatotoxicants (allyl alcohol, acetaminophen, carbon tetrachloride, D-galactosamine, and phalloidin) were studied in the male Swiss Webster mouse. The mice were administered retinol at 75 mg/kg/day (or the vehicle of retinol) by oral gavage for 7 days. Hepatoxicity produced by the chemicals was determined by plasma alanine aminotransferase (ALT) activity and histopathology. After 7 days of retinol pretreatment, the hepatotoxicities of allyl alcohol, acetaminophen, and galactosamine were potentiated. Interestingly, the hepatotoxicity of carbon tetrachloride and phalloidin was protected by identical retinol pretreatment. Microscopic examination of histologic liver sections demonstrated the specific hepatic necrosis associated with each individual chemical and confirmed the ALT values obtained. Once an interaction between retinol and the five hepatotoxicants was established, the duration of retinol pretreatment necessary to elicit an interaction was determined for each hepatotoxicant. Results demonstrated that the duration of retinol pretreatment was specific for each hepatotoxicant. The accumulation of retinoids in the liver during retinol pretreatment was determined using high-performance liquid chromatography analysis. Significant increases in the basal liver levels of retinol and retinyl palmitate were seen within 1 to 3 days of retinol treatment compared to control. Retinol pretreatment resulted in potentiation or protection of specific hepatotoxicant-induced liver damage. Currently, studies are being conducted which probe into the mechanisms of these interactions.

Alterations in chemically induced tissue injury related to all-trans-retinol pretreatment in rodents

Retinol (vitamin A) is an essential nutrient which has many physiological effects throughout the body. Our studies have demonstrated that retinol modulation of immune response, through alteration of macrophage and neutrophil function, can have dramatic effects on the toxicity of some compounds. Based on these studies, our current hypothesis for retinol potentiation of chemical-induced liver injury is that retinol administered to rats prior to the hepatotoxicant (CCl4 and AA in rats; and AA, APAP, and GalN in mice) primes the Kupffer cells to a more active state. This may occur in part as a result of increases in chemical mediators such as TNF from these Kupffer cells. Following hepatocyte damage by a toxicant, Kupffer cells are activated to release reactive oxygen species, immune mediators, and chemotactic factors which all serve to enhance the inflammatory response. This increased inflammatory response then results in increased injury to the already toxicant-damaged hepatocytes. In addition, retinol modulation of toxicant activation and detoxification may also make important contributions to the potentiation of some toxicants such as AA. Retinol protection of CCl4 hepatotoxicity in mice is more difficult to explain at this time but is possibly related to alterations in CCl4 metabolism in this species. Differences in response between pulmonary and liver macrophages (Kupffer cells) may explain the retinol protection from 1-NN pulmonary toxicity. Retinol may decrease the inflammatory response through downregulation of pulmonary macrophage function, thus resulting in decreased pulmonary injury. Finally, since retinol protection of cadmium toxicity in the liver and testis requires 7 days of retinol pretreatment, we suspect that retinol is inducing protective protein(s) in these organs. Aside from its normal biological role in rhe body, clinical medicine has found new uses for retinol in the treatment and prevention of some cancers, and in the treatment of certain dermatologic conditions. Since these patients are frequently administered or exposed to other potentially toxic compounds, it is obviously prudent and necessary to continue research into the effects of retinol on immune modulation and interaction with other compounds. More importantly, these studies demonstrate the modulation of immune function is one mechanism by which one chemical can influence the toxicity of another.

Vitamin A modulation of xenobiotic-induced hepatotoxicity in rodents

Vitamin A (VA, retinol) has been shown to modulate cells of the immune system. When rats are pretreated with VA (75 mg/kg/day) for 7 days, there is greatly potentiated liver damage upon subsequent exposure to hepatotoxicants such as CCl4. This potentiated damage can be blocked by superoxide dismutase or catalase, suggesting that reactive oxygen species are playing a major role in the increased liver injury. The studies reported here examined VA-induced modulation of CCl4 hepatotoxicity in different strains of male rats, female rats, and different strains of male mice. Also, the role of VA-induced weight loss on potentiation of CCl4 injury was investigated. Rats or mice were dosed with VA (retinol) at 75 mg/kg/day, po, for 7 days. In an additional VA dose-response study, mice were given VA at 18.8, 37.5, or 75 mg/kg/day, po, for 7 days. On day 8 they were given a dose of CCl4 which elicited mild hepatic damage. On day 9 they were necropsied. Male and female Sprague-Dawley rats, and male Fischer-344 and athymic nude rats pretreated with VA had an approximately 10-fold increase in liver damage as compared to vehicle controls. Pretreatment of male Balb/C, C3H/HeJ, Swiss-Webster, or athymic nude mice resulted in a marked reduction of CCl4-induced hepatic damage. In the dose-response study in mice, increasing doses of VA elicited increasing amounts of protection from CCl4-induced liver injury. Paired feeding studies revealed that VA-induced weight loss (or decreased weight gain) had no effect on subsequent VA-induced potentiation (rats) or protection (mice) from hepatic damage caused by CCl4.(ABSTRACT TRUNCATED AT 250 WORDS)

Long-term ovarian and gonadotropin changes in mice exposed to 4-vinylcyclohexene

This study investigated the relationships between 4-vinylcyclohexene-induced follicular destruction, plasma FSH levels, and the development of ovarian preneoplastic changes. Female, 28-day-old, B6C3F1 mice were administered VCH (800 mg/kg/day, ip) or sesame seed oil, ip daily for 30 days. At 30, 60, 120, 240, and 360 days following the beginning of treatment, groups were killed, their ovaries were harvested, and plasma was collected for measurement of FSH. Ovarian weight was less and oocytes contained in preantral follicles were significantly fewer than controls at all time points. Plasma FSH concentrations in VCH-treated animals were increased significantly above controls at 240 d and 360 d. Histologically, there was oocyte loss at all times, whereas at 240 and 360 days, small to medium, irregularly shaped foci of hypertrophic cells were present. In addition, at 360 days 80% of the VCH-treated mice had a 1- to 2-mm, blood-filled cystic structure present in one or both ovaries. These studies indicate that VCH-induced oocyte destruction and follicle loss are associated with increases in plasma FSH, are associated with ovarian failure at 360 days, and are temporally related to ovarian cellular hypertrophy and the formation of blood-filled cystic ovarian structures. These events are possibly related to ovarian neoplasms produced by long-term exposure to VCH.

Effects of acute and subchronic exposure of topically applied fullerene extracts on the mouse skin

The recent discovery that fullerenes (C60) can be produced in macroscopic quantities has sparked much interest in the chemistry of this unusual molecule. Concerns have also arisen about the potential carcinogenic effects of this molecule. We have addressed the potential acute and subchronic toxic effects of fullerenes applied in benzene on the mouse skin. The acute toxic effects measured in this study included epidermal DNA synthesis and the induction of ornithine decarboxylase activity in the epidermis. At the topical dose of fullerenes used in these studies (i.e., 200 micrograms), we found no effect on either DNA synthesis or ornithine decarboxylase activity over a 72 hour time course after treatment. The subchronic effects of the fullerenes as a mouse skin tumor promoter was assessed by repeatedly applying the chemical to the skin after initiation with the polycyclic aromatic hydrocarbon, 7,12-dimethylbenzanthracene (DMBA). Repeated administration of the fullerenes for up to 24 weeks post-initiation did not result in either benign or malignant skin tumor formation, whereas promotion with the phorbol ester, 12-O-tetradecanoyl-phorbol- 13-acetate (TPA) resulted in the formation of benign skin tumors. Our data indicate that fullerenes applied in benzene at a likely industrial exposure level do not cause acute toxic effects on the mouse skin epidermis.

Differential ovotoxicity of 4-vinylcyclohexene and its analog, 4-phenylcyclohexene

Vinylcyclohexene (VCH) is an industrial byproduct that is known to cause the destruction of ovarian follicles in mice. Its analog, 4-phenylcyclohexene (4PC), is a volatile product from latex-backed carpeting. These studies were undertaken to assess the structure-activity relationships of these compounds and the potential for 4PC to cause ovotoxicity. Female B6C3F1 mice were dosed with VCH (6 mmol/kg/day, ip) or 4PC (3 or 6 mmol/kg/day, ip) daily for 30 days. Treatment with VCH caused dramatic reductions in small and growing follicles as compared to those of vehicle controls. No treatment-related ovarian lesions were associated with 4PC administration. Plasma FSH concentrations were unaltered by treatment with either compound. These results indicate that in mice, the substitution of the phenyl for the vinyl group in the 4 position eliminates the ovotoxicity caused by this class of compounds. Presumably, the ability of the vinyl group to form an epoxide (or dihydrodiol) and/or its smaller size accounts for this difference in ovarian toxicity.

Actin filament alterations in rat hepatocytes induced in vivo and in vitro by microcystin-LR, a hepatotoxin from the blue-green alga, Microcystis aeruginosa

The morphologic effects of microcystin-LR (MCLR) were examined in vitro and in vivo to identify the specific cell type(s) affected and to characterize the actin filament changes occurring in hepatocytes. Male Sprague Dawley rats were used for all studies. For in vitro studies, hepatic cells were isolated by collagenase perfusion of liver, while parenchymal cells (hepatocytes) and nonparenchymal cells were prepared by pronase digestion and metrimazide gradient centrifugation. Cell suspensions and and primary hepatocyte monolayer cultures were treated with MCLR at doses up to 10 micrograms/ml; cultured hepatocytes were also treated with phalloidin or cytochalasin B at a dose of 10 micrograms/ml; and rats were treated intraperitoneally with MCLR at 180 mg/kg. Cultured hepatocyte preparations and frozen liver sections were stained with rhodamine-labeled phalloidin for filamentous actin. In cell suspensions, MCLR did not affect nonparenchymal cells but caused rapid, progressive, blebbing of the plasma membrane in hepatocytes. In cultured hepatocytes, MCLR caused plasma membrane blebbing as well as marked reorganization of actin microfilaments. These alterations were dose and time dependent. Cultured hepatocytes treated with phalloidin or cytochalasin B also showed extensive plasma membrane blebbing and actin filament alterations; however, actin filament changes were morphologically distinct from those induced by MCLR. In vivo, MCLR-induced hepatocyte actin alterations occurred at the same time as, or slightly preceded, histologic changes that began 30 minutes after dosing. These studies suggest that early MCLR-induced morphologic changes occurring both in vivo and in vitro are due to alterations in hepatocyte actin filaments.

Reversal of cholinesterase inhibition and clinical signs and the postmortem findings in mice after intraperitoneal administration of anatoxin-a(s), paraoxon or pyridostigmine

The reversibility of inhibition of plasma, red blood cell (RBC), and diaphragm cholinesterase (ChE) and clinical signs in mice given anatoxin-a(s) [antx-a(s)], a ChE inhibitor from Anabaena flos-aquae NRC-525-17, were characterized and compared with the effects of 2 known ChE inhibitors, the organophosphorus compound paraoxon and the carbamate pyridostigmine bromide. To follow recovery of ChE activity, mice were given either a control solution or an LD40 dose of one of the toxicants ip and killed at time points up to 8 d postdosing. After dosing, mice were monitored for diarrhea, fasciculations, respiratory difficulty, salivation, and tremors. In general, clinical signs in mice given antx-a(s) persisted longer than in mice given pyridostigmine and were more similar in duration to the clinical signs in mice given paraoxon. Histologic lesions were not detected in tissues of mice killed after administration of antx-a(s). Anatoxin-a(s) inhibited lesions were diaphragm ChE for greater than 1 but less than 2 d and RBC ChE for 8 d. The time required for recovery from Antx-a(s)-induced inhibition of ChE in plasma, RBC, and diaphragm was similar to or longer than that with paraoxon and longer than that with pyridostigmine. Based on the duration of antx-a(s) induced clinical signs and ChE inhibition in mice, antx-a(s) appears to be an in vivo irreversible inhibitor of ChE.

Uptake and subcellular localization of tritiated dihydro-microcystin-LR in rat liver

Microcystin-LR (MC-LR), a cyclic heptapeptide hepatotoxin (mol. wt = 994) produced by the blue-green alga (cyanobacterium), Microcystis aeruginosa, was reduced with tritium labeled sodium borohydride, converted to [3H]-dihydro-microcystin-LR ( [3H]-2HMC-LR), and purified to greater than 99% purity by C-18 reverse-phase high-performance liquid chromatography. The uptake and subcellular distribution of [3H]-2HMC-LR were determined in suspensions of hepatocytes at 0 degrees C and 37 degrees C, or following rifampicin pretreatment, and in perfused rat liver. The remaining cells were homogenized and subfractionated using sucrose gradient centrifugation. Suspensions of 7.5 x 10(6) hepatocytes also were incubated with 10 micrograms/ml of toxin, solubilized in Triton X-100, and ultracentrifuged to pellet the detergent insoluble fraction (containing actin). Isolated rat livers were perfused with media containing [3H]-2HMC-LR and the uptake of radiolabel was determined. Sequential biopsy samples were collected for histologic examination. The remaining liver was homogenized and subcellular fractions prepared. Uptake of radiolabel was rapid in both cell suspension at 37 degrees C and perfused liver; however, uptake in cell suspensions was reduced by about 50% at 0 degrees C and by rifampicin (50 micrograms/ml) pretreatment. Hepatocyte necrosis was observed in isolated perfused livers 45 min after initiation of perfusion with [3H]-2HMC-LR. In both hepatocyte suspensions and perfused livers 65 to 77% of the radiolabel was in the cytosolic fraction. In the hepatocyte suspensions, 13 to 18% of the radiolabel was present in the plasma membrane/nuclear fraction with lesser amounts in the other fractions. Trichloroacetic acid treatment of cytosolic fractions indicated that in hepatocyte suspensions, 50-60% of the radiolabel was bound to cytosolic protein. Studies using the perfused liver confirmed that the majority of the radiolabeled MCLR (78-88%) was bound to cytosolic protein. These data suggest that the uptake of [3H]-2HMC-LR occurs primarily by an energy-dependent transport process involving the rifampicin-sensitive hepatic bile acid carrier and that once inside the hepatocyte, the toxin binds to a cytosolic protein(s).

Toxicology of selected pesticides, drugs, and chemicals. D-limonene, linalool, and crude citrus oil extracts

Cats are susceptible to poisoning by insecticidal products containing D-limonene, linalool, and crude citrus oil extracts. Signs of toxicosis include hypersalivation, muscle tremors, ataxia, depression, and hypothermia.

Toxicology of selected pesticides, drugs, and chemicals. Boric acid

With the advent of boric acid insecticides, accidental ingestion of the compound can be encountered in animals. Toxic levels of boric acid most commonly cause vomiting, depression, and, occasionally, diarrhea. Boric acid is, however, cytotoxic to all cells. If a sufficiently high level is ingested, seizures, renal tubular nephrosis, and, rarely, hepatotoxicity may be noted. Gastrointestinal evaluation and supportive care are usually of primary therapeutic importance, although in severe cases, exchange transfusion and/or peritoneal dialysis may be required to decrease blood boron concentrations.

Microcystin-LR-induced ultrastructural changes in rats

The ultrastructure of hepatic, pulmonary, and renal lesions was evaluated in rats injected intraperitoneally with a lethal dose of microcystin-LR (MCLR, 160 micrograms/kg), a cyclic heptapeptide hepatotoxin produced by the blue-green algae, Microcystis aeruginosa. Hepatic lesions were first seen at 10 minutes post-dosing and consisted of mild widening of hepatocyte intercellular spaces centrilobularly. At 20 minutes post-dosing, hepatocyte plasma membrane alterations were more pronounced, consisting of plasma membrane invagination with formation of variably sized and shaped intracytoplasmic vacuoles, loss of microvilli along the sinusoidal face, and widespread, pronounced hepatocyte separation. By 30 minutes, the space of Disse was markedly widened. At 60 minutes post-dosing, centrilobular areas contained necrotic cells and apparently intact, isolated, organelles intermingled with erythrocytes and platelets. In less severely affected regions there was prominent hepatocyte rounding, and erythrocytes and platelets were present in the widened space of Disse. Large amounts of hepatocellular debris and intact hepatocytes were present in the pulmonary vasculature, while smaller amounts of debris were also seen in the glomerular and peritubular capillaries of the renal cortex. This study shows that initial lesions are confined to shape changes in the plasma membrane of hepatocytes. These changes are consistent with the hypothesis that microcystin-LR induces alterations in the hepatocyte cytoskeleton. Later changes consist of hepatocyte disassociation and necrosis, as well as endothelial damage, which allow release of hepatocytes and debris into the circulation with microembolism in lungs and kidneys.

Atypical contagious ecthyma in a sheep after extensive cutaneous thermal injury

An atypical case of contagious ecthyma in a wether, following severe thermal injury to the skin, is reported. Histologically, extensive verrucous growths at the edges of the burned skin were areas of severe epidermal hyperplasia and hyperkeratosis. Intracellular viral particles were present, and sections of skin were positive for ovine contagious ecthyma virus by a fluorescent antibody test.

Algae intoxication in livestock and waterfowl

Blue-green algae toxins include (1) hepatotoxic peptides that are known to be toxic to cattle, dogs, swine, waterfowl, and sometimes other species; (2) a nicotinic agonist neurotoxin that appears to be toxic to a wide range of animal species; (3) a peripheral-acting cholinesterase inhibitor that is very toxic to swine, birds, and dogs; (4) toxins that impair nervous transmission by blocking sodium channels in nerve cells; and (5) lipopolysaccharide endotoxins. This article provides current information on the mechanisms of action of the primary toxins recognized to date as well as on procedures important in the diagnosis and management of some of the more common cyanobacterial toxicoses in livestock and waterfowl.

Toxicity of intraperitoneal doses of microcystin-LR in two strains of male mice

Male Balb/C and Swiss Webster (SW) mice were administered various i.p. doses of microcystin-LR (MCLR) to establish dose-response curves and to determine if a sublethal dose of MCLR would protect against an approximate LD100 min given 2 or 3 days later. Micocystin-LR has an extremely steep dose-lethal response curve in BC mice--LD50 = 32.5 micrograms (micrograms)/kg, approximate LD0 max = 25 micrograms/kg and approximate LD100 min = 40 micrograms/kg. Liver weights increased 64% (BC) and 51% (SW) and kidney weights increased 32% (BC) and 20% (SW) within 200 minutes following administration of an approximate LD100 min of MCLR in naive mice. Grossly and histologically the marked increase in liver weight appeared to be caused primarily from intrahepatic hemorrhage and death is probably a result of hemorrhagic shock. Twenty-four hours following administration of a sublethal dose of MCLR to naive BC mice, liver weights were increased significantly (8.7%), but no clinical signs or histologic lesions were observed. In SW mice, administration of a LD23 of MCLR resulted in significantly increased survivability and survival times when an approximate LD100 min of MCLR was given 3 days later. Survivors of the LD23/LD100 min regimen had 96 hour postdosing liver weights not significantly different from those of mice which died acutely after the same hepatotoxin treatments. These survivors showed weakness, recumbency, anorexia, and icterus, and had marked gross liver lesions. Histologically these lesions were undergoing rapid reparative processes.

Toxicity of microcystin LR, a cyclic heptapeptide hepatotoxin from Microcystis aeruginosa, to rats and mice

Rats (Sprague-Dawley) and mice (Balb/c) were given microcystin LR intraperitoneally and were killed at intervals up to 24 hr (rats) or 90 min (mice) and necropsied. The lowest consistently lethal dose was 160 micrograms/kg in rats and 100 micrograms/kg in mice. Rats that were clinically unaffected had no lesion. All clinically affected rats in all dose groups died (from 20 to 32 hr after toxin) and had similar hepatic lesions. Livers were enlarged and dark red beginning 40 to 60 min after toxin. Mild disassociation and rounding of centrilobular hepatocytes developed within 20 min. By 60 min after toxin, degeneration and necrosis of hepatocytes involved most of the lobules except for small periportal zones. Weights of livers and kidneys were significantly increased. Eosinophilic fibrillar material filled renal glomerular capillaries as early as 9 hr after toxin. At 18 to 24 hr there was moderate vacuolation of proximal tubular epithelium with mild tubular dilatation. Beginning at 1 hr, intact hepatocytes and hepatic debris were present in pulmonary vessels. Analysis of serum revealed an increase in alanine aminotransferase 40 min after toxin; at 6 to 12 hr there were significant increases in alkaline phosphatase, total bilirubin, blood urea nitrogen, and creatinine. Mice survived only 60 to 90 min after toxin. Hepatic lesions were similar to those in rats, but renal and pulmonary lesions were not seen.