Dan B. Prelusky scite author profile

Trichothecene mycotoxins are a group of structurally similar fungal metabolites that are capable of producing a wide range of toxic effects. Deoxynivalenol (DON, vomitoxin), a trichothecene, is prevalent worldwide in crops used for food and feed production, including in Canada and the United States. Although DON is one of the least acutely toxic trichothecenes, it should be treated as an important food safety issue because it is a very common contaminant of grain. This review focuses on the ability of DON to induce toxicologic and immunotoxic effects in a variety of cell systems and animal species. At the cellular level, the main toxic effect is inhibition of protein synthesis via binding to the ribosome. In animals, moderate to low ingestion of toxin can cause a number of as yet poorly defined effects associated with reduced performance and immune function. The main overt effect at low dietary concentrations appears to be a reduction in food consumption (anorexia), while higher doses induce vomiting (emesis). DON is known to alter brain neurochemicals. The serotoninergic system appears to play a role in mediation of the feeding behavior and emetic response. Animals fed low to moderate doses are able to recover from initial weight losses, while higher doses induce more long-term changes in feeding behavior. At low dosages of DON, hematological, clinical, and immunological changes are also transitory and decrease as compensatory/adaptation mechanisms are established. Swine are more sensitive to DON than mice, poultry, and ruminants, in part because of differences in metabolism of DON, with males being more sensitive than females. The capacity of DON to alter normal immune function has been of particular interest. There is extensive evidence that DON can be immunosuppressive or immunostimulatory, depending upon the dose and duration of exposure. While immunosuppression can be explained by the inhibition of translation, immunostimulation can be related to interference with normal regulatory mechanisms. In vivo, DON suppresses normal immune response to pathogens and simultaneously induces autoimmune-like effects which are similar to human immunoglobulin A (IgA) nephropathy. Other effects include superinduction of cytokine production by T helper cells (in vitro) and activation of macrophages and T cells to produce a proinflammatory cytokine wave that is analogous to that found in lipopolysaccharide-induced shock (in vivo). To what extent the elevation of cytokines contributes to metabolic effects such as decreased feed intake remains to be established. Although these effects have been largely characterized in the mouse, several investigations with DON suggest that immunotoxic effects are also likely in domestic animals. Further toxicology studies and an assessment of the potential of DON to be an etiologic agent in human disease are warranted.

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Biliary Excretion and Enterohepatic Cycling of Zearalenone in Immature Pigs

Biehl¹,

Prelusky²,

Koritz³

et al. 1993

Toxicology and Applied Pharmacology

190

135

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Cassette‐accelerated rapid rat screen: a systematic procedure for the dosing and liquid chromatography/atmospheric pressure ionization tandem mass spectrometric analysis of new chemical entities as part of new drug discovery

Korfmacher¹,

Cox²,

Ng³

et al. 2001

Rapid Comm Mass Spectrometry

155

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This report addresses the continuing need for increased throughput in the evaluation of new chemical entities (NCEs) in terms of their pharmacokinetic (PK) parameters by describing an alternative procedure for increasing the throughput of the in vivo screening of NCEs in the oral rat PK model. The new approach is called "cassette-accelerated rapid rat screen" (CARRS). In this assay, NCEs are dosed individually (n = 2 rats/compound) in batches of six compounds per set. The assay makes use of a semi-automated protein precipitation procedure for sample preparation in a 96-well plate format. The liquid chromatography/atmospheric pressure ionization tandem mass spectrometry (LC/API-MS/MS) assay is also streamlined by analyzing the samples as "cassettes of six". Using this new approach, a threefold increase in throughput was achieved over the previously reported "rapid rat screen".

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Response of growing swine to dietary exposure to pure fumonisin B₁ during an eight‐week period: Growth and clinical parameters

et al. 1996

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Consumption of corn or corn-based products contaminated with Fusarium moniliforme/fumonisins has been associated with a variety of animal and human diseases and is a major food/feed safety issue. This study focused on the clinical toxicity and performance parameters in growing swing exposed to low to moderate levels of pure fumonisin B1 (FB.) for 8 weeks. Male (castrated) and female pigs were fed diets containing 0,0.1,1.0, and 10 mg FB1/kg diet (ppm). Weight gains and feed consumption were measured weekly. Blood samples were collected throughout the study, and various clinical and hematological parameters were measured. Because fumonisins are potent inhibitors of sphingolipid biosynthesis, sphinganine and sphingosine concentrations were determined in the liver, lung, and kidney. Organ weights and carcass quality were measured at the end of the trial. In general, male pigs were more adversely affected by FB1 in the diet than females. The average daily gain for males decreased by 8% for pigs fed 1.0 ppm and by 11% at 10.0 ppm, when compared to the control (0 ppm). Males fed 0.1 ppm showed an erratic growth pattern during the first 5 weeks of the experiment. Feed consumption for the same animals was somewhat higher than that of the controls during each of the first 4 weeks but thereafter was 6-7% lower each week as compared to controls. Female pigs fed FB1-diets showed a general enhancement of feed consumption until week 4. Among clinical chemistry parameters, cholesterol increased in males for the 1.0 and 10.0 ppm diets as compared to controls after 2 weeks, while the levels in both sexes were elevated for the 1.0 ppm diet only by the end of the experiment. Serum liver enzyme concentrations were altered during week 2 only. Changes were observed in the weight of the pancreas and adrenals for male pigs fed FB1 diets as compared to controls. The free sphinganine to free sphingosine ratio (biomarker of exposure in FB1-consuming animals) increased in all three organs for the 10 ppm diet, regardless of sex. The study indicated that FB1 can cause different effects at each dose level, at concentrations as low as 0.1 ppm (showing erratic growth) followed by a reduced growth and biochemical abnormalities in blood (1.0 ppm) and sphingolipid alterations in tissues (10.0 ppm). Some of these effects occurred below the exposure level that caused alteration in sphingolipid metabolism.

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Pharmacokinetic fate of ¹⁴C‐Labelled fumonisin B₁ in Swine

1994

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The pharmacokinetics of the mycotoxin fumonisn B1 (FB1) were investigated in pigs. Animals were administered 14C-FB1 intravenously (IV; 0.25 microCi, 0.40 mg/kg) or intragastrically (IG; 0.35 microCi, 0.50 mg/kg); separate groups of pigs underwent bile cannulation prior to dosing (groups IV/B and IG/B, respectively). Blood, urine, faeces, (and bile), were collected at specific time intervals over 72 hr, and assayed for specific activity. Following IV dosing, plasma concentration-time profiles were triexponential, with the following mean values: t1/2 alpha, 2.2 min; t1/2 beta, 10.5 min; t1/2 gamma, 182 min; apparent volume distribution (Vd gamma), 2.4 l kg-1; plasma clearance, 9.1 ml min-1 kg-1. After 3 days, clearance of FB1-derived radioactivity from the body had slowed to trace levels; total recoveries in urine and faeces were 21.2% and 58.3%, respectively. In bile-interrupted pigs (IV/B) the absence of the slow terminal elimination phase (gamma) suggested FB1 underwent enterohepatic circulation. Biliary recovery was 70.8% of the IV-dose. Radioactivity remaining in tissues after 72 hr amounted to 19.8% and 11.9% of the dose given to IV and IV/B pigs, respectively; highest activities were measured in liver and kidney equivalent to 1,076 and 486 ng FB1 and/or metabolites per g tissue, respectively. Based on plasma and excretion data, systemic bioavailability following IG dosing was estimated to be a very limited 3-6%. Tissue residue levels following IG dosing were 10-20-fold less than IV dosing.

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Dan B. Prelusky

Invited Review: TOXICOLOGY OF DEOXYNIVALENOL (VOMITOXIN)

Biliary Excretion and Enterohepatic Cycling of Zearalenone in Immature Pigs

Cassette‐accelerated rapid rat screen: a systematic procedure for the dosing and liquid chromatography/atmospheric pressure ionization tandem mass spectrometric analysis of new chemical entities as part of new drug discovery

Response of growing swine to dietary exposure to pure fumonisin B₁ during an eight‐week period: Growth and clinical parameters

Pharmacokinetic fate of ¹⁴C‐Labelled fumonisin B₁ in Swine

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Dan B. Prelusky

Invited Review: TOXICOLOGY OF DEOXYNIVALENOL (VOMITOXIN)

Biliary Excretion and Enterohepatic Cycling of Zearalenone in Immature Pigs

Cassette‐accelerated rapid rat screen: a systematic procedure for the dosing and liquid chromatography/atmospheric pressure ionization tandem mass spectrometric analysis of new chemical entities as part of new drug discovery

Response of growing swine to dietary exposure to pure fumonisin B1 during an eight‐week period: Growth and clinical parameters

Pharmacokinetic fate of 14C‐Labelled fumonisin B1 in Swine

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Product

Resources

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Response of growing swine to dietary exposure to pure fumonisin B₁ during an eight‐week period: Growth and clinical parameters

Pharmacokinetic fate of ¹⁴C‐Labelled fumonisin B₁ in Swine