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Fescue toxicosis (FT) is produced by an ergot alkaloid (i.e., ergovaline [EV])-producing fungus residing in toxic fescue plants. Associations between EV, decreased weight gain and ruminal volatile fatty acids are unclear. Feces, rumen fluid, and blood were collected from 12 steers that grazed non-toxic (NT) or toxic (E +) fescue for 28 days. The E + group exhibited decreased propionate (P), increased acetate (A), and increased ruminal A:P ratio, with similar trends in feces. Plasma GASP-1 (G-Protein-Coupled-Receptor-Associated-Sorting-Protein), a myostatin inhibitor, decreased (day 14) only in E + steers. Ergovaline was present only in E + ruminal fluid and peaked on day 14. The lower ruminal propionate and higher A:P ratio might contribute to FT while reduced GASP-1 might be a new mechanism linked to E + -related weight gain reduction. Day 14 ergovaline zenith likely reflects ruminal adaptations favoring EV breakdown and its presence only in rumen points to local, rather than systemic effects.

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Gulf War Illness (GWI) manifests a multitude of symptoms, including neurological and immunological, and approximately a third of the 1990-1991 Gulf War (GW) veterans suffer from it. This study sought to characterize the acute neurochemical (monoamine) and neuroinflammatory profiles of two established GWI animal models and examine the potential modulatory effects of the novel immunotherapeutic Lacto-N-fucopentaose III (LNFPIII). In Model 1, male C57BL/6 J mice were treated for 10 days with pyridostigmine bromide (PB) and permethrin (PM). In Model 2, a separate cohort of mice were treated for 14 days with PB and N,N-Diethyl-methylbenzamide (DEET), plus corticosterone (CORT) via drinking water on days 8-14 and diisopropylfluorophosphate (DFP) on day 15. LNFPIII was administered concurrently with GWI chemicals treatments. Brain and spleen monoamines and hippocampal inflammatory marker expression were examined by, respectively, HPLC-ECD and qPCR, 6 h post treatment cessation. Serotonergic (5-HT) and dopaminergic (DA) dyshomeostasis caused by GWI chemicals was apparent in multiple brain regions, primarily in the nucleus accumbens (5-HT) and hippocampus (5-HT, DA) for both models. Splenic levels of 5-HT (both models) and norepinephrine (Model 2) were also disrupted by GWI chemicals. LNFPIII treatment prevented many of the GWI chemicals induced monoamine alterations. Hippocampal inflammatory cytokines were increased in both models, but the magnitude and spread of inflammation was greater in Model 2; LNFPIII was anti-inflammatory, more so in the apparently milder Model 1. Overall, in both models, GWI chemicals led to monoamine disbalance and neuroinflammation. LNFPIII co-treatment prevented many of these disruptions in both models, which is indicative of its promise as a potential GWI therapeutic.

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Mounting experimental evidence, predominantly from male rodents, demonstrates that high-fat diet (HFD) consumption and ensuing obesity are detrimental to the brain. To shed additional light on the neurological consequences of HFD consumption in female rodents and to determine the relatively early impact of HFD in the likely continuum of neurological dysfunction in the context of chronic HFD intake, this study investigated effects of HFD feeding for up to 12weeks on selected behavioral, neurochemical, and electrophysiological parameters in adult female C57BL/6 mice; particular focus was placed on the ventral hippocampus (vHIP). Selected locomotor, emotional and cognitive functions were evaluated using behavioral tests after 5weeks on HFD or control (low-fat diet) diets. One week later, mice were sacrificed and brain regional neurochemical (monoamine) analysis was performed. Behaviorally naïve mice were maintained on their respective diets for an additional 5-6weeks at which time synaptic plasticity was determined in ex vivo slices from the vHIP. HFD-fed female mice exhibited increased: (i) locomotor activity in the open field testing, (ii) mean turn time on the pole test, (iii) swimming time in the forced swim test, and (iv) number of marbles buried in the marble burying test. In contrast, the novel object recognition memory was unaffected. Mice on HFD also had decreased norepinephrine and dopamine turnover, respectively, in the prefrontal cortex and the vHIP. HFD consumption for a total of 11-12weeks altered vHIP synaptic plasticity, evidenced by significant reductions in the paired-pulse ratio and long-term potentiation (LTP) magnitude. In summary, in female mice, HFD intake for several weeks induced multiple behavioral alterations of mainly anxiety-like nature and impaired monoamine pathways in a brain region-specific manner, suggesting that in the female, certain behavioral domains (anxiety) and associated brain regions, i.e., the vHIP, are preferentially targeted by HFD.

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Previous studies that investigated the role of inflammation in the neurotoxicity of manganese (Mn) found that Mn enhanced the production of inflammogen (lipopolysaccharide; LPS)-induced proinflammatory cytokines such as IL-6 and TNF-alpha. Although we have shown that the enhanced cytokine production occurs via a NF-kappaB-dependent mechanism, the role of upstream kinases in this Mn-induced enhancement has not been explored. As other studies have demonstrated that p38 mitogen activated protein kinase (p38) is necessary for LPS-induced, NF-kappaB-dependent expression of proinflammatory cytokines, we hypothesized that Mn enhancement of LPS-induced production of IL-6 and TNF-alpha may be associated with p38 activation and conducted a series of experiments to address our hypothesis. We found that pre-treatment of microglial cells with a p38-inhibitor (SB203580) prevented Mn+LPS-induced production of IL-6 and TNF-alpha. Moreover, potentiation of IL-6 and TNF-alpha production, which occurred in both concurrent and sequential (3h apart) exposures to Mn and LPS, was inhibited by inhibition of p38. Additionally, Mn exposure enhanced the phosphorylation and activity of p38 and this effect was persistent. Although p38 activity declined over time LPS-exposed cells, it persisted in cells exposed to Mn or Mn+LPS. Thus, the increased production of proinflammatory cytokines by LPS-activated microglia exposed to Mn is associated with increased and persistent activation of p38.

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The herbicide atrazine (ATR) is a very commonly used pesticide in the United States. and a major ground water contaminant. It has also been recently implicated as a potential basal ganglia toxicant. In the present study, our objective was to determine the effects of ATR exposure on striatal neurochemistry, on the number of dopaminergic neurons in the substantia nigra pars compacta (SNpc), and, as a reference, in the ventral tegmental area (VTA) of male juvenile C57BL/6 mice. Oral exposure to ATR for 14 days dose-dependently decreased the levels of dopamine (DA) and its metabolites in the striatum for up to a week post-treatment. ATR exposure also time- and dose-dependently decreased the number of tyrosine hydroxylase-positive (TH+) dopaminergic neurons in both SNpc and VTA (with effects being slightly more prominent in SNpc), such that the decreases were most evident at 7 weeks post-cessation of exposure to ATR. Together, these data indicate that, in the juvenile male C57BL/6 mouse, the neurotoxic effects of ATR appear to cause transient neurochemical alterations, whereas the loss of TH+ neurons appears to be persistent, possibly confined to basal ganglia dopaminergic neurons, but not exclusive to the SNpc.

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Consumption of wild-type (toxic) endophyte-infected tall fescue (E+) by horses during late gestation is known to adversely affect pregnancy outcome; however, little is known of the potential disruptive consequences of E+ consumption by mares during the critical phases of placentation and fetal development in early pregnancy. The objective of this study was to evaluate the detrimental effects of feeding E+ to mares during early gestation. Mares (n = 12) paired by stage of gestation (d 65 to 100) were assigned to diets (six per diet) consisting of endophyte-free (E-) or E+ tall fescue seed (50% E- or E+ tall fescue seed, 45% sweet feed, and 10% molasses fed at 1.0% of BW/d). Mares also had ad libitum access to E+ or E- annual ryegrass hay, and were fed diets for 10 d. Following removal from the tall fescue diet on d 11, mares were placed on common bermudagrass pasture and monitored until d 21. Morning and evening rectal temperatures were recorded and daily blood samples were collected for progesterone and prolactin (PRL) analyses, whereas samples for 3,4-dihydroxyphenyl acetic acid (a catecholamine metabolite) analysis were collected on alternate days. For clinical chemistry analysis, blood samples were collected on d 0, 5, 10 and 21. Daily urine samples were collected for ergot alkaloid analysis, and ultrasonography was performed for presence of echogenic material in fetal fluids. Rectal temperatures (E+ 37.76+/-0.03; E- 37.84+/-0.03 degrees C) and serum PRL concentrations (E+ 14.06< or =0.76; E- 12.11+/-0.76 ng/mL) did not differ (P = 0.96) between treatments. Measuring the change in basal serum concentration from d 0 over time, progesterone concentrations did not differ (-0.64 +/-1.49 and -0.55+/-1.47 ng/mL for E+ and E- mares, respectively). There was no negative pregnancy outcome, and ultrasonography indicated no increase in echogenic material in fetal fluids. Plasma 3,4-dihydroxyphenyl acetic acid concentrations decreased (P < 0.05) in E+ compared with E- mares (2.1+/-0.14 and 4.4+/0.43 ng/mL, respectively). Urinary ergot alkaloid concentration was greater (P < 0.01) in mares consuming E+ compared with E- (532.12+/- 52.51 and 13.36+/-2.67 ng/mg of creatinine, respectively). Although no fetal loss was observed during the current study, elevated concentrations of urinary ergot alkaloid were consistent with depressed endogenous catecholamine activity, suggestive of an endocrine disruptive effect of hypothalamic origin.

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The objective of this experiment was to investigate whether the ergot alkaloid, ergotamine (ET), an alkaloid used to model fescue toxicosis in cattle, modifies the response of cattle to endotoxin (LPS) challenge. Steers (n = 16) were divided into the following treatment groups: control (C), ergotamine (ET), endotoxin (LPS), and ET + LPS. ET and ET + LPS groups received a single bolus intravenous injection of ET (40 microg. kg. body wt(-1)), whereas C and LPS steers received a single bolus injection of sterile vehicle. Thirty minutes after ET/vehicle administration, a single bolus intravenous injection of LPS (0.2 microg. kg. body wt(-1)) was given. Blood was collected at various time points for 48 hr post. Endotoxin increased rectal temperature (RT) and the circulating levels of tumor necrosis factor-alpha (TNF-alpha), cortisol, haptoglobin (Hp), thromboxane B(2) (TXB(2)). The circulating Hp, TNF-alpha, and TXB(2) increases were blunted by pretreatment with ET compared with ET + LPS. Ergotamine by itself increased circulating cortisol and RT, whereas it decreased serum prolactin (PRL). Therefore, whereas administration of LPS at 0.2 microg/kg to steers resulted in an expected response, the combination of ET + LPS attenuated major effects of LPS alone. Thus, acute administration of ET appeared to be anti-inflammatory as it decreased the inflammatory response to LPS, an effect likely driven at least in part by the ET-caused cortisol increase.

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Exposure to the well known environmental toxicant lead is typically assessed by blood and/or bone levels and has been implicated in the onset of a variety of diseases affecting multiple human systems. However, there are conflicting data regarding the efficiency of in utero versus lactational transfer of lead to offspring, and the immunomodulatory effects of lead in early life have not been well defined. Pregnant BALB/c mice were exposed to lead acetate in their drinking water beginning at approximately day 15 of gestation, and cross-fostering of exposed/nonexposed litters was performed at parturition. Significant increases of blood lead levels of all exposed offspring were found at 1 week of age with evidence for both transplacental and lactational transfer. Additionally, mice exposed to lead continuously beginning at approximately 6 days prior to birth showed significant decreases in their blood lead levels 2 weeks after weaning, despite continued exposure as adults. This result suggests maternal transfer of lead is more efficient than oral adult exposure and that substantial lead transfer occurs both transplacentally and lactationally. The incidence of childhood atopic responses including asthma has risen considerably in recent years, particularly within areas containing higher levels of environmental pollutants. Plasma IgE levels of 2-week-old neonates exposed to lead before and/or after birth were measured as an index of atopy. Neonates exposed to lead transplacentally and/or lactationally had significantly higher plasma IgE levels, a biomarker of atopy, and lower splenic white blood cell numbers than age-matched controls. These results resemble the lag in immunocompetency and increase in serum IgE noted in atopic children and suggest a role for environmental toxicants and non-allergen-specific immunology in the prevalence of atopy and asthma in children.

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Fescue toxicosis in cattle occurs as a result of consumption of ergot alkaloids in endophyte-infected (E+, Neotyphodium coenophialum) tall fescue (Festuca arundinacea). The condition is characterized by pyrexia, decreased weight gains, rough hair coats, and decreased calving rates. The objective of this experiment was to investigate whether steers grazing E+ fescue have altered host response to lipopolysaccharide (endotoxin, LPS) challenge compared with steers grazing endophyte-free (E-) fescue. Angus steers (n=8) had continuously grazed either E+ (n=4) or E- (n=4) tall fescue grass for 8 months prior to the experiment. The E+ steers had lower body weight, depressed average daily gain, and decreased basal serum prolactin compared with the E- steers prior to LPS administration. Each steer received a single bolus i.v. injection of LPS (0.2 microgram/kg body weight; Escherichia coli; 026:B6) dissolved in sterile saline, and blood was serially collected every 30 min for 4 h and at 24 h post LPS administration. LPS increased serum tumor necrosis factor-alpha (TNF-alpha), cortisol, and haptoglobin but decreased plasma glucose and IGF-I. Importantly, however, TNF-alpha, cortisol, and IGF-I responses to LPS were greater in E+ compared with E- steers. These results indicated that animals grazing E+ fescue had altered integrated metabolic host response compared with animals grazing E- fescue. Potentially, combined exposure to E+ fescue and a bacterial LPS could have greater deleterious effects on the animal compared with exposure to only one of the two and would likely lead to increased catabolism.

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The ergopeptine alkaloid ergotamine (ET) mimics the effects of ergopeptine alkaloids found in endophyte-infected (E+) fescue forage considered causative for fescue toxicosis. Altered immune capacity, compromised intake and thermoregulation, and inflammatory changes are observed in fescue toxicosis. Taken together, these suggest the cytokine pattern may be altered by ergot alkaloids. Thus, the objective of this study was to determine whether major splenocyte-derived cytokines--interleukin 2 (IL-2), interleukin 4 (IL-4), interferon gamma (IFN-gamma)--and macrophage-derived cytokines--interleukin 1beta, (IL-1beta), interleukin 6 (IL-6), and tumor necrosis factor alpha (TNF-alpha)--were affected by ergotamine. Two sets of male BALB/c mice (n = 5/treatment) were treated with ergotamine tartrate (s.c.) for 10 d at doses of 0 (control), 0.4, 2, 10, or 50 mg/kg body weight. Twenty-four hours after the last treatment, splenocytes (S) were isolated from one set of animals and macrophages (Mphi) from the other set for determination of IL-2, IL-4, INF-gamma, and IL-1beta, IL-6, TNF-alpha, respectively. Following activation with 5 microg/ml concanavalin A (Con A) (S) and 10 microg/ml lipopolysaccharide (LPS) (Mphi), cells were incubated for 48 and 24 h, respectively, and supernatants were collected and assayed for respective cytokines by enzyme-linked immunosorbent assay (ELISA). Additionally, differential white blood cell (WBC) counts were performed and the neutrophil (N):lymphocyte (L) ratio calculated. Ergotamine treatment significantly increased IL-6 levels at the 2.0 mg/kg dose and greater and TNF-alpha at the highest dose. There was no treatment effect on IL-1beta, IL-2, IL-4, and IFN-gamma. Also, no effect was observed upon total and differential WBC counts as well as N:L ratio. Ergotamine affected the proinflammatory cytokine IL-6, and this increase may contribute to fescue tosicosis.

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Ergot alkaloids (EA) such as the ergopeptine alkaloid ergotamine (ET) are adrenergic, dopaminergic, and serotonergic agents. The objective of this experiment was to investigate regional brain neurotransmitter alterations caused by EA. Male BALB/c mice were treated s.c. daily with ergotamine tartrate for 10 d at 0 (saline), 0.4, 2, 10, or 50 mg/kg body weight. Twenty-four hours after the last treatment, animals were sacrificed and brains dissected. Regional concentrations of norepinephrine (NE), dopamine (DA), serotonin (5-HT), and metabolites 3-methoxy-4-hydroxyphenylethylene glycol (MHPG), dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), and 5-hydroxyindole-3-acetic acid (5-HIAA) were measured by high-performance liquid chromatography (HPLC). Moreover, selected organ weights and plasma prolactin (PRL) were determined. Dopamine concentration was significantly reduced by ET at all doses in the striatal and hypothalamic regions. A reduction of the DA metabolite HVA occurred in striatum at only the highest dose, whereas in the hypothalamus both HVA and DOPAC were markedly reduced. Concentrations of NE, MHPG, 5-HT, and 5-HIAA were not affected by treatment in these regions. In the cerebellum, MHPG was significantly elevated at the 50 mg/kg dose. No effect of treatment was observed in the cerebrum, medulla, and midbrain. Further, no treatment-related differences in plasma PRL and organ weights other than a significant liver weight decrease at intermediate doses were found. Therefore, the effects of ET were predominantly upon DA metabolism in the corpus striatum and hypothalamus. The reductions in DA, HVA, and DOPAC indicate decreased DA synthesis.

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Three sequential experiments were conducted with rabbits to 1) determine the effect of endophyte-infected (E+) tall fescue seed on rabbit performance and examine the effect of anti-ergot alkaloid immunization on rabbit performance and protectiveness against fescue toxicosis, 2) compare immunogens designed to elicit systemic anti-ergot alkaloid antibodies, and 3) select a superior adjuvant. In Exp. 1, rabbits (n = 6/treatment) fed E+ fescue seed diets (20%, 340 ppb total ergot alkaloids) had reduced (P < .05) intake and weight gain compared with endophyte-free (E-) controls, whereas apparent diet digestibility was not different between E+ and E-. Rabbits immunized against ergot alkaloids (E+ vac) with lysergol conjugated to human serum albumin (Ly-HSA) had greater (P < .05) intake than E+ rabbits during the wk 1 of a 3-wk dietary challenge. In Exp. 2, rabbits (n = 4/treatment) were immunized with Ly-HSA, with H100-B (ergot alkaloid hapten, H100-different protein carrier, B conjugate), or combinations of both with alum as adjuvant. Greatest (P < .001) anti-ergot alkaloid antibody (Ab) titer developed in the group immunized with H100-B. In Exp. 3, rabbits (n = 4/treatment) were immunized with the immunogen H100-B in conjunction with six adjuvants. Freund's incomplete adjuvant (FIA) in combination with DEAE-dextran and FIA alone gave highest anti-ergot titers. In summary, rabbit weight gain and intake were reduced by feeding E+ fescue seed diets, immunization against ergot alkaloids provided temporary improvement in intake, and H100-B conjugate with FIA or FIA + DEAE-dextran as adjuvants elicited a superior anti-ergot immune response. We believe that rabbits may serve as a model animal for fescue toxicosis research.

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