Inhibition and recovery of maternal and foetal cholinesterase enzymes following fenitrothion administration in CD rats.

The purpose of this study was to characterize tissue esterase activity and blood fenitrothion concentrations in the rat dam and foetus following in-utero exposure to the organophosphate insecticide fenitrothion. Time-mated, 8-week-old rats were gavaged on gestation day 19 with 0, 5, or 25 mg fenitrothion kg-1. Fenitrothion was absorbed rapidly from the gastrointestinal tract, with peak maternal and foetal blood levels observed 0.5-1.0 h after dosing. Fenitrothion concentrations in maternal and foetal blood were virtually identical and demonstrated a non-linear dose-response relationship. Acetylcholinesterase and carboxylesterase activities in maternal liver and blood and in foetal liver and brain decreased within 30-60 min of fenitrothion exposure. Esterase inhibition occurred at a fenitrothion dose (5 mg kg-1) that has not been previously associated with reproductive toxicity, suggesting that esterase inhibition should be considered as the critical effect in risk assessments for this pesticide.

Neurotoxicological effects associated with short-term exposure of Sprague-Dawley rats to hydrogen sulfide.

Although hydrogen sulfide (H2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or behavioral effects. Our aim was to determine if short-term inhalation exposure of rats to H2S would result in altered brain catecholamnine levels or impaired learning and memory. Three groups of adult male CD rats were tested; two groups were exposed by nose-only inhalation (0, 30, 80, 200, or 400 ppm H2S) and one group was exposed by whole-body inhalation (0, 10, 30, or 80 ppm H2S) for 3 h per day forfive consecutive days. The first group (n = 10 rats per concentration) was tested immediately following each daily nose-only H2S exposure for spatial learning with a Morris water maze. Core body temperatures were also monitored in these animals during and after the last H2S exposure. The second group of rats (n = 10 rats per concentration) was tested for spontaneous motor activity immediately following the fifth exposure. These rats were then euthanized and striatal, hippocampal, and hindbrain catecholamnine levels determined. A third group of rats (n = 5-7 rats per concentration) was pretrained on a multiple fixed- interval (FI) schedule and exposed whole-body. Daily performance on the FI schedule was compared for the week pre-exposure, for the exposure week immediately following daily exposures, and for the week postexposure. We observed significant reductions in motor activity, water maze performance, and body temperature following exposure only to high concentrations (> or = 80 ppm) of H2S. Exposure to H2S did not affect regional brain catecholamine concentrations or performance on the FI schedule. Additional studies using other measures of behavior and longer-term exposure to H2S may be required to more definitively address conditions under which H2S exposure results in behavioral toxicity.

Influence of dietary manganese on the pharmacokinetics of inhaled manganese sulfate in male CD rats.

Concerns exist as to whether individuals with relative manganese deficiency or excess may be at increased risk for manganese toxicity following inhalation exposure. The objective of this study was to determine whether manganese body burden influences the pharmacokinetics of inhaled manganese sulfate (MnSO(4)). Postnatal day (PND) 10 rats were placed on either a low (2 ppm), sufficient (10 ppm), or high (100 ppm) manganese diet. The feeding of the 2 ppm manganese diet was associated with a number of effects, including reduced body weight gain, decreased liver manganese concentrations, and reduced whole-body manganese clearance rates. Beginning on PND 77 +/- 2, male littermates were exposed 6 h/day for 14 consecutive days to 0, 0.092, or 0.92 mg MnSO(4)/m(3). End-of-exposure tissue manganese concentrations and whole-body (54)Mn elimination rates were determined. Male rats exposed to 0.092 mg MnSO(4)/m(3) had elevated lung manganese concentrations when compared to air-exposed male rats. Male rats exposed to 0.92 mg MnSO(4)/m(3) developed increased striatal, lung, and bile manganese concentrations when compared to air-exposed male rats. There were no significant interactions between the concentration of inhaled MnSO(4) and dietary manganese level on tissue manganese concentrations. Rats exposed to 0.92 mg MnSO(4)/m(3) also had increased (54)Mn clearance rates and shorter initial phase elimination half-lives when compared with air-exposed control rats. These results suggest that, marginally manganese-deficient animals exposed to high levels of inhaled manganese compensate by increasing biliary manganese excretion. Therefore, they do not appear to be at increased risk for elevated brain manganese concentrations.

Influence of particle solubility on the delivery of inhaled manganese to the rat brain: manganese sulfate and manganese tetroxide pharmacokinetics following repeated (14-day) exposure.

Dissolution rate can influence the pulmonary clearance of a metal and thus affect its delivery to the brain and other organs. The goal of this study was to determine the exposure-response relationship for the relatively soluble sulfate (MnSO(4)) and insoluble tetroxide (Mn(3)O(4)) forms of inhaled manganese in adult male CD rats. Rats were exposed 6 h/day for 7 days/week (14 exposures) to either MnSO(4) or Mn(3)O(4) at 0, 0.03, 0.3, or 3 mg Mn/m(3). End-of-exposure olfactory bulb, striatum, cerebellum, bile, lung, liver, femur, serum, and testes (n = 6 rats/concentration/chemical) manganese concentrations and whole-body (54)Mn elimination were then determined. Increased whole-body (54)Mn clearance rates were observed in animals from the high-dose (3 mg Mn/m(3)) MnSO(4) and Mn(3)O(4) exposure groups. Elevated manganese concentrations in the lung were observed following MnSO(4) and Mn(3)O(4) exposure to > or=0.3 mg Mn/m(3). Increased olfactory bulb and femur manganese concentrations were also observed following MnSO(4) exposure at > or=0.3 mg Mn/m(3). Elevated striatal, testes, liver, and bile manganese concentrations were observed following exposure to MnSO(4) at 3 mg Mn/m(3). Elevated olfactory bulb, striatal, femur, and bile manganese concentrations were observed following exposure to Mn(3)O(4) at 3 mg Mn/m(3). Animals exposed to MnSO(4) (3 mg Mn/m(3)) had lower lung and higher olfactory bulb and striatal manganese concentrations compared with levels achieved following similar Mn(3)O(4) exposures. Our results suggest that inhalation exposure to soluble forms of manganese results in higher brain manganese concentrations than those achieved following exposure to an insoluble form of manganese.

Neurotoxicity of manganese chloride in neonatal and adult CD rats following subchronic (21-day) high-dose oral exposure.

The purpose of this study was to evaluate the relative sensitivity of neonatal and adult CD rats to manganese-induced neurotoxicity. Identical oral manganese chloride (MnCl(2)) doses (0, 25, or 50 mg kg(-1) body wt. day(-1)) were given to neonatal rats throughout lactation (i.e. from postnatal day (PND) 1 through 21) and to adult male rats for 21 consecutive days. The MnCl(2) doses administered to neonates were ca. 100-fold higher than those resulting from the consumption of an equivalent volume of rat's milk. Rats were assessed using similar behavioral and neurochemical evaluations. Several statistically significant changes occurred in Mn-exposed rats relative to control animals. Neonates given the high dose of MnCl(2) had reduced body weight gain. An increased pulse-elicited acoustic startle response amplitude was observed in neonates from both MnCl(2) treatment groups on PND 21. Increased striatal, hippocampal, hindbrain and cortical Mn concentrations were observed in all Mn-exposed neonates on PND 21. Increased hypothalamic and cerebellar Mn concentrations were also observed on PND 21 in neonates from the high-dose group only. Increased striatal, cerebellar and brain residue Mn concentrations were observed in adult rats from the high-dose group. Increased striatal dopamine and 3,4-dihydroxyphenylacetic acid levels were observed only in PND 21 neonates from the high-dose group. No treatment-related changes were observed in clinical signs, motor activity (assessed in neonates on PND 13, 17, 21 +/- 1 and in adults), passive avoidance (assessed in neonates on PND 20 +/- 1 and in adults) or neuropathology (assessed in PND 21 neonates only). The results of our experiment suggest that neonates may be at greater risk for Mn-induced neurotoxicity when compared to adults receiving similar high oral levels of Mn.

Fertility and developmental neurotoxicity effects of inhaled hydrogen sulfide in Sprague-Dawley rats.

In this study, we examined whether perinatal exposure by inhalation to hydrogen sulfide (H2S) had an adverse impact on pregnancy outcomes, offspring prenatal and postnatal development, or offspring behavior. Virgin male and female Sprague-Dawley rats (12 rats/sex/concentration) were exposed (0, 10, 30, or 80 ppm H2S; 6 h/day, 7 days/week) for 2 weeks prior to breeding. Exposures continued during a 2-week mating period (evidence of copulation = gestation day 0 = GD 0) and then from GD 0 through GD 19. Exposure of dams and their pups (eight rats/litter after culling) resumed between postnatal day (PND) 5 and 18. Adult male rats were exposed for 70 consecutive days. Offspring were evaluated using motor activity (PND 13, 17, 21, and 60+/-2), passive avoidance (PND 22+/-1 and 62+/-3), functional observation battery (PND 60+/-2), acoustic startle response (PND 21 and 62+/-3), and neuropathology (PND 23+/-2 and 61+/-2). There were no deaths and no adverse physical signs observed in F0 male or female rats during the study. A statistically significant decrease in feed consumption was observed in F0 male rats from the 80-ppm H2S exposure group during the first week of exposure. There were no statistically significant effects on the reproductive performance of the F0 rats as assessed by the number of females with live pups, litter size, average length of gestation, and the average number of implants per pregnant female. Exposure to H2S did not affect pup growth, development, or performance on any of the behavioral tests. The results of our study suggest that H2S is neither a reproductive toxicant nor a behavioral developmental neurotoxicant in the rat at occupationally relevant exposure concentrations (< or =10 ppm).

Neurotoxicological evaluation of ethyl tertiary-butyl ether following subchronic (90-day) inhalation in the Fischer 344 rat.

The purpose of this study was to evaluate whether repeated 6-h exposure (65 exposures over a 14- week period) of male and female Fischer-344 rats (n = 12 rats/sex/concentration) to ethyl tertiary-butyl ether (ETBE) atmospheres at 500, 1750, or 5000 ppm would result in neurotoxicity. Neurotoxicity was assessed by a blinded functional observational battery (FOB), motor activity, and terminal neuropathology. Motor activity was assessed 4 days prior to ETBE exposure and following 20, 42, and 65 days of exposure. The FOB was assessed 4 days prior to ETBE exposure and following 1, 6, 10, 20, 42, and 65 days of exposure. Transient ataxia, a sign of narcosis, was noted in male rats immediately following the 6-h exposure to 5000 ppm ETBE. Statistically significant treatment effects on motor activity were not observed. Minor changes in grip strength and hindlimb splay were observed; however, none demonstrated a dose-response relationship or a consistent pattern of neurological dysfunction. No gross or microscopic abnormalities were observed in the central, peripheral, or autonomic nervous systems of rats exposed to 5000 ppm ETBE. No statistically significant differences in brain weight or size were observed in ETBE-exposed rats. A statistically significant increase in body weight was observed in female rats exposed to 5000 ppm following 42 and 65 exposure days. Although ataxia was a common feature of acute ETBE neurotoxicity in rats following high-level exposure, adverse neurological effects are not expected in the general public at the anticipated exposure levels associated with automotive refueling.

Design and evaluation of an olfactometer for the assessment of 3-methylindole-induced hyposmia.

Few studies objectively evaluate olfactory function in animals following exposure to chemicals that induce nasal toxicity. An olfactometer capable of generating a reproducible olfactory stimulus and measuring an odorant-cued behavioral response was developed for rats from a commercially available two-way shuttle box. The box was modified to deliver the test odorant, acetaldehyde, to either of two chambers separated by a physical barrier consisting of a downward-directed airwall sandwiched between two exhaust panels. Male Fisher 344 rats were trained with either a coupled odorant- or tone-cued active avoidance paradigm in order to compare auditory-cued versus olfactory-cued learning and memory. Odorant-cued animals had faster acquisition and longer retention of the avoidance behavior than tone-cued animals. Animals given the model olfactory toxicant 3-methylindole (3-MI, 400 mg/kg, ip) had reduced odorant-cued avoidance, while no effect on tone-cued behavior was observed. In a follow-up study, additional odorant-trained rats were dosed with 0, 100, 200, or 300 mg/kg of 3-MI ip and olfactory function reassessed 6 days later. Histopathologic evidence of moderate to severe olfactory epithelial damage was observed in all rats 7 days after 3-MI administration. Only the highest 3-MI dose (300 mg/kg) was associated with a significant reduction in odor-cued avoidance behavior as compared to that seen in control. These results indicate that use of this olfactometer can provide a functional assessment of chemically induced olfactory toxicity and complements more routine nasal pathology.

Role of formate in methanol-induced exencephaly in CD-1 mice.

Mouse embryos develop exencephaly when dams are exposed by inhalation to high concentrations (> or = 10,000 ppm) of methanol on gestational day 8 (GD8; copulation plug = GD0). The present study examined the role of formate, an oxidative metabolite of methanol, in the development of methanol-induced exencephaly in CD-1 mice and cultured mouse embryos. The pharmacokinetics and developmental toxicity of sodium formate (750 mg/kg by gavage), a 6-hr methanol inhalation (10,000 or 15,000 ppm), or methanol gavage (1.5 g/kg) in pregnant CD-1 mice on GD8 were determined. Gross morphological evaluations for neural tube closure status in embryos or exencephaly in near-term fetuses were performed. Decidual swellings and maternal plasma were analyzed for methanol and formate. The mean (+/- S.E.M.) end-of-exposure plasma methanol concentration was 223 +/- 23 mM following the 6-hr, 15,000 ppm methanol inhalation. There were no changes in blood or decidual swelling formate concentrations under any of the methanol exposure conditions. Peak formate levels in plasma (1.05 +/- 0.2 mM; control 0.5 +/- 0.3 mM) and decidual swelling (2.0 +/- 0.2 mM; control 1.1 +/- 0.2 mM) from pregnant mice (GD8) given sodium formate (750 mg/kg, po) were similar to those observed following a 6-hr methanol inhalation of 15,000 ppm (plasma = 0.75 +/- 0.1 mM; decidual swelling = 2.2 +/- 0.3 mM) but did not result in exencephaly.(ABSTRACT TRUNCATED AT 250 WORDS)

Age and gender effect on the inducibility of steroid metabolizing cytochrome P450 in rat liver.

Liver microsomal steroid hydroxylases and 5 alpha reductase activities were evaluated by quantitation of specific metabolites from 4-C14 progesterone after TLC separation. Each enzyme showed a different developmental profile depending on the gender of the rat. Dexamethasone induced both 6 beta and 16 alpha progesterone hydroxylase, being more potent for 6 beta (3 to 4 folds) than 16 alpha (1.2 to 1.6 folds). A comparison of the inducibility of 6 beta and 16 alpha hydroxylase by dexamethasone in rats from different age groups showed that for both enzymes, the degree of increase was higher in the younger than older groups. Thus there is a blunting in the responsiveness to dexamethasone induction of both 6 beta and 16 alpha hydroxylase with age particularly in female animals. This decrease in responsiveness in older females could potentially affect their capacity to metabolize endogenous and exogenous agents.

Cholesterol content but not plasma membrane fluidity influences the susceptibility of L1210 leukemia cells to merocyanine 540-sensitized irradiation.

This paper examines the relationship between lipid composition, plasma membrane fluidity, expression of dye binding sites, and susceptibility to merocyanine 540 (MC540)-sensitized irradiation in L1210 leukemia cells. Reducing the cells' cholesterol content by exchange diffusion with phosphatidylcholine liposomes or by inhibiting its biosynthesis with 25-hydroxycholesterol enhanced plasma membrane fluidity, the expression of dye binding sites, and the cells' susceptibility to MC540-sensitized irradiation. Conversely, if the cholesterol content was enhanced by exchange diffusion with cholesterol:phosphatidylcholine liposomes, the cells' susceptibility to MC540-sensitized irradiation was decreased. However, contrary to expectations, dye-binding was slightly enhanced and plasma membrane fluidity remained unchanged. Growing the cells in fatty acid-supplemented medium had profound effects on their lipid composition. Cells enriched in polyunsaturated fatty acids had more fluid plasma membranes. However, dye-binding was not significantly affected and photosensitivity was slightly reduced. These results suggest that cholesterol is one, but probably not the only, determinant of the expression of cellular dye binding sites and, consequently, the cell's susceptibility to MC540-sensitized irradiation. By contrast, plasma membrane fluidity does not appear to play a major role in the regulation of dye-binding site expression.

Modulation of lingual lipase development by glucocorticoid in the rat.

Lingual lipase in the rat is present in the neonatal period and undergoes developmental increase during postnatal life. To evaluate the role of glucocorticoid in the control of lingual lipase during development, suckling rats were adrenalectomized at d 10 and various hormone replacements were performed. Adrenalectomy abolished the developmental increase of lingual lipase. Low doses of dexamethasone (0.2 and 0.5 microgram/100 g body wt) restored the lingual lipase to near normal level in adrenalectomized animals. High doses of dexamethasone (20 micrograms/100 g body wt), when given to similarly adrenalectomized animals, however, led to a reduction of lingual lipase levels. Inhibition by dexamethasone is through the action of the hormone inasmuch as the coadministration of RU38486, a glucocorticoid type II receptor antagonist, completely abolished the inhibitory action. Inhibition is also steroid specific, with dexamethasone and triamcinolone acetonide being more effective. The results suggest a unique bimodal regulation of lingual lipase by dexamethasone in the rat serous glands. Because of the possible importance of lingual lipase as an alternative enzyme for fat digestion in neonates, the inhibitory action of high doses of glucocorticoid on lingual lipase development may have important implications. The use of steroidal compounds in the hastening of lung maturation and treatment of inflammatory disease might conceivably compromise their lingual lipase development, hence their capacities of fat digestion and malabsorption in the same period.

Glucose metabolism in obesity: influence of body fat distribution.

The dose-response relationships between portal venous insulin concentrations and hepatic glucose production and between peripheral insulin concentrations and peripheral glucose utilization were determined in 8 nonobese and 17 obese premenopausal women with either upper or lower body fat localization. The glucose production dose-response curves for the two obese groups were shifted to the right at all levels of portal insulinemia. The upper body obese women had a greater rightward shift compared to the lower body obese women. The peripheral glucose utilization dose-response curve was shifted to the right in the lower body obese women, but maximal glucose utilization was normal. The upper body obese women had both a greater rightward shift and a marked reduction in maximal glucose utilization. The insulin concentrations that had half-maximal effects on glucose production and utilization were similar in each group. These results indicate that the liver is not inherently more sensitive to insulin than peripheral tissues. Obesity is associated with a moderate diminution of hepatic and peripheral insulin sensitivity. Upper body fat localization in obese women is characterized by a greater diminution in insulin sensitivity and decline in peripheral insulin responsivity than is lower body fat localization. The marked peripheral insulin resistance in the former group may account for the increased prevalence of glucose intolerance.

Relationship of androgenic activity to splanchnic insulin metabolism and peripheral glucose utilization in premenopausal women.

The importance of androgenic activity in mediating the effects of obesity and body fat topography on splanchnic insulin metabolism and peripheral insulin sensitivity was studied in 19 nonhirsute premenopausal women with a wide range of ideal body weight [percent ideal body weight (% IBW), 78-202%] and body fat distribution pattern [waist to hip girth ratio (WHR), 0.67-0.91]. Turnover kinetics of peripheral plasma C-peptide and insulin were measured, and estimates of pancreatic insulin production (PIP) and the hepatic extraction fraction (HEF) were calculated. The peripheral insulin sensitivity index (M/I) was determined during an euglycemic insulin clamp study. Androgenic activity was assessed by estimating the plasma level of sex hormone-binding globulin (SHBG) and percentage of free testosterone (% FT). After iv glucose stimulation, PIP ranged from 40-254 mU/min X m2 and correlated highly with % IBW (r = 0.78; P less than 0.01). Insulin HEF ranged from 5-69% of the pancreatic production and was inversely proportional to WHR (r = -0.60; P less than 0.01). Increasing WHR also correlated with the diminution in M/I (r = -0.47; P less than 0.05), which, in turn, correlated with the decline in the HEF of insulin (r = 0.60; P less than 0.01). Since PIP, HEF, and M/I correlated with SHBG and % FT, and since the degree of androgenic activity correlated with % IBW and WHR, partial regression analysis was performed. After adjusting for the effects of SHBG and % FT, the relationship between % IBW and PIP remained unaltered, whereas the correlation between WHR and HEF or M/I and their relationship to each other were either markedly reduced or became insignificant. Thus, in premenopausal women, the increase in pancreatic insulin production with increasing weight is independent of the degree of androgenic activity. On the other hand, the decline in hepatic insulin extraction and diminution in peripheral insulin sensitivity with upper body fat localization are in part mediated by increased androgenic activity. This association may account for the pronounced hyperinsulinemia and insulin resistance characteristic of this form of obesity.

Relationship of body fat distribution to the metabolic clearance of insulin in premenopausal women.

The effects of body fat distribution on the metabolic clearance rate of insulin (MCR) and its relationship to peripheral insulin sensitivity (M/I) and androgenic activity were assessed in six nonobese and 20 obese premenopausal women with varying waist-to-hip girth ratio (WHR). As an index of androgenic activity, plasma levels of the sex hormone binding globulin (SHBG) and percentage free testosterone (%FT) were determined. The mean MCR in the obese and nonobese groups were similar (571 +/- 29 vs 578 +/- 31 ml/min/m2). Within the obese group, MCR varied between 401 and 822 ml/min/m2 and was inversely correlated with the WHR (r = -0.50, P less than 0.05). The reduction in MCR with upper body fat localization was observed at both sub- and supra-maximal plasma insulin levels. MCR correlated negatively with fasting and postglucose challenge plasma insulin levels and positively with M/I. MCR also correlated with plasma SHBG and %FT levels. We conclude that upper body fat localization is associated with diminished insulin clearance. This diminution is closely aligned with the degree of peripheral insulinemia and insulin sensitivity. The increase in androgenic activity may contribute to the aberrant insulin clearance observed in upper body obese subjects.

Splanchnic insulin metabolism in obesity. Influence of body fat distribution.

The effects of obesity and body fat distribution on splanchnic insulin metabolism and the relationship to peripheral insulin sensitivity were assessed in 6 nonobese and 16 obese premenopausal women. When compared with the nonobese women, obese women had significantly greater prehepatic production and portal vein levels of insulin both basally and following glucose stimulation. This increase correlated with the degree of adiposity but not with waist-to-hip girth ratio (WHR). WHR, however, correlated inversely with the hepatic extraction fraction and directly with the posthepatic delivery of insulin. The latter correlated with the degree of peripheral insulinemia. The decline in hepatic insulin extraction with increasing WHR also correlated with the accompanying diminution in peripheral insulin sensitivity. Increasing adiposity is thus associated with insulin hypersecretion. The pronounced hyperinsulinemia of upper body fat localization, however, is due to an additional defect in hepatic insulin extraction. This defect is closely allied with the decline in peripheral insulin sensitivity.

Adaptation of the Ngo-Lenhoff peroxidase assay for solid phase ELISA.

A modification of the Ngo-Lenhoff peroxidase assay has been developed. By this method, peroxidase is detectable at 5 fmoles of peroxidase per ml. The assay is easy to perform and the reagents are inexpensive. We have modified the buffer by the addition of citric acid and sodium azide to reduce background color development and to inhibit the activity of catalase, respectively. Production of the indamine dye by the peroxidase reaction is rapid but it may be stopped by lowering the pH to 3.0. The pH change of 7.0 to 3.0 is accompanied by a color change from purple-blue to blue and a shift in the maximum absorbance from 590 nm to 595 nm. The sensitivity of the assay was unaffected by these modifications.

Serum and blister fluid immune complexes in bullous pemphigoid: detection with C1q and monoclonal rheumatoid factor.

Eighty serum samples and 24 blister fluids from 51 patients with active bullous pemphigoid were tested for the presence of immune complexes by both a monoclonal rheumatoid factor (mRF) inhibition radioassay and a C1q-binding radioassay. Forty-two of the 80 serum samples were positive by the mRF assay, while 27 were positive by the C1q-binding assay. Antibody titres to the basement membrane zone did not correlate with levels of circulating immune complexes. Thirteen of 24 blister fluids had detectable immune complexes by the C1q assay, while only seven of 24 blister fluids were positive by the mRF assay. Sucrose density-gradient ultracentrifugation studies suggest that the mRF- and C1q-reactive substances in both bullous pemphigoid sera and blister fluids are of a size compatible with immune complexes. Although immune complexes are detectable in a high percentage of bullous pemphigoid patients, their role in this disease may be epiphenomenal rather than pathogenetic, merely reflecting the presence of autoantibody and soluble antigen.