Use of microfiltration to improve fluid milk quality.

The objectives of the research were to determine the growth characteristics of bacteria in commercially pasteurized skim milk as a function of storage temperature; to determine the efficacy of a microfiltration and pasteurization process in reducing the number of total bacteria, spores, and coliforms in skim milk; and to estimate the shelf life of pasteurized microfiltered skim milk as a function of storage temperature. For the first objective, commercially pasteurized skim milk was stored at 0.1, 2.0, 4.2, and 6.1 degrees C. A total bacterial count >20,000 cfu/mL was considered the end of shelf life. Shelf life ranged from 16 d at 6.1 degrees C to 66 d at 0.1 degrees C. Decreasing storage temperature increased lag time and reduced logarithmic growth rate of a mixed microbial population. The increased lag time for the mixed microbial population at a lower storage temperature was the biggest contributor to longer shelf life. For the second objective, raw skim milk was microfiltered at 50 degrees C using a Tetra Alcross M7 Pilot Plant equipped with a ceramic Membralox membrane (pore diameter of 1.4 microm). The 50 degrees C permeate was pasteurized at 72 degrees C for 15 s, and cooled to 6 degrees C. Bacterial counts of raw skim milk were determined by standard plate count. Bacterial counts of microfiltered and pasteurized microfiltered skim milk were determined using a most probable number method. Across 3 trials, bacterial counts of the raw milk were reduced from 2,400, 3,600, and 1,475 cfu/mL to 0.240, 0.918, and 0.240 cfu/mL, respectively, by microfiltration. Bacterial counts in the pasteurized microfiltered skim milk for the 3 trials were 0.005, 0.008, and 0.005 cfu/mL, respectively, demonstrating an average 5.6 log reduction from the raw count due to the combination of microfiltration and pasteurization. For the third objective, pasteurized microfiltered skim milk was stored at each of 4 temperatures (0.1, 2.0, 4.2, and 6.1 degrees C) and the total bacterial count was determined weekly over a 92-d period. At 6 time points in the study, samples were also analyzed for noncasein nitrogen and the decrease in casein as a percentage of true protein was calculated. After 92 d, 50% of samples stored at 6.1 degrees C and 12% of samples stored at 4.2 degrees C exceeded a total bacterial count of 20,000 cfu/mL. No samples stored at 0.1 or 2.0 degrees C reached a detectable bacterial level during the study. When the bacterial count was <1,000 cfu/mL, shelf life was limited because sufficient proteolysis had occurred at 32 d at 6.1 degrees C, 46 d at 4.2 degrees C, 78 d at 2.0 degrees C, and >92 d at 0.1 degrees C to produce a detectable off-flavor in skim milk produced from a raw milk with a 240,000 somatic cell count.

P-Nitrobenzoic acid alpha2u nephropathy in 13-week studies is not associated with renal carcinogenesis in 2-year feed studies.

The objective of this study was to characterize the renal toxicity and carcinogenicity of p-nitrobenzoic acid in F344 rats. Dose levels in 13-week and 2-year studies ranged from 630-10,000 ppm and 1,250-5,000 ppm, respectively. At 13 weeks, renal lesions included minimal to mild hyaline droplet accumulation in male rats and karyomegaly in male and female rats. At 2 years, renal lesions included proximal tubule epithelial cell hyperplasia in male rats and oncocytic hyperplasia in high-dose male and female rats, and a decreased severity of nephropathy in males and females. The hvaline droplets in renal tubular epithelial cells of male rats at 13 weeks were morphologically similar to those described in alpha2u-globulin nephropathy. Using immunohistochemical methods, alpha2u-globulin accumulation was associated with the hyaline droplets. In addition, at 13 weeks, cell proliferation as detected by PCNA immunohistochemistry was significantly increased in males exposed to 5,000 and 10,000 ppm when compared to controls. Cytotoxicity associated with alpha2U-globulin nephropathy such as single-cell necrosis of the P2 segment epithelium or accumulation of granular casts in the outer medulla did not occur in the 13-week study. In addition, chronic treatment related nephrotoxic lesions attributed to accumulation of alpha2u-globulin such as linear foci of mineralization within the renal papilla, hyperplasia of the renal pelvis urothelium and kidney tumors were not observed. Although there was histologic evidence of alpha2u-globulin accumulation in male rats at 13 weeks, the minimal severity of nephropathy suggests that the degree of cytotoxicity was below the threshold, which would contribute to the development of renal tumors at 2 years.

Toxicology and humoral immunity assessment of octamethylcyclotetrasiloxane (D4) following a 28-day whole body vapor inhalation exposure in Fischer 344 rats.

Octamethylcyclotetrasiloxane, D4, is a low viscosity, silicone fluid consisting of four dimethyl-siloxy units ((CH3)2SiO)4 in a cyclic structure. It is primarily used as a building block in the industrial synthesis of long chain silicone polymers. The combination of D4 with decamethylcyclopentasiloxane (D5) is commonly referred to as cyclomethicone which has a wide range of applications as a formulation aid in personal care products. To extend the existing database regarding the biological activities of D4, a 28 day whole body vapor inhalation study was conducted using Fischer 344 rats at 0 (room air), 7, 20, 60, 180 and 540 ppm for 6 hours/day, 5 days/week. Parameters measured included body weights, organ weights, gross pathology, histopathology, serum chemistries, and urinalysis. In addition to these standard toxicological endpoints, the ability of D4 exposed animals to mount an IgM antibody response was evaluated by a splenic antibody forming cell (AFC) assay and a serum enzyme-linked immunosorbant assay (ELISA). The results of this 28-day inhalation study indicate that D4 exposure caused no adverse effects on body weight, food consumption, or urinalysis parameters. In addition, there were no exposure related histopathological alterations at any site for any exposure group. A statistically significant increase in liver weight and the liver to body weight ratio was observed in both male (180-540 ppm) and female (20-540 ppm) rats, which was not observed in the 14-day recovery group animals. There were no other significant organ weight changes. Although statistically significant changes were observed in several hematological and serum chemistry parameters in both the terminal and 14-day recovery animals, the changes were marginal and within the normal range of values for the rat. Under these experimental conditions, there were no alterations noted in immune system function at any of the D4 exposure levels.

Carcinogenicity of dermally administered 1,2-dihydro-2,2,4-trimethylquinoline monomer in F344 rats and B6C3F1 mice.

1,2-Dihydro-2,2,4-trimethylquinoline (TMQ) was evaluated in a 2-year study in which groups of 60 male or female F344 rats received 0, 36 or 60 mg kg(-1) (0, 0.022, or 0.037 mg cm(-2)) and groups of 60 male or female B6C3F1 mice received 0, 3.6 or 10 mg kg(-1) (0, 0.00136, 0.00435 mg cm(-2)) in acetone by topical administration. Survival of all treated groups was comparable to survival of controls. Mean body weights of female rats were lower than those of controls throughout the study but mean body weights of male rats and male and female mice were comparable to the mean body weights of controls. No neoplasms of the skin were observed in any group of rats or mice. Acanthosis at the site of application was increased in male and female rats that received 60 or 100 mg kg(-1) and hyperkeratosis was increased in female rats that received 60 mg kg(-1). The incidences of renal tubule adenoma and renal tubule adenoma or carcinoma were increased significantly in the 60 and 100 mg kg(-1) groups of male rats. There were no neoplastic or non-neoplastic lesions in mice associated with exposure to 1,2-dihydro-2,2,4-trimethylquinoline. In a 1-year initiation-promotion study, groups of 30 female SENCAR mice received an initiating dose of 50 mg kg(-1) 1,2-dihydro-2,2,4-trimethylquinoline followed by promotion with 12-O-tetradecanoylphorbol-13-acetate (TPA), or an initiating dose of 7,12-dimethylbenzanthracene (DMBA) followed by promotion with 5, 10 or 25 mg kg(-1) 1,2-dihydro-2,2,4-trimethylquinoline. Other groups served as initiator control, promoter control, vehicle control and positive control (DMBA initiation, TPA promotion). In this system, 1,2-dihydro-2,2,4-trimethylquinoline-initiated skin was not promoted by TPA, and DMBA-initiated skin was not promoted by 1,2-dihydro-2,2,4-trimethylquinoline.

Lipopolysaccharide augments IgG and IgE responses of mice to the latex allergen Hev b 5.

BACKGROUND: LPS is a common contaminant in the health care environment and in latex examination gloves. OBJECTIVE: We sought to investigate the role of LPS in enhancing the immune responses of mice to inhaled latex allergen. METHODS: As our model allergen, we used a fusion protein containing the potent latex allergen Hev b 5. BALB/c mice were lightly anesthetized and given repeated intranasal doses of saline, LPS, and/or Hev b 5. The doses were given in 2 courses separated by a 6-week period, with the first course consisting of 6 doses and the second consisting of 3 doses. RESULTS: After the first set of immunizations, mice given Hev b 5 alone had no detectable IgG1 or IgE responses to Hev b 5, whereas mice given the antigen along with LPS had significant responses (IgG1, 0.73 U +/- 0.05; IgE, 0.88 U +/- 0.2). No enhancement of specific IgG2a was observed. A stimulatory effect of LPS on all 3 immunoglobulin types was apparent after the second course. Lymphocytes from mice immunized with LPS and Hev b 5 had increased proliferation to Hev b 5 and its fusion partner. CONCLUSIONS: LPS may be an important immunoadjuvant for the development of allergic reactions to latex protein allergens.

Effects of the carcinogen, acrylonitrile, on forestomach cell proliferation and apoptosis in the rat: comparison with methacrylonitrile.

Acrylonitrile (AN) and methacrylonitrile (MAN) are two major industrial nitriles used in the production of plastics and acrylic fibers. Whereas AN is a potent acute toxin and carcinogenic in rats, little is known regarding MAN. Current work is part of an overall effort designed to assess the potential toxicity/carcinogenicity of MAN. The present study compares the ability of the two chemicals to induce epithelial proliferation and apoptosis in the forestomach (FS; a target of AN carcinogenicity), liver and glandular stomach (non-targets of AN carcinogenicity) of male F344 rats. AN was administered to rats daily, by gavage, for 6 weeks, at 0.43 and 0.22 mmol/kg. MAN was administered at 0.87 and 0.43 mmol/kg. Both AN and MAN induced a dose-dependent increase in epithelial cell proliferation in the FS of male F344 rats as determined by bromodeoxyuridine (BrdU) incorporation into DNA. In contrast, AN, but not MAN caused a dose-dependent increase in the thickness of the forestomach squamous mucosa. This increased thickness (hyperplasia) was reflected by an increase in the number of total epithelial cells per unit length of mucosa. At doses of AN and MAN which induced a 2.3-fold increase in BrdU incorporation, apoptosis was 5- and 18-fold greater than controls, respectively. Although both MAN and AN caused a similar increase in cell proliferation, the relatively more prominent increase in the apoptotic index of the squamous epithelium of rats exposed to MAN may explain the lack of a detectable increase in the thickness of the mucosa compared to that seen with AN. The disruption of the balance between FS mucosal cell proliferation and apoptosis in favor of a net increase in the number of FS epithelial cells per unit length may contribute to the carcinogenicity of AN. In conclusion, present work demonstrated that AN selectively induced a net enhancement in FS cell proliferation, a site of its carcinogenicity. On the other hand, MAN-induced FS cell proliferation was associated with a parallel increase in apoptosis. The relatively greater increase in apoptosis by MAN may have compensated for the increase in FS mucosal cell proliferation and the lack of observable change in the FS thickness.

The effects of dietary boron on bone strength in rats.

Previous studies from our laboratory found that when boric acid (BA) was administered in the diet to rats, boron levels in bone were approximately fourfold greater than serum levels. The current studies were undertaken to determine if these elevations produced adverse effects on several bone-related measures, including serum electrolyte levels, bone structure, and bone strength. Data from two studies are presented: in the first study, young adult male rats consumed a powdered diet containing 0, 3000, 4500, 6000, or 9000 ppm BA for 9 weeks. Endpoints were serum calcium, phosphorous, potassium, and chloride, as well as blood and bone boron concentrations ([B]) measured weekly during the 9-week exposure period, and at 8, 16, 24, and 32 weeks after the end of exposure. In the second study, the male and female young adult rats diet contained 0, 200, 1000, 3000, or 9000 ppm BA for 12 weeks; endpoints measured weekly were serum levels of calcium, phosphorous, and magnesium, bone [B], and bone structure (humerus) and strength (tibia, femur, and lumbar vertebrae). In treated rats, calcium was reduced in the first study but not the second. Serum phosphorous was reduced in both studies; potassium was unchanged, chloride was increased by 1%, and magnesium was reduced in all BA-exposed groups in the second study, to a maximal 19% reduction. Bone [B] was consistently increased in all treated groups, to concentrations approximately fourfold those of serum. After cessation of exposure, serum and urinary boron concentrations dropped to within control values within a week. However, even 32 weeks after the end of exposure, bone [B] remained threefold greater than controls. Male tibia and femur resistance to bending was unchanged. However, vertebral strength in compression was significantly increased by 5-10% in all dose groups (200 to 9000 ppm). The pattern was substantially similar in females. Only the humerus was examined by light microscopy and was found to be unchanged at any level of BA consumption. These data show that, despite a reduction in some serum electrolyte levels, BA consumption increased vertebral resistance to crush force, without detectably altering the microscopic structure of the humerus or the resistance of femur and tibia to a bending load. This increase in compression resistance occurred at exposure levels substantially below those that were previously reported to be reproductively toxic.

Carcinogenic activity of the flame retardant, 2,2-bis(bromomethyl)-1,3-propanediol in rodents, and comparison with the carcinogenicity of other NTP brominated chemicals.

Several brominated chemicals have been shown to be multisite-multispecies carcinogens in laboratory animals, and in this paper we report that the flame retardant, 2,2-bis(bromomethyl)-1,3-propanediol (BMP) is also a multisite carcinogen in both sexes of Fischer 344 rats and B6C3F1 mice. BMP was administered continuously in the diet for up to 2 yr to rats at doses of 0, 2,500, 5,000, or 10,000 ppm and to mice at doses of 0, 312, 625, or 1,250 ppm. Interim groups of rats were examined at 15 mo. An additional recovery group of male rats received the chemical for 3 mo at 20,000 ppm in the feed, and then the control diet for the remainder of the study. Chemical exposure caused neoplasms of the skin, subcutaneous tissue, mammary gland, Zymbal's gland, oral cavity, esophagus, forestomach, small intestine, large intestine, mesothelium, kidney, urinary bladder, lung, thyroid gland, seminal vesicle, hematopoietic system, and pancreas in the male rat; mammary gland, oral cavity, esophagus, and thyroid gland in the female rat; lung, kidney, and Harderian gland in male mice; and subcutaneous tissue, lung, and Harderian gland in the female mouse. The recovery group of male rats presented with the same spectrum of treatment-related neoplasms as in the core study. In this recovery group, BMP (at 20,000 ppm) caused irreversible effects at numerous sites after 90 days of exposure that was not detectable by histologic examination, but without further exposure resulted in carcinogenic responses at 2 yr. BMP is mutagenic in the salmonella test, but it was not determined if the BMP-induced effects that eventually lead to development of neoplasms at multiple sites are the same in both species and in all organ systems affected.

Comparative pulmonary absorption, distribution, and toxicity of copper gallium diselenide, copper indium diselenide, and cadmium telluride in Sprague-Dawley rats.

Copper gallium diselenide (CGS), copper indium diselenide (CIS), and cadmium telluride (CdTe) are novel compounds used in the photovoltaic and semiconductor industries. This study was conducted to characterize the relative toxicities of these compounds and to evaluate the pulmonary absorption and distribution after intratracheal instillation. Female Sprague-Dawley rats were administered a single equimolar dose (70 mM) of CGS (21 mg/kg), CIS (24 mg/kg), CdTe (17 mg/kg), or saline by intratracheal instillation. Bronchoalveolar lavage fluid (BALF) protein, fibronectin, inflammatory cells, lung hydroxyproline, and tissue distribution were measured 1, 3, 7, 14, and 28 days after instillation. Relative lung weights were significantly increased in CIS- and CdTe-treated rats at most time points. Inflammatory lesions in the lungs consisting of an influx of macrophages, lymphocytes, and PMNs were most severe in CdTe-treated rats, intermediate in CIS-treated rats, and minimal in rats receiving CGS. Hyperplasia of alveolar type 2 cells was present in CIS- and CdTe-treated rats and was greatest in CdTe-treated rats. Pulmonary interstitial fibrosis was observed in CdTe-treated rats at all time points. All three compounds caused marked increases in total BALF cell numbers, with the greatest increase observed in CIS-treated rats. BALF protein, fibronectin, and lung hydroxyproline were significantly increased in all treated animals and were highest in CdTe-treated animals. There was no apparent pulmonary absorption or tissue distribution of CGS. Indium levels increased in extrapulmonary tissues of CIS-treated rats, although Cu and Se levels remained unchanged. CdTe was absorbed from the lung to a greater extent than CGS and CIS. Cd and Te levels decreased in the lung and increased in extrapulmonary tissues. Of these compounds CdTe presents the greatest potential health risk because it causes severe pulmonary inflammation and fibrosis and because it is readily absorbed from the lung may potentially cause extrapulmonary toxicity.

Evaluation of false positive and false negative outcomes in NTP long-term rodent carcinogenicity studies.

The decision-making process used by the National Toxicology Program (NTP) in its evaluation of long-term rodent carcinogenicity studies was investigated to determine whether or not this procedure resulted in an excessive number of false positive or false negative outcomes. All site-specific tumor incidences that were found to be significantly (p < 0.05) increased either by a trend test or by pairwise comparisons of each dosed group against the controls in 218 NTP 2-year studies with Fischer 344 rats and/or B6C3F1 mice were tabulated and compared to the number of statistically significant tumor increases expected to occur by chance. Our evaluation suggests that false positive rates are fairly low in NTP long-term studies. Assessing false negative rates is more difficult because of the limited sensitivity of the bioassay for detecting subtle carcinogenic effects. Moreover, reduced body weights frequently occur in dosed animals, and the positive correlation between the incidences of certain site-specific tumors and body weight may mask the detection of carcinogenic effects. Despite these difficulties, our analysis did identify one tumor showing evidence of false negative outcomes: interstitial cell tumors of the testis in male Fischer 344 (F344) rats. This tumor showed considerably more significant (p < 0.05) increased incidences than expected by chance, yet none were considered to be chemically-related. However, the biological significance of interstitial cell tumor increases in F344 rats is uncertain because of the high background rate of neoplasia (> 90%) for this target site.

Effects of D&C yellow no. 11 ingestion on F344/N rats and B6C3F1 mice.

D&C yellow no. 11 (CAS no. 8003-22-3) was administered in the feed at concentrations of 500-50,000 ppm to groups of F344/N rats and B6C3F1 mice of each sex for 13 wk to determine the toxicity. In addition, a perinatal study was conducted to determine the effects of feeding diets containing D&C yellow no. 11 to female rats during reproduction and to their offspring. Although the estimated intake (g/kg) of D&C yellow no. 11 of mice was more than twice that of rats, the results were generally similar for both rats and mice. In both species, D&C yellow no. 11 caused no mortality, but it did reduce body weight gain slightly in both sexes of rats exposed to 17,000 and 50,000 ppm. Absolute and relative liver weights were significantly increased in all groups of rats and mice administered D&C yellow no. 11 in the feed. There was minimal to mild degeneration of the periportal hepatocytes in rats at doses of 1700 ppm and higher and in mice at 5000 ppm and above. A dose-related yellow-brown pigment was observed in hepatocytes, Kupffer cells, and biliary epithelium of the liver of both sexes of both species and in the renal tubule epithelium in both sexes of rats. In male rats, all treated groups had increased number and size of hyaline droplets in the renal tubule epithelium of the cortex and outer medulla. To determine if these renal and hepatic lesions were reversible, male rats were administered 5000 ppm dietary D&C yellow no. 11 for 70 d and then examined at 3, 14, and 28 d after the chemical was removed from the diet. Pigment persisted in the kidney and liver for as long as 28 d following removal of D&C yellow no. 11 from the diet, but hepatocellular degeneration and cytoplasmic alteration in the kidney completely resolved by d 3 and 14, respectively. In the perinatal toxicity study, body weight gain in rat dams given diets containing as much as 50,000 ppm D&C yellow no. 11 for 4 wk before mating to untreated males was similar to that of controls at the time of mating but was lower at parturition and weaning. However, fertility, gestation length, litter size, and pup birth weights were unaffected by treatment. At weaning, there was a significant dose-related decrease in pup body weights from the 5000, 17,000, and 50,000 ppm groups. At 8 wk of age, pups fed the same dosed-feed concentrations as the dams had depressed body weights in the 17,000 and 50,000 ppm treated groups. Microscopic lesions in the liver and kidney of the pups in all dose groups were similar to those described in the 13-wk study. The results of these studies indicate that compound-related effects occurred at all dietary concentrations of D&C yellow no. 11. Liver weights were increased in dosed rats and mice, minimal to mild hepatocellular degeneration was seen in rats receiving dietary concentrations of 1700 ppm and above and in mice at 5000 ppm and above, and there was an increase in the number and size of hyaline droplets in all dosed groups of male rats. Similar compound-related effects were also seen in all dosed rats in the perinatal toxicity study. With the exception of pigment accumulation, the treatment-related kidney and liver lesions in male rats were reversible by 14 d after chemical was withdrawn from the diet.

Decreased incidence of spontaneous mammary gland neoplasms in female F344 rats treated with amphetamine, methylphenidate, or codeine.

Three drugs that affect the neuroendocrine system (amphetamine, methylphenidate, and codeine) caused decreases in body weights and in the incidence of spontaneously occurring mammary gland neoplasms in the female F344/N rat in 2-year carcinogenicity studies. Using a mathematical model that relates body weight changes to the incidence of mammary gland neoplasms, we find that the decrease in mammary gland tumours seen in female rats cannot be fully explained by body weight decreases relative to control animals. Further, the observed decreases in body weight in treated female rats were not a function of differences in feed consumption between treated and control groups. These pharmaceuticals are thought to affect the biologic system through interaction with membrane receptors. This interaction and/or subsequent cell signaling events may play a role in the observed decrease in spontaneously occurring mammary gland neoplasms in the female rat treated with amphetamine, methylphenidate, or codeine.

Toxicity of inhaled chloroprene (2-chloro-1,3-butadiene) in F344 rats and B6C3F(1) mice.

Chloroprene (2-chloro-1,3-butadiene) is a high production chemical used almost exclusively in the production of polychloroprene (neoprene) elastomer. Because of its structural similarity to isoprene (2-methyl-1,3-butadiene) and to 1,3-butadiene, a potent trans-species carcinogen, inhalation studies were performed on chloroprene to characterize its toxicological potential and to provide a basis for selecting exposure concentrations for chronic toxicity and carcinogenicity studies. Thirteen-week inhalation toxicology studies were conducted in male and female F344 rats and B6C3F(1) mice at exposure concentrations of 0, 5, 12, 32 or 80 ppm (6 h/day; 5 days/week). A 200 ppm exposure group was also included for rats only, because a previous study showed that this concentration of chloroprene is lethal to mice. In mice, exposure to 80 ppm chloroprene caused a marginal decrease in body weight gain in males and epithelial hyperplasia of the forestomach in males and females. This lesion has been observed in mice exposed to isoprene or 1,3-butadiene. In rats, exposure to 80 ppm chloroprene or higher concentrations caused degeneration and metaplasia of the olfactory epithelium and exposure to 200 ppm caused anemia, hepatocellular necrosis and reduced sperm motility. These lesions have not been observed in rats exposed to isoprene or 1,3-butadiene. The profile of toxic effects of chloroprene is considerably different from that of isoprene or 1,3-butadiene; this may be due to differences in exposure concentrations that were used in toxicology studies of these compounds and /or to the influence of the chlorine substitution on the toxicokinetics of these compounds, on their biotransformation, or on the reactivity of metabolic intermediates with tissue macromolecules.

Histopathology of acetaminophen-induced liver changes: role of interleukin 1 alpha and tumor necrosis factor alpha.

Administration of 500 mg/kg acetaminophen (APAP) to female B6C3F1 mice resulted in well-documented pathophysiological changes in the liver manifested as increased serum concentration of liver enzymes (aspartate aminotransferase, alanine aminotransferase, lactate dehydrogenase, and serum sorbitol dehydrogenase), centrilobular congestion, and hepatocellular degeneration and necrosis. The role of proinflammatory cytokines, including tumor necrosis factor alpha (TNF-alpha) and interleukin 1 alpha (IL-1 alpha), on the hepatotoxicity of APAP was examined at 4, 8, 12, and 24 hr following APAP administration. Neutralization of TNF-alpha or IL-1 alpha with specific antibodies partially prevented the hepatotoxic effects of APAP at the 4- and 8-hr time points. In addition, prior administration of anti-TNF-alpha antibodies shortened the recovery time following APAP treatment. While IL-1 receptor antagonist (IL-1ra) had only a modest protective effect against APAP-induced liver damage, as determined by serum enzyme release, IL-1ra had no effect on the degree of hepatic congestion or necrosis at any of the time points examined. On the other hand, administration of antibodies against IL-1ra exacerbated APAP-induced liver toxicity. These results suggest that TNF-alpha and IL-1 alpha play an important role in the degree of damage and recovery that the liver undergoes following APAP intoxication.

Chemicals associated with decreases in the incidence of mononuclear cell leukemia in the Fischer rat.

A significant treatment-related decrease in the incidence of mononuclear cell leukemia (MCL) was identified in Fischer-344/N rats for 20 chemicals tested in the National Toxicology Program's 2-yr carcinogenicity bioassay. Fourteen of the 20 chemicals caused decreases of MCL in both male and female rats; 6 of the 20 caused a significant decrease only in males and a marginal or no decrease in female rats. Seventeen of the chemicals associated with a decrease in MCL had a free aromatic amine or nitro functional groups that could be metabolized to free amines. With 1 exception, all 14 chemicals causing a decrease in MCL in both sexes produced spleen toxicity in the 13-wk studies. Reduced body weight and decreased survival, related either to toxicity or to an increase in other types of lethal neoplasms, did not contribute to the decreases in MCL observed in chemical exposure groups. Thirteen of the 20 chemicals were positive in Salmonella tests, and 15 were associated with increases in neoplasms at other sites in rats and/or mice, suggesting that different metabolites could be responsible for these varied biological effects.

Frequency and relationships of clinical chemistry and liver and kidney histopathology findings in 13-week toxicity studies in rats.

The relative sensitivities of eight commonly used clinical chemistry end points and histopathology to detect potential toxic effects in liver and kidney were evaluated for a series of 61 13-week rat toxicity studies conducted for the National Toxicology Program. The data consisted of 1-,2- to 3-, and 13 week clinical chemistry measurements and 13-week histopathological assessments of liver and kidney. Except for serum alkaline phosphatase, treatment-related alterations of individual clinical chemistry variables occurred in 20-48% of the studies, depending on the analyte, sampling time, and sex. Liver and kidney lesions were reported for 31% and 41% of the studies respectively. There was an association between treatment-related increases in alanine aminotransferase (ALT) and sorbitol dehydrogenase (SDH) activities and histopathological changes in the liver. SDH activity had greater positive and negative predictive values than similar changes in ALT; by week 1 in females and weeks 2-3 in both sexes. SDH predicted morphological hepatic change at study termination with 75% or better accuracy. If increases in activities of both enzymes occurred simultaneously, however, terminal histopathological changes could be predicted, in both sexes, with 75% accuracy by week 1, increasing to 100% by weeks 2-3. There also was an association between treatment-related increases in urea nitrogen (UN) and creatinine (Cre) concentrations and morphological kidney change. Cre concentration had greater positive predictive values than similar changes in UN; by weeks 2-3 in males and week 13 in both sexes. Cre predicted morphological renal change at study termination with 56% or better accuracy. UN concentration was associated and predictive of morphological kidney change only in females at week 13. Depending on time point and sex, serum alkaline phosphatase activity increased in 5-22% of the studies. Increases in total bile acid concentration occurred in 33-48% of the studies. Because both tests are used as markers of cholestasis, this marked discrepancy was unexpected. Treatment-related decreases in alkaline phosphatase activity occurred, however, in 39-56% of the studies; serum alkaline phosphatase may be more useful as an indicator of decreased food intake (decreased activity) than of cholestasis (increased activity). In summary, treatment-related alterations of clinical chemistry and histopathology occurred frequently in this series of toxicity studies in rats. Changes in the chemistry end points also occurred frequently at interim time points, indicating that clinical chemistry evaluations can be useful for detecting potential treatment effects throughout a study. This observation is important, since histopathological evaluations are limited to animal termination and not useful for detecting transient responses or the onset of treatment-related effects.

NTP Comparative Toxicity and Carcinogenicity Studies of o-Nitrotoluene and o-Toluidine Hydrochloride (CAS Nos. 88-72-2 and 636-21-5) Administered in Feed to Male F344/N Rats.

o-Nitrotoluene and o-toluidine hydrochloride are structurally related chemicals that are suspected and demonstrated animal carcinogens, respectively. The metabolic potential of the gastrointestinal flora is considered an important factor in o-nitrotoluene-induced toxicity and involves the reduction of the nitro group to the corresponding amine (forming o-toluidine). These studies were designed to 1) compare the target organ toxicities of o-nitrotoluene and o-toluidine hydrochloride administered in feed at approximately equimolar doses (5,000 ppm) to male F344/N rats for 13 or 26 weeks, 2) determine the potential progression or reversibility of toxic or proliferative lesions following chemical withdrawal (stop-exposure) for 13 weeks after 13 weeks of exposure, and 3) examine the effect of antibiotic-altered gastrointestinal flora on the toxicity and/or carcinogenicity of o-nitrotoluene. o-Nitrotoluene and o-toluidine hydrochloride caused mesothelial hyperplasia and mesothelioma in male rats after 13 or 26 weeks of dietary exposure. The incidence of mesothelioma was greater and the latency was less in rats administered o-nitrotoluene than in rats administered o-toluidine hydrochloride. Additionally, o-nitrotoluene caused testicular degeneration in rats. Effects of o-nitrotoluene administration in the liver included progressive, irreversible increases in liver weight and irreversible increases in the incidences of cytoplasmic vacuolization and oval-cell hyperplasia. Placental glutathione S-transferase (PGST)-positive foci of cellular alteration occurred in the liver after 13 weeks of o-nitrotoluene exposure, and the number and size (as reflected by the volume fraction) of foci were increased after 26 weeks of continuous exposure. During the recovery period, the number of PGST-positive foci in rats in the stop-exposure group decreased slightly, but the size of the foci continued to increase. After 26 weeks, cholangiocarcinoma occurred in 2 of 20 rats in the stop-exposure group and 1 of 20 rats in the continuous-exposure group administered o-nitrotoluene. In contrast, liver effects in rats administered o-toluidine hydrochloride consisted of minimal hemosiderin accumulation in Kupffer cells; the incidence of this lesion in the stop-exposure group decreased during the recovery period. o-Toluidine hydrochloride caused fewer and much smaller PGST-positive foci than those caused by o-nitrotoluene. o-Nitrotoluene caused an accumulation of hyaline droplets in the renal tubule epithelium; this accumulation did not increase in severity with continued exposure and completely regressed during the recovery period. Exposure to o-toluidine hydrochloride did not cause hyaline droplet accumulation but did cause an accumulation of hemosiderin pigment in renal tubule epithelium. This change progressed in severity during the 26-week continuous-exposure study but decreased in severity in the stop-exposure study during the recovery period. Exposure to o-nitrotoluene or o-toluidine hydrochloride caused increased incidences of hematopoiesis, hemosiderin accumulation, and capsular fibrosis in the spleen. In rats administered o-toluidine, spleen effects were much more prominent and were also reflected by congestion and markedly increased spleen weights. During the recovery period for the stop-exposure groups administered either compound, incidences of hemosiderin accumulation and hematopoiesis were decreased, but the capsular fibrosis did not resolve. Hyperplasia of the transitional epithelium in the urinary bladder was observed only in rats administered o-toluidine hydrochloride; this lesion did not increase in severity after 26 weeks of continuous exposure and completely regressed in the stop-exposure group during the recovery period. Alteration of the gastrointestinal flora by daily gavage administration of antibiotics did not affect the pattern or severity of toxicity at any site or the development of mesothelioma in rats exposed to o-nitrotoluene, although cholangiocarcinomas that occurred in three rats with the normal flora did not occur in groups with the altered intestinal flora. Subsequent studies determined that the antibiotic regimen used was effective only in reducing the gut population of aerobic microorganisms and had little effect on obligate anaerobes, which are thought to play a mayor role in nitro group reduction. In summary, these studies confirmed the target organs and compared the relative toxicity for o-nitrotoluene and o-toluidine hydrochloride administered to male F344/N rats at equimolar concentrations in feed. With the exception of the spleen toxicity observed with each chemical, but more prominently with o-toluidine hydrochloride, morphologic effects of exposure to each of these chemicals in the testis/epididymis, liver, kidney, and urinary bladder were different. The results of these studies demonstrate the somewhat greater relative carcinogenic potential of o-nitrotoluene compared to o-toluidine hydrochloride after 13 or 26 weeks of administration based on the occurrence of mesothelioma and cholangiocarcinoma. The apparently lower potency of o-toluidine hydrochloride relative to o-o-nitrotoluene in the induction of mesothelioma suggests that simple intestinal reduction of the nitro group may not be sufficient for carcinogenic activity in the mesothelium.

Comparative carcinogenic effects of nickel subsulfide, nickel oxide, or nickel sulfate hexahydrate chronic exposures in the lung.

The relative toxicity and carcinogenicity of nickel sulfate hexahydrate (NiSO4.6H2O), nickel subsulfide (Ni3S2), and nickel oxide (NiO) were studied in F344/N rats and B6C3F1 mice after inhalation exposure for 6 h/day, 5 days/week for 2 years. Nickel subsulfide (0.15 and 1 mg/m3) and nickel oxide (1.25 and 2.5 mg/m3) caused an exposure-related increased incidence of alveolar/bronchiolar neoplasms and adrenal medulla neoplasms in male and female rats. Nickel oxide caused an equivocal exposure-related increase in alveolar/bronchiolar neoplasms in female mice. No exposure-related neoplastic responses occurred in rats or mice exposed to nickel sulfate or in mice exposed to nickel subsulfide. These findings are consistent with results from other studies, which show that nickel subsulfide and nickel oxide reach the nucleus in greater amounts than the do water-soluble nickel compounds such as nickel sulfate. It has been proposed that the more water-insoluble particles are phagocytized, whereas the vacuoles containing nickel migrate to the nuclear membrane, where they release nickel ions that effect DNA damage. The findings from these experimental studies show that chronic exposure to nickel can cause lung neoplasms in rats, and that this response is related to exposure to specific types of nickel compounds.

Acute pulmonary toxicity of copper gallium diselenide, copper indium diselenide, and cadmium telluride intratracheally instilled into rats.

Acute toxicity studies were conducted on copper gallium diselenide (CGS), copper indium diselenide (CIS), and cadmium telluride (CT), three novel compounds used in the photovoltaic and semiconductor industries. Female Sprague-Dawley rats (six rats/dose) were administered 0, 12, 25, 50, or 100 mg/kg body wt of CGS, CIS, or CT by intratracheal instillation. At 72 hr after treatment, body weight gain was significantly decreased in the 100 mg/kg CIS group and in all CT dose groups. Lung weights were increased in most chemical-treated rats, with CT causing the greatest increase. Total numbers of cells in bronchoalveolar lavage fluid (BALF) were significantly increased in treated rats and were greatest in the 100 mg/kg CIS group. Differential cell counts of BALF demonstrated a marked decrease in the percentage of alveolar macrophages and an increase in the percentage of polymorphonuclear leukocytes in all dose groups of all three chemicals. Slight to moderate increases in lactate dehydrogenase activity were observed in BALF from CGS- and CIS-treated rats; marked increases were observed in CT-treated rats. BALF protein was significantly increased in rats treated with CIS and CT. Microscopic examination revealed lymphoid hyperplasia in lungs of rats treated with all three chemicals. CT caused necrosis of the terminal bronchiolar epithelium and epithelium of the alveolar duct region with inflammation, prominent fibrin exudates, and type II cell hyperplasia. CGS and CIS also caused intraalveolar inflammation and type II cell hyperplasia, but did not cause the necrosis and fibrin exudate observed in lungs of CT-treated rats. Based on changes in lung weight, BALF indices, and histopathology, CT was the most toxic for the lung; CIS had intermediate toxicity and CGS was the least toxic. The solubilities of CGS and CIS were relatively low and similar at both pH levels and do not readily explain the observed differences in pulmonary toxicity. The solubility of CdTe was considerably greater than that of CGS and CIS and likely contributed to the greater toxicity of this compound.