Seroprevalence of Toxoplasma gondii in mesocarnivores of the Canadian prairies.

The protozoon Toxoplasma gondii has a worldwide distribution and affects many species of warm-blooded animals. In the Canadian prairies, mesocarnivores such as striped skunks (Mephitis mephitis) and raccoons (Procyon lotor) have experienced an increase in density and distribution, and they are in close contact with human dwellings. However, there has been no systematic study on the seroprevalence of T. gondii in these mesocarnivore populations. The objectives of the current project were to determine the serum antibody prevalence of T. gondii in Canadian prairie mesocarnivores and to study the relationship between antibody prevalence and species, sex, age, location, and year of collection. Antibodies to T. gondii were found in 5 of 24 (20.8%) skunks from Saskatchewan trapped in 1999 and 5 of 40 (12.5%) in 2000. Seroprevalences for T. gondii in raccoons and skunks trapped in Manitoba were 2 of 10 (20%) raccoons trapped in 2002, 7 of 44 (15.9%) trapped in 2003, and 16 of 37 (43.2%) trapped in 2004; and in 13 of 99 (13.1%) skunks trapped in 2003, 29 of 131 (22.1%) trapped in 2004, 53 of 165 (32.1%) trapped in 2005, and 30 of 51 (58.8%) trapped in 2006. Age, location, and year, but not the host species, were important variables in the determining the seroprevalence of T. gondii in skunks and raccoons. Results confirm that T. gondii is endemic in the skunk and raccoon populations in the Canadian prairies.

Inhalation two-generation reproductive toxicity study of methyl isobutyl ketone in rats.

To evaluate whether methyl isobutyl ketone (MIBK) affects reproductive performance, a two-generation reproduction study was conducted. MIBK was administered to 30 Sprague-Dawley rats/sex/group via whole-body inhalation at concentrations of 0, 500, 1000, or 2000 ppm, 6 h daily, for 70 days prior to mating. F(0) and F(1) females were exposed from mating through gestation day 20 and from postnatal day 5; F(2) litters were maintained through postnatal day 21. No treatment-related mortality of adult animals occurred. There was a dose-related increase in adult animals with no or a decreased response to a sound stimulus at 1000 and 2000 ppm; however, no adverse clinical signs occurred 1 h after exposure, suggesting this was a transient sedative effect. Clinical signs of central nervous system (CNS) depression in the pups were observed and one F(1) pup died after initial exposure to 2000 ppm on postnatal day 22; subsequently exposure was delayed until postnatal day 28. Decreased body weight gain and slight decreased food consumption were observed during the first 2 weeks of exposure in both generations at 2000 ppm. There were no adverse effects on male and female reproductive function or landmarks of sexual maturation. Increased F(0) and F(1) liver weights with associated centrilobular hypertrophy occurred in rats at 2000 ppm, indicative of an adaptive response. Increased male kidney weights at all exposure concentrations, associated with hyaline droplets, were indicative of male rat-specific nephropathy. Other than acute sedative effects, the no-observed-adverse-effect level (NOAEL) for parental systemic effects (excluding male rat kidney) was 1000 ppm, based on transient decreased body weight and food consumption; for reproductive effects, 2000 ppm, the highest concentration tested; and for neonatal toxicity, 1000 ppm (based on acute CNS depressive effects).

Expression of AhR and ARNT mRNA in cultured human endometrial explants exposed to TCDD.

Endometriosis is a debilitating disease found in 10-15% of reproductive-age women and is characterized by the presence of endometrial tissue outside of the uterus. The present study characterizes the expression of AhR and ARNT mRNA in a human endometrial explant culture model in the absence and presence of TCDD exposure. In a parallel, companion study using this model, TCDD exposure was shown to induce CYP1A1 mRNA, CYP1B1 mRNA, EROD (7-ethoxyresorufin-O-deethylase) activity, and CYP1B1 protein in human endometrial explants. Explants were prepared from specimens obtained at laparoscopy or laparotomy from women undergoing surgery for tubal ligation, endometriosis, or pelvic pain unrelated to endometriosis. These specimens were a subset of the specimens used in the parallel study. The explants were cultured in medium containing 10 nM estradiol (E(2)) or 1 nM estradiol plus 500 nM progesterone (E(2) + P(4)) with or without TCDD (first 24 h). After culture, AhR and ARNT mRNA expression were quantified by RT-PCR. TCDD treatment significantly increased the expression of AhR mRNA, but not ARNT mRNA. The expression of both genes was similar for all individual explants and the ratio of AhR:ARNT mRNA expression across all samples was 1.7 to 1.8. Constitutive AhR mRNA expression was donor age dependent (increasing with age), while ARNT mRNA expression was donor age and tissue phase dependent (increased in older and proliferative phase specimens). Similar to results in the parallel study on expression of CYP1A1 mRNA, CYP1B1 mRNA, EROD activity, and CYP1B1 protein, the presence of endometriosis did not affect the expression of AhR or ARNT mRNA, either constitutively or following TCDD exposure. However, the detection of disease-specific change was limited by small sample size and variability in tissue cycle phase. The human endometrial explant culture model will be useful for future studies of the effects of dioxin-like compounds on human endometrium in relationship to cycle phase, hormonal exposure, and donor age.

Adrenocorticotropin (ACTH) and corticosterone secretion by perifused pituitary and adrenal glands from rodents exposed to 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD).

Although in utero maternal stress has been shown to have lasting effects on rodent offspring, fetal effects of chemically-induced alterations of the maternal hypothalamic-pituitary-adrenal axis (HPA) have not been well studied. This study examined the effects of in vivo 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) exposure on pituitary-adrenal function in the male rat, pregnant female rat and pregnant female mouse. The secretion of adrenocorticotropin (ACTH) and corticosterone (CORT) in pituitary and adrenal glands, respectively, was assessed in ex vivo perifusion cultures. Male and pregnant female (gestation day 8) Sprague-Dawley rats were gavaged once with 10 microgram/kg TCDD, pregnant female mice once with 24 microgram/kg TCDD, and euthanized 10 days later. Hemi-pituitary (rat) or whole anterior pituitaries (mice) and right adrenal glands from the same animal were quartered, perifused under baseline and stimulated conditions. In both males and pregnant females, TCDD did not affect corticotropin releasing hormone (CRH)-stimulated ACTH secretion. Neither total pituitary ACTH nor plasma ACTH was altered in either sex or species by TCDD treatment. ACTH-stimulated CORT secretion was not affected by TCDD in either sex or species, and adrenal tissue and plasma CORT levels were unchanged in males and pregnant females by TCDD. However, the plasma ACTH:CORT ratio was decreased about 46% in male rats treated with TCDD. Plasma CORT levels were 23-fold higher and plasma ACTH levels were 1.5-fold higher in pregnant females than in male rats. In male versus female rats, adrenal CORT and anterior pituitary ACTH tissue levels were about 7.5- and 1.75-fold higher and ACTH, respectively. Female mouse adrenal tissue CORT was about 4-fold greater than female rat. The reduced plasma ACTH:CORT ratio in the male rat suggests that TCDD disturbs HPA function. Exposure of male rat to a 5-fold higher dose in earlier studies clearly demonstrated effects of TCDD on male rat HPA. The present study identified substantial HPA performance differences between male and pregnant female rats. The failure to detect a response to TCDD in pregnant female rat and mouse could be a function of both TCDD dose and the high level of secretion of both ACTH and CORT in pregnant animals. For the rat or mouse, a single exposure to TCDD during pregnancy does not appear sufficient to induce maternally-mediated developmental, reproductive and behavioral toxicity via the HPA axis.

Reduced antiretroviral drug susceptibility among patients with primary HIV infection.

CONTEXT: The transmission of drug-resistant human immunodeficiency virus (HIV) has been documented, but the prevalence of such transmission is unknown. OBJECTIVE: To assess the spectrum and frequency of antiretroviral susceptibility among subjects with primary HIV infection. DESIGN, SETTING, AND PATIENTS: Retrospective analysis of 141 subjects identified from clinical research centers in 5 major metropolitan areas, enrolled from 1989 to 1998, with HIV seroconversion within the preceding 12 months and no more than 7 days' prior antiretroviral (ARV) therapy. MAIN OUTCOME MEASURES: Phenotypic and genotypic ARV susceptibility of HIV from plasma samples. RESULTS: The transmission of drug-resistant HIV as assessed by a greater than 10-fold reduction in ARV susceptibility to 1 or more drugs was observed in 3 (2%) of 141 subjects, including to a nonnucleoside reverse transcriptase inhibitor in 1 patient and to a nucleoside reverse transcriptase inhibitor and a protease inhibitor in 2 patients. Population-based sequence analysis of these 3 samples identified multidrug-resistance mutations in reverse transcriptase (M184V, T215Y, K219K/R) and protease (L101/V, K20R, M361, M46I, G48V, L63P, A71T, V771, V82T, 184V, L90M) in the 2 latter patient samples, along with numerous polymorphisms. A reduction in susceptibility of greater than 2.5- to 10-fold to 1 or more drugs was observed in viral isolates from 36 patients (26%). Sequence analysis of these 36 samples identified well-characterized drug resistance mutation in reverse transcriptase and protease in only 1 of these patients. CONCLUSIONS: Reductions in drug susceptibility of more than 10-fold were rare among this cohort of recently HIV-infected subjects and were distributed among each of the 3 major classes of ARV drugs tested. Reductions in susceptibility of more than 2.5- to 10-fold to certain ARV drugs of unknown clinical significance were highly prevalent among newly infected patients. Resistance testing may be warranted to monitor the frequency of drug resistance over time and to assess the potential for geographic variability.

Development of a morphologically-based scoring system for postimplantation New Zealand White rabbit embryos.

Rodent whole-embryo culture (WEC) systems are well-established, as are several corresponding morphological scoring systems. Recently, WEC techniques for rabbits have been developed, creating the need for a morphological evaluation system in this species. Consequently, we developed a gestational-age-based quantitative morphology evaluation system for rabbit embryos. Detailed descriptions of 21 embryonic structures, as collected from gestational day (gd) 9-13 rabbit embryos, formed the basis for this evaluation system. These descriptions were then developed into specific criteria for assigning numerical scores to quantify the degree of development of each embryonic structure. The overall morphologic score was calculated as the average of the individual structure scores. To make the system as informative as possible, the numerical scale of the scoring system was gestationally age-based (i.e., range of potential scores was 9.0-13.0). The scoring system was then applied in the evaluation of New Zealand White (NZW) rabbit embryos explanted on gd 9 and cultured for 48 hr. Embryos grown in vitro developed normally, but at a slightly slower rate in vitro than in vivo, as evidenced by the lower morphology score (10.4 in vitro, 11.0 in vivo) and measures of growth (somite number, total protein, and head length). This work firmly establishes the normal archetype of embryonic development in the gd 9-13 NZW rabbit and provides an important tool for the advancement of mechanistic studies of rabbit embryos developing both in vivo and in vitro.

Evaluation of various toxicants in rabbit whole-embryo culture using a new morphologically-based evaluation system.

In an effort to advance the use of whole-embryo culture (WEC) techniques in the rabbit, we recently developed a gestational-age-based quantitative morphologic evaluation system for rabbit embryos. In the current study, we applied this new morphological scoring system to assess the development of rabbit gestational day (gd) 9 embryos exposed for 48 hr in WEC to the teratogens ethanol (EtOH, 154 mM), 6-aminonicotinamide (6AN, 0.15 mM), and methoxyacetic acid (MAA, 5.0 mM), and the nonteratogen penicillin G (PG, 2.0 mM). Each teratogen at the concentration tested markedly inhibited morphological development, as indicated by significantly lower morphologic scores (10.1+/-0.05, EtOH; 10.2+/-0.05, 6AN; and 9.8, MAA) relative to controls (10.6+/-0.04), and resulted in an increased percentage of malformed embryos (53%, EtOH; 57%, 6AN; 90%, MAA; and 3%, control). Embryonic growth, as measured by head length, somite number, and total embryonic protein, was significantly decreased by each teratogen. The abnormalities produced by teratogen exposure, which included brain, somite, and facial defects, were often similar to those produced following in vivo exposure in rabbits and rodents, and/or in vitro exposure in rodents. In contrast to the teratogen exposure groups, PG had no effect on embryo growth parameters, or on malformation rate (6%), although a slight but statistically significant decrease in morphology score (10.5+/-0.03) was noted. Our preliminary studies demonstrate the usefulness of the morphology evaluation system by quantifying graded differences in development, and indicate that rabbit WEC may be a useful adjunct to rodent WEC in gaining insights regarding differential interspecies sensitivity.

Adverse reproductive outcomes in the transgenic Ah receptor-deficient mouse.

The aryl hydrocarbon receptor (AHR) is a transcriptional regulatory protein that binds to upstream DNA response elements of target genes. Activation of the AHR by binding of ligands such as polyhalogenated dioxins, furans, and PCBs is associated with a wide range of adverse biological outcomes, including cancer, immune deficiencies, embryo/fetotoxicity, and reproductive toxicity. Investigations of the diverse biological responses mediated by the AHR led to production of a transgenic mouse in which the gene coding for the AhR was inactivated. AHR-deficient mice were fertile and at maturity exhibited immune system impairment and hepatic fibrosis. Our laboratory received several of these homozygous knockout (-/-) mice and mated them with wild-type (+/+) C57BL/6N mice to generate large numbers of heterozygotes (+/-). The -/- males were then mated with a total of 45 heterozygous +/- females. Offspring of these matings were genotyped and mated in all genotypic combinations. Although male and female -/- adults were fertile, the -/- females had difficulty maintaining conceptuses during pregnancy, surviving pregnancy and lactation, and rearing pups to weaning. Only 46% of the 39 pregnant -/- females successfully raised pups to weaning. The -/- pups showed poor survival during lactation (average death rate per litter was 16%) and after weaning (26.5% of the 230 weaned -/- pups died within 2 weeks). Only 39% of the implantations in uteri of -/- dams resulted in offspring surviving to Postnatal Day 45. Across all litters the sex ratios and genotypic frequencies were comparable to expected values. Reproductive success was adversely affected in Ahr-null females and conceptuses. Additional study is needed to reveal the etiology of these effects.

In vitro 2,3,7,8-tetrachlorodibenzo-p-dioxin interference with the anterior pituitary hormone adrenocorticortropin.

Treatment of male Sprague-Dawley rats with a single oral dose of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) has been shown to increase serum adrenocorticotropin (ACTH) and decrease serum corticosterone. The present in vitro study was designed to assess whether TCDD has a direct effect on the anterior pituitary under basal and stimulated conditions. Primary anterior pituitary cell cultures were prepared from normal 180- to 220-g male Sprague-Dawley rats and the cultures treated with 10(-9)-10(-19) M TCDD. Maximal secretion of ACTH occurred between 10(-11) and 10(-15) M TCDD for both medium (2-fold) and intracellular (1.5-fold) concentrations after 24 h TCDD exposure. TCDD treatment also caused an early (6 h) and persistent (10 days) increase in basal medium (1.4- to 2.8-fold) and intracellular (1.1- to 1.7-fold) ACTH concentrations. However, while stimulation with corticotropin-releasing hormone (CRH) increased intracellular ACTH 1.5- to 1.7-fold in pituitary cells treated for 24 h with 10(-9)-10(-13) M TCDD, ACTH secreted into the media was decreased by 30-50% compared with controls. Lastly, the secretagogue arginine-8-vaso-pressin (AVP), did not increase the amount of ACTH secreted above levels observed with basal TCDD exposure. From this study, it appears that TCDD stimulates in vitro synthesis and secretion of ACTH by the anterior pituitary under basal conditions, but decreases the pituitary's responsiveness to CRH and AVP stimulation.

Evidence for Ah receptor mediation of increased ACTH concentrations in primary cultures of rat anterior pituitary cells exposed to TCDD.

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) has been shown to increase plasma ACTH concentrations in male Sprague-Dawley rats and in male rat primary anterior pituitary cell cultures. The present study examined whether the anterior pituitary effects observed after TCDD exposure are mediated via the Ah receptor (AhR). Primary anterior pituitary cell cultures were prepared from normal 180- to 220-g male rats and the cultures treated with alpha-naphthoflavone (ANF), an antagonist; beta-naphthoflavone (BNF), an agonist; BNF + TCDD; 3,3',4,4',5-pentachlorobiphenyl (PCB), which is known to bind to the AhR; and 2,2',4,4',5,5'-hexachlorobiphenyl (HCB), which does not bind the AhR. Support for the TCDD-AhR-mediated increases in ACTH concentrations is provided by the following observations: (1) ANF inhibited both the 1.3- to 2-fold TCDD-induced increase in basal medium and intracellular ACTH concentrations and the 30% TCDD-induced decrease in medium ACTH levels and the 1.2-fold increase in intracellular ACTH levels in corticotropin-releasing hormone (CRH)-stimulated cells, (2) BNF increased basal medium (1.7-fold) and intracellular (1.3-fold) ACTH concentrations, (3) BNF + TCDD demonstrated additivity by increasing basal medium (2.4-fold) and intracellular (1.7-fold) ACTH concentrations, (4) PCB increased basal medium (1.8- to 2.1-fold) and intracellular (1.3- to 1.8-fold) ACTH concentrations and inhibited medium ACTH secretion in CRH stimulated cells by 24-43%, and (5) HCB did not effect basal or CRH stimulated medium and intracellular ACTH concentrations. From this study it appears that TCDD-induced changes in ACTH secretion and synthesis by cultured anterior pituitary cells is mediated through the Ah receptor.

In vivo and in vitro developmental toxicity in LPS-induced zinc-deficient rabbits.

Lipopolysaccharide (LPS) was used to induce maternal hypozincemia in order to test the hypothesis that altered zinc homeostasis is developmentally toxic in the rabbit. Treatment of dams on Gestation Day (GD) 8 with LPS (0.67 microgram/kg i.v.) caused total resorption of 78% (7 of 9) of the litters whereas GD 10 treatment increased the percentage of resorbed implantations (18-fold), but resulted in only 14% (1 of 7) totally resorbed litters. Cotreatment with zinc oxide (ZnO) on GD 10 decreased the resorption rate by 44%, indicating that hypozincemia was partially responsible for the resorptions. However, ZnO had no effect on resorption rate in GD 8 LPS-treated dams. No malformations were observed with LPS dosing on either gestation day. To determine whether LPS-induced Zn deficiency had any direct effects on rabbit embryos, normal GD 9 embryos were cultured for 48 h in serum from LPS-treated dams (0.53 +/- 0.01 microgram/mL Zn) or from controls (1.74 +/- 0.07 micrograms/mL Zn). Embryo growth and development were normal in both groups, indicating a lack of any direct embryo effects of Zn deficiency. Finally, maternal plasma progesterone and the Zn content of conceptus tissues were measured 24 h after LPS injection on GD 10. Despite a marked decrease in maternal serum Zn, no significant changes in embryo, visceral yolk sac, yolk sac cavity-exoceolomic fluid, or placental Zn were found. However, maternal progesterone levels were decreased 33 and 28% in the LPS and LPS + ZnO groups, respectively. Taken together, these results indicate that rabbits may differ from rodent species in their lesser susceptibility to the teratogenic potential of transient maternal Zn deficiency, as well as in their resistance to conceptus Zn changes. Nonetheless, Zn deficiency may be responsible for an increase in resorption rate in the rabbit.

Developmental toxicity of dietary zinc deficiency in New Zealand white rabbits.

Chemically induced maternal Zn deficiency has been shown previously to cause terata and increase embryonic loss in rodents. To examine the potential effects of Zn deficiency in the rabbit, a major developmental toxicity test species, rabbit dams were fed an ethylenediamine-tetraacetic acid-washed alfalfa-based Zn-deficient diet (-Zn) or the same diet replete with 80 ppm Zn (control) from Gestation Day (GD) 0 through 20. A third group of animals was pair fed to match the mean daily feed consumption levels of the < 2 ppm Zn group. By GD 7, maternal serum Zn levels of the -Zn dams were decreased 56% and reached a nadir with a 75% decrease of serum Zn by GD 14. Zinc concentrations in the visceral yolk sac and visceral yolk sac-exoceolomic fluid were decreased 30% and 50%, respectively, by GD 11. Although GD 11 embryonic Zn levels were not affected, the embryos from Zn-deficient dams exhibited decreased head length, somite number, and total protein. On GD 28, a significant increase in resorptions/litter was noted in the -Zn group, and the incidence of totally resorbed litters of the -Zn group was greater than laboratory historical control values. No terata were observed in GD 28 fetuses. This study indicates that Zn deficiency occurring during the standard dosing period of guideline rabbit developmental toxicity studies may be associated with a modest increase in resorption rate and a transient inhibition of embryonic growth, but in contrast to rodent species, does not appear to be teratogenic.

Lipid peroxidation in the adrenal glands of male rats exposed to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD).

This study was performed to determine whether TCDD (50 micrograms/kg; single oral dose) could induce adrenal microsomal lipid peroxidation, which might be correlated to decreased levels of cytochrome P-450 and 21-hydroxylase activity. The amount of malondialdehyde (MDA) formed was significantly higher than controls at days 1 through 5 following TCDD treatment. Microsomal cytochrome P-450 levels were depressed after lipid peroxidation at days 1, 3, and 5, and 21-hydroxylase activity decreased at day 5 after TCDD treatment. This study shows that TCDD stimulates adrenal microsomal lipid peroxidation which is associated with decreased cytochrome P-450 levels and 21-hydroxylase activity.

TCDD alters pituitary-adrenal function. I: Adrenal responsiveness to exogenous ACTH.

Plasma ACTH concentrations in 2, 3, 7, 8-tetrachlorodibenzo-p-dioxin (TCDD)-treated rats (50 micrograms/kg; single, oral dose) were 2.1-, 2.1-, 2.9-, 1.7-, 1.5-, 2.0- and 3.0-fold greater than control values, respectively, at days 1, 3, 5, 7, 10, and 14. At days 1 and 5 plasma corticosterone concentrations were increased 5.1- and 8.0-fold, respectively; whereas, at days 10 and 14 they were depressed to values of 50% and 39% of controls, respectively. Adrenal glands were excised from rats treated with TCDD and corticosterone production was assessed. Basal corticosterone concentrations produced by treated adrenals were depressed to 81%, 72%, and 71% of control values at days 5, 7, and 14, respectively. Corticosterone secretion by ACTH stimulated adrenals was equivalent to controls. These findings suggest that TCDD exposure decreases the bioactivity of the ACTH secreted by the anterior pituitary.

TCDD alters pituitary-adrenal function. II: Evidence for decreased bioactivity of ACTH.

The present study assessed the ability of primary cultures of rat anterior pituitary cells to secrete bioactive ACTH in the presence of 2, 3, 7, 8-tetrachlorodibenzo-p-dioxin (TCDD). The bioactivity of the secreted pituitary cell ACTH was determined by its ability to stimulate secretion of corticosterone from primary cultures of rat adrenal cells. ACTH from basal or CRH stimulated pituitary cells treated with TCDD was found to be less capable of stimulating corticosterone secretion from primary rat adrenal cell cultures than equimolar concentrations of ACTH purchased from a commercial supplier. Corticosterone secretion from adrenal cell cultures treated with ACTH from basal or CRH stimulated pituitary cell cultures exposed to TCDD was decreased by 60 and 70%, respectively. The decreased ability to stimulate corticosterone secretion can be overcome when extracts of ACTH from pituitary cell cultures treated with TCDD are supplemented with commercial ACTH. These findings indicate that TCDD may alter the bioactivity of secreted ACTH from the anterior pituitary gland.