Lead alters intracellular protein signaling and suppresses pro-inflammatory activation in TLR4 and IFNR-stimulated murine RAW 264.7 cells, in vitro.

Lead (Pb) is a persistent environmental pollutant that has a structure and charge similar to many ions, such as calcium, that are essential for normal cellular function. Pb may compete with calcium for protein binding sites and inhibit signaling pathways within the cell affecting many organ systems including the immune system. The aim of the current study was to assess whether the calcium/calmodulin pathway is a principal target of environmentally relevant Pb during pro-inflammatory activation in a RAW 264.7 macrophage cell line. RAW 264.7 cells were cultured with 5 µM Pb(NO3)2, LPS, rIFNγ, or LPS+rIFNγ for 12, 24, or 48 hr. Intracellular protein signaling and multiple functional endpoints were investigated to determine Pb-mediated effects on macrophage function. Western blot analysis revealed that Pb initially modulated nuclear localization of NFκB p65 and cytoplasmic phosphorylation of CaMKIV accompanied by increased phosphorylation of STAT1ß at 24 hr. Macrophage proliferation was significantly decreased at 12 hr in the presence of Pb, while nitric oxide (NO) was significantly reduced at 12 and 24 hr. Cells cultured with Pb for 12, 24, or 48 hr exhibited altered cytokine levels after specific stimuli activation. Our findings are in agreement with previous reports suggesting that macrophage pro-inflammatory responses are significantly modulated by Pb. Further, Pb-induced phosphorylation of CaMKIV (pCaMKIV), observed in the present study, may be a contributing factor in metal-induced autophagy noted in our previous study with this same cell line.

Exposure of juvenile Leghorn chickens to lead acetate enhances antibiotic resistance in enteric bacterial flora.

Heavy metals have been implicated for their ability to increase antibiotic resistance in bacteria collected from polluted waters, independent of antibiotic exposure. Specific-pathogen-free Leghorn chickens were therefore given Pb acetate in the drinking water to expose the enteric bacteria to Pb and to determine if antibiotic resistance changed in these bacteria. Concentrations of Pb used were 0.0, 0.01, 0.1, 1.0, or 10.0 mM; birds given the highest 2 concentrations showed signs of moribundity and dehydration and were removed from the study. Vent culture samples were collected for bacterial cultures on d 0 before Pb exposure, d 7 and 14, and then birds were euthanized by CO2 gas for necropsy on d 14, at which time intestinal contents were also collected for bacterial cultures. Fecal swabs but not intestinal samples from Pb-exposed birds contained isolates that had significantly elevated antibiotic resistance. Some of the isolates contained bacteria that were resistant to up to 20 antibiotics. These results suggest the need for repeated studies in chickens infected with zoonotic pathogens.

Persistent increase of blood lead level and suppression of δ-ALAD activity in northern bobwhite quail orally dosed with even a single 2-mm spent lead shot.

Birds that display grit ingestion behavior are potentially at risk of lead (Pb) poisoning from mistaken ingestion of spent Pb shot pellets. The majority of available studies designed to assess such risk have used unspent shot pellets rather than field-obtained spent shot, which is oxidized and otherwise changed by weathering. Available studies also often administered more or heavier shot pellets to a bird than it might be expected to ingest. The current study dosed northern bobwhite quail (Colinus virginianus) weighing 194.6 ± 23.1 g (female birds) and 199.3 ± 12.2 g (male birds) with one to three spent no. 9 Pb shot collected from a skeet range, with particular interest in the toxicity that may occur from ingestion of a single 2-mm, 50 mg shot. An 8 week post-dosing clinical observation period was employed, over which feed consumption, body weight, blood Pb levels, and a battery of blood physiological parameters were made. Weight loss occurred in the birds, including male birds dosed with one Pb pellet. Erythrocyte delta aminolevulinic acid dehydratase (δ-ALAD) levels were decreased for the duration of the study across exposures and to levels associated with injury in wild bird populations. Decreased ALAD was particularly severe in female birds dosed with one Pb pellet and was still 92 % decreased at 8 weeks after dosing. Together, these results suggest that inadvertent ingestion of a single no. 9 Pb shot pellet can adversely affect the health of northern bobwhite quail.

Detection of polycyclic aromatic hydrocarbons in the shed skins of corn snakes (Elaphe guttata).

Previous work has shown that organochlorine compounds, including chlordane, lindane and polychlorinated biphenyls, and heavy metals, including lead, mercury and cadmium, are readily detected in the shed skins of snakes dosed with these toxicants. This suggested the shed skins may have broad utility as a non-lethal biomarker tissue for environmental contamination. In the present study, two polycyclic aromatic hydrocarbons (PAHs), benzo[a]pyrene (B[a]P) and 3-methylcholanthrene (3-MC), were similarly studied, as representatives of a third major pollutant category of environmental concern. Both compounds were again readily detected in shed snake skins. These collective results suggest considerable environmental contamination information might be obtained from the evaluation of field-collected shed skins. An advantage of such evaluation is that capture, handling or sacrifice of the live animals is not required.

Placental oxidative stress alters expression of murine osteogenic genes and impairs fetal skeletal formation.

Fetal and placental developments rely on an intricate balance of nutrients, growth factors, and signaling pathways at precise times in gestation. Disruptions to this balance may result in disease that manifests in adulthood, a situation termed "developmental origins of health and disease". Diet, exercise, and certain chemical exposures during pregnancy increase oxidative stress (OS), and may alter trajectory of fetal osteogenic regulation in a manner that increases risk of adult bone dysfunction. The present study used gestational methylnitrosourea (MNU), a known inducer of OS, in C57BL/6 mice with or without dietary antioxidant quercetin (Q) supplementation. Several key placental genes that influence placental development and fetal osteogenesis (Hgf, Kitl, IFNalpha4, Ifrd, and IL-1beta) were altered by MNU, and largely normalized by Q. MNU treatment also resulted in small fetuses with disproportionately shortened limbs and distal limb malformations, and caused placental endothelial and trophoblast damage. Q was again protective against these fetal and placental pathologies. An unanticipated finding with Q supplementation was increased interdigital webbing, perhaps due to dose-related effects on apoptosis required for digital sculpting, or pro-oxidant effects of Q that caused a maturational delay. These results suggest that elevated OS may alter normal placental osteogenic signaling and fetal skeletal formation.

An enhanced postnatal autoimmune profile in 24 week-old C57BL/6 mice developmentally exposed to TCDD.

Developmental exposure of mice to the environmental contaminant and AhR agonist, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), causes persistent postnatal suppression of T cell-mediated immune responses. The extent to which prenatal TCDD may induce or exacerbate postnatal autoimmune disease remains unknown. In the present study, time-pregnant high affinity AhR C57BL/6 mice received a single oral administration of 0, 2.5, or 5 microg/kg TCDD on gestation day (gd) 12. Offspring of these mice (n=5/gender/treatment) were evaluated at 24 weeks-of-age and showed considerable immune dysregulation that was often gender-specific. Decreased thymic weight and percentages of CD4(+)CD8(+) thymocytes, and increased CD4(+)CD8(-) thymocytes, were present in the female but not male offspring. Males but not females showed decreased CD4(-)CD8(+) T cells, and increased Vbeta3(+) and Vbeta17a(+) T cells, in the spleen. Males but not females also showed increased percentages of bone marrow CD24(-)B220(+) B cell progenitors. Antibody titers to dsDNA, ssDNA and cardiolipin displayed increasing trends in both male and female mice, reaching significance for anti-dsDNA in both genders and for ssDNA in males at 5 microg/kg TCDD. Immunofluorescent staining of IgG and C3 deposition in kidney glomeruli increased in both genders of prenatal TCDD-exposed mice, suggestive of early stages of autoimmune glomerulonephritis. Collectively, these results show that exposure to TCDD during immune system development causes persistent humoral immune dysregulation as well as altered cell-mediated responses, and induces an adult profile of changes suggestive of increased risk for autoimmune disease.

Viability and function in lymphocytes cultured from the horse, chicken, and mouse: effects of different leukocyte enrichment techniques.

Methods of lymphocyte enrichment tend to vary across species, with the most common techniques employed being density-gradient separation and erythrocyte lysis buffer enrichment. In this study, we assessed lymphocyte viability and proliferation of avian, equine, and murine lymphocytes enriched by a commercial density-gradient technique and under identical, standardized culture conditions. The results of this study clearly show that, under identical enrichment and culture conditions, lymphocyte viability and function can be quite different among the equine, bird, and mouse species. Secondly, the type of enrichment technique employed in the mouse can impact the quality of the immune data generated.

Does immune stimulation or antioxidant therapy reduce MNU-induced placental damage via activation of Jak-STAT and NFkappaB signaling pathways?

Maternal oxidative balance and immune health impact both placental and fetal developments. The alkylating agent methylnitrosourea (MNU) increases placental oxidative stress and alters fetal development; the proposed mechanism is placental inflammation, endothelial dysfunction, and cell loss resulting in reduced fetal-maternal circulation and fetal hypoxia. Results of the present study suggest two primary cellular signaling pathways associated with placental and fetal malformations in mice following mid-gestational MNU: Jak-STAT and NFkappaB. Activation of these pathways was associated with increased placental granulocyte-macrophage colony stimulating factor (GM-CSF), interleukin-2 (IL-2), IL-4, leptin, macrophage chemotactic protein-1 (MCP-1), tumor necrosis factor-alpha (TNF-alpha), thrombopoietin (TPO), and vasculoendothelial growth factor (VEGF), and decreased IL-10. Maternal immunostimulation with Freund's complete adjuvant (FCA) or interferon-gamma (IFN-gamma), or antioxidant supplementation with butylated hydroxytoluene (BHT) partially restored placental cytokine levels relative to controls, suggesting that maternal immunity and oxidative stress may both contribute to placental dysregulation and fetal maldevelopment following MNU.

Role of maternal dietary antioxidant supplementation in murine placental and fetal limb development.

Methylnitrosourea (MNU) is a multisystem teratogen that damages proliferating cells through macromolecule alkylation and generation of reactive oxygen species (ROS). Murine dams exposed to MNU midgestation produce offspring with distal limb malformations, an outcome reduced by maternal immune stimulation. Immunostimulatory effects of antioxidant therapy may in part explain this improved birth outcome. The present study hypothesizes that placental, rather than fetal, damage from excessive ROS may contribute to MNU-induced embryopathy. Fetal limbs and placentas were examined in immunotolerant CD-1 and immunosensitive C57BL/6N mice exposed to MNU, dietary antioxidant butylated hydroxytoluene (BHT), or both. MNU increased fetal resorptions and incidence of syndactyly, oligodactyly, polydactyly, and interdigital webbing, and decreased fetal size in both mouse strains. BHT reduced syndactyly and oligodactyly in both strains, and reduced polydactyly in C57BL/6N mice. Increased webbing in MNU and MNU+BHT groups likely represented maturational delay. Placentas from CD-1 and C57BL/6N MNU-exposed dams demonstrated decreased trophoblasts and increased necrosis of endothelium. Similar to distal limb defects, placental damage was reduced in mice receiving MNU+BHT. These results suggest that placental damage and fetal defects caused by MNU are in part ROS-mediated, and reduced distal limb defects following MNU+BHT may be related to improved placental integrity and function.

Combined dermal exposure to permethrin and cis-urocanic acid suppresses the contact hypersensitivity response in C57BL/6N mice in an additive manner.

Cutaneous exposure to the pyrethroid insecticide permethrin significantly suppresses contact hypersensitivity (CH) response to oxazolone in C57BL/6N mice. Additionally, cis-urocanic acid (cUCA), an endogenous cutaneous chromophore isomerized to its active form following exposure to ultraviolet radiation, modulates cell-mediated cutaneous immune responses. This study describes cutaneous immune alterations following combined topical permethrin and intradermal cUCA exposure. Female C57BL/6N mice were administered 5, 50 or 100 microg cUCA daily for 5 consecutive days. CH was then evaluated by the mouse ear swelling test (MEST) response to oxazolone. Decreased responses of 52.3%, 76.3% and 76.3%, respectively, as compared to controls were observed. Then, mice were co-exposed to 5 microg cUCA daily for 5 days and 1.5, 5, 15, or 25 microL permethrin, on either day 1, 3 or 5 of the cUCA treatment to evaluate combined immunomodulatory effects of the two chemicals, or cUCA daily for 5 days followed by permethrin on day 3, 5, or 7 after the last cUCA injection to demonstrate prolonged immunosuppressive effects. Two days after final treatment, mice were sensitized with oxazolone and MEST was performed. Mice receiving five cUCA injections and permethrin topically on cUCA injection day 1 showed up to 93.3% suppression of MEST compared to vehicle control. CH was suppressed by 87.5%, 86.6% and 74.2% in mice treated with 25 muL permethrin on days 3, 5 and 7 after cUCA, respectively, compared to vehicle control. Taken together, these data indicate co-exposure to cUCA and permethrin profoundly suppresses cell-mediated cutaneous immunity.

Prenatal immunotoxicant exposure and postnatal autoimmune disease.

Reports in humans and rodents indicate that immune development may be altered following perinatal exposure to immunotoxic compounds, including chemotherapeutics, corticosteroids, polycyclic hydrocarbons, and polyhalogenated hydrocarbons. Effects from such exposure may be more dramatic or persistent than following exposure during adult life. For example, prenatal exposure to the insecticide chlordane or to the polycyclic aromatic hydrocarbon benzo[(italic)a(/italic)]pyrene produces what appears to be lifelong immunosuppression in mice. Whether prenatal immunotoxicant exposure may predispose the organism to postnatal autoimmune disease remains largely unknown. In this regard, the therapeutic immunosuppressant cyclosporin A (CsA) crosses the placenta poorly. However, lethally irradiated rodents exposed to CsA postsyngeneic bone marrow transplant (i.e., during re-establishment of the immune system) develop T-cell-mediated autoimmune disease, suggesting this drug may produce a fundamental disruption in development of self-tolerance by T cells. The environmental contaminant 2,3,7, 8-tetrachlorodibenzo-(italic)p(/italic)-dioxin (TCDD) crosses the placenta and produces fetal thymic effects (italic)in vivo(/italic) similar to effects of CsA in fetal thymic organ culture, including inhibited thymocyte maturation and reduced expression of thymic major histocompatability complex class II molecules. These observations led to the suggestion that gestational exposure to TCDD may interfere with normal development of self-tolerance. Possibly supporting this hypothesis, when mice predisposed to development of autoimmune disease were treated with TCDD during gestation, postnatal autoimmunity was exacerbated. Similar results have been reported for mice exposed to diethylstilbestrol during development. These reports suggest that prenatal exposure to certain immunotoxicants may play a role in postnatal expression of autoimmunity.

Development of the murine and human immune system: differential effects of immunotoxicants depend on time of exposure.

Fetal and early postnatal life represent critical periods in vertebrate immune system development. Disruption of such development by perinatal immunotoxic chemical exposure has been widely described in experimental animal models. The resultant inhibited postnatal immune responses in such animals are often more dramatic and persistent than those after exposure during adult life. Further, recent reports suggest that prenatal exposure to immunotoxicants may exacerbate postnatal aberrant immune responses (e.g., hypersensitivity disorders and autoimmune disease) in genetically predisposed rodents. Limited information is available regarding the possibility of inhibited postnatal immune capacity in humans as a result of developmental immunotoxicant exposure. The multifactorial nature of hypersensitivity and autoimmune responses will further complicate the elucidation of possible relationships between chemical exposure during ontogeny of the human immune system and immune-mediated disease later in life. Taken together, however, the available animal data suggest the potential for altered postnatal immune function in humans exposed to immunotoxicants (e.g., environmental chemicals and therapeutic agents) during fetal and/or early postnatal life.

Alterations in fetal thymic and liver hematopoietic cells as indicators of exposure to developmental immunotoxicants.

Recent studies indicate that immune development in humans and other species may be altered after perinatal exposure to immunotoxic environmental contaminants. However, limited information is available regarding appropriate tests that may adequately detect developmental immunotoxic compounds. Experiments in which pregnant laboratory rodents were exposed to a variety of immunotoxic environmental agents indicate that fetal thymus and liver immune cells may be quantitatively and qualitatively altered by immunotoxicant exposure and, thus, may serve as sensitive markers of developmental immunotoxicant exposure. In particular, depression of fetal thymic cell counts appears to be a common event following gestational exposure to immunotoxicants that produce this response in adult animals. Total hematopoietic cell counts in fetal liver, however, may be a poor indicator of immunotoxicant exposure. Altered marker expression in both fetal thymus and liver appears to be a highly sensitive indicator of gestational immunotoxicant exposure. Together, these reports suggest that immune tests with high predictability for immunosuppression in adults may also be appropriate for the detection of developmental immunotoxic agents.

Workshop to identify critical windows of exposure for children's health: immune and respiratory systems work group summary.

Fetuses, infants, and juveniles (preadults) should not be considered simply "small adults" when it comes to toxicological risk. We present specific examples of developmental toxicants that are more toxic to children than to adults, focusing on effects on the immune and respiratory systems. We describe differences in both the pharmacokinetics of the developing immune and respiratory systems as well as changes in target organ sensitivities to toxicants. Differential windows of vulnerability during development are identified in the context of available animal models. We provide specific approaches to directly investigate differential windows of vulnerability. These approaches are based on fundamental developmental biology and the existence of discrete developmental processes within the immune and respiratory systems. The processes are likely to influence differential developmental susceptibility to toxicants, resulting in lifelong toxicological changes. We also provide a template for comparative research. Finally, we discuss the application of these data to risk assessment.

Reduced birth defects caused by maternal immune stimulation may involve increased expression of growth promoting genes and cytokine GM-CSF in the spleen of diabetic ICR mice.

Maternal immune stimulation in mice decreases fetal abnormalities caused by diverse etiologies. Growth factors produced by activated immune cells were proposed to be key mediators that may exert their effects on placenta or embryo. Diabetes disrupts the secretion of cytokines, which may associate with diabetic embryopathy. Three different methods of maternal immune stimulation that result in approximately equal reduction of diabetic embryopathy were used in the present studies: footpad injection with complete Freund's adjuvant (CFA), intraperitoneal (i.p.) injection with granulocyte-macrophage colony-stimulating factor (GM-CSF), or i.p. injection with interferon-gamma (IFN-gamma). A gene microarray was then used to examine expression of a selected gene panel in splenic leukocytes. We hypothesized that maternal immune stimulation may act by overcoming altered gene expression patterns of immune cells in the diabetic mice, which partially mitigates the teratogenic effect of diabetes. It further seemed likely that a shared profile of splenic gene expression changes induced by the different immune stimulation procedures may be identified and related to reduced teratogenesis. The three procedures produced a common altered gene expression profile. Significantly affected genes included apoptotic and anti-apoptotic genes, and genes controlling cellular proliferation, and likely reflect a state of immune activation. The GM-CSF gene was up-regulated by all three immune stimulation procedures. The protein product of this gene regulates placental development, and was recently associated with reduced cleft palate in immune-stimulated pregnant mice after exposure to urethane. These data suggest that further studies of GM-CSF as mediator of reduced birth defects in teratogen-challenged, immune-stimulated mice are warranted.

Immune stimulation in urethane-exposed pregnant mice increases expression level of spleen leukocyte genes for TGFbeta3 GM-CSF and other cytokines that may play a role in reduced chemical-induced birth defects.

For unknown reasons, activation of the maternal immune system in mice reduces morphologic defects caused by diverse teratogenic agents. Such immune stimulation of the maternal animal has been correlated with altered cytokine mRNA transcripts in the placenta (e.g., TGFbeta2) as well as in fetal target tissues of the teratogen (e.g., TNFalpha in fetal heads of cyclophosphamide-exposed pregnant mice). The teratogen urethane was reported to down-regulate cell cycle and apoptotic regulatory genes in fetal mouse heads that displayed cleft palate, an effect that was also reversed by maternal immune stimulation. The molecular mediators of the above phenomena have not been identified, however proteins synthesized and released by activated maternal immune cells have been suggested. The present studies therefore evaluated the effects of maternal immune stimulation in urethane-exposed mice on thymus and spleen leukocyte populations, in an attempt to identify events that may correlate with protection against birth defects. Immune stimulation did not change the hypocellularity of the thymus nor the altered T cell differentiation caused by urethane. A limited and transient increase in splenic leukocyte number, including increased T and B lymphocytes and macrophages, was caused by immune stimulation and was not felt to play a significant role in reduced morphologic defects. Urethane treatment caused down-regulated expression of numerous genes involved in cell-cycle control, while maternal immune stimulation caused comparative up-regulation of many of these genes. Coordinate shifts in gene expression by treatment were evaluated using principal component analysis, which identified several growth factor genes that were differentially expressed in mice receiving urethane alone as compared to urethane plus immune stimulation. Up-regulated expression of TGFbeta3 and GM-CSF genes, in particular, was observed in leukocytes of urethane-exposed mice receiving immunostimulation. Interestingly, the cytokine products of these two genes were recently suggested as growth factors that may be related to reduction of fetal defects caused by teratogens. Genes for growth factors IGF-I, IGF-II and IL-2 were also identified as differentially expressed in urethane vs. urethane+immune stimulation mice, suggesting that these proteins should be considered for a potential contributing effect to reduced birth defects caused by immunostimulation.

Maternal immune stimulation reduces both placental morphologic damage and down-regulated placental growth-factor and cell cycle gene expression caused by urethane: are these events related to reduced teratogenesis?

Activation of the maternal immune system in mice decreased cleft palate caused by the chemical teratogen, urethane. Direct and indirect mechanisms for this phenomenon have been suggested, including maternal macrophages that cross the placenta to find and eliminate pre-teratogenic cells, or maternal immune proteins (cytokines) that cross placenta to alleviate or partially alleviate toxicant-mediated effects in the developing fetus. A third mechanism to explain improved fetal developmental outcome in teratogen-challenged pregnant mice might involve beneficial effects of immune stimulation on the placenta. In the present experiments, urethane treatment altered placental morphology and impaired placental function, the latter indicated by down-regulated activity of cell cycle genes and of genes encoding cytokines and growth factors. Maternal immune stimulation with either Freund's complete adjuvant (FCA) or interferon-gamma (IFNgamma) reduced morphologic damage to the placenta caused by urethane and normalized expression of several genes that were down-regulated by urethane. Urethane treatment also shifted placental cytokine gene expression toward a T cell helper 1 (Th1) profile, while immunostimulation tended to restore a Th2 profile that may be more beneficial to pregnancy and fetal development. These data suggest that the beneficial effects of maternal immune stimulation on fetal development in teratogen-exposed mice may, in part, result from improved placental structure and function.

Maternal immune stimulation in mice decreases fetal malformations caused by teratogens.

For unknown reasons, non-specific stimulation of the maternal immune system in pregnant mice has what appears to be a broad-spectrum efficacy for reducing birth defects. Immune stimulation by diverse procedures has proven effective, including footpad injection with Freund's complete adjuvant (FCA), intraperitoneal (IP) injection with inert particles to activate resident macrophages, IP injection with attenuated Bacillus Calmette-Guerin (BCG), and intrauterine injection with allogeneic or zenogeneic lymphocytes. Morphologic lesions that were significantly reduced included cleft palate and associated craniofacial defects, digit and limb defects, tail malformations, and neural tube defect (NTD). Teratogenic stimuli to induce these lesions included chemical agents (2,3,7,8-tetrachlorodibenzo-p-dioxin [TCDD], ethyl carbamate [urethane], methylnitrosourea [MNU], cyclophosphamide [CP], and valproic acid [VA]), physical agents (X-rays, hyperthermia), and streptozocin (STZ)-induced diabetes mellitus. Limited information is available regarding mechanisms by which such immune stimulation reduced fetal dysmorphogenesis. The collective literature suggests the possibility that immunoregulatory cytokines of maternal origin may be the effector molecules in this phenomenon.

Hematopoietic alterations after exposure to T-2 mycotoxin.

Adult mice were exposed by oral gavage to 0.75, 1.25, or 1.75 mg/kg body weight T-2 mycotoxin for 5 consecutive days. Thymic atrophy on the 2nd day following cessation of dosing was profound, and was characterized by significant decreases in the total number of cells within all phenotypes defined by CD4 and CD8 cell-surface antigen expression. Further, the distribution of thymocytes within these phenotypes was significantly altered. Increased percentages of CD4-8- (DN) and decreased percentages of CD4+8+ (DP) cells in thymuses from treated animals suggested that T-2 toxin may inhibit thymocyte maturation. In addition to thymus, the bone marrow of treated animals showed a highly significant hypocellularity, indicating that this hematopoietic compartment may also be targeted by T-2 toxin. A trend toward reduced splenic cellularity was additionally observed in exposed animals, but failed to reach significance. A significant decrease in the total number of both B and T-lymphocytes present within the spleen was observed, however. These data, taken together, indicate that effects at multiple hematopoietic compartments involved in the production of T-lymphocytes may contribute to the peripheral T-cell lymphocytopenia and T-cell mediated immunosuppression produced by T-2 toxin.

Exposure of tilapian fish to the pesticide lindane results in hypocellularity of the primary hematopoietic organ (pronephros) and the spleen without altering activity of phagocytic cells in these organs.

Tilapia were dosed by intraperitoneal injection for 5 consecutive days with either 20 or 40 mg/kg of the environmental contaminant hexachlorocyclohexane (lindane). The effects of this organochlorine pesticide on morphology and total cellularity of the spleen and pronephros were examined on the second day following termination of dosing. The functional capacity of phagocytic cells isolated from both spleen and pronephros was also evaluated as possible additional indicators of chemical-induced immunotoxicity. A dose-related reduction was found in spleen and pronephros total white blood cell counts in the fish exposed to lindane. In addition, hypocellularity of lymphoid regions in the spleen and pronephros was evident in chemical-exposed animals upon histopathological examination. However, phagocytosis of fluorescent microspheres by phagocytic cells isolated from the spleen and pronephros was not inhibited by the exposure to lindane. Similarly, no decrease in phorbolmyristate acetate (PMA)-stimulated hydrogen peroxide production was observed in phagocytic cells collected from lindane-exposed fish. These results suggest that cellular depletion in tilapia spleen and pronephros may represent a more sensitive indicator of lindane exposure than does the functional capacity of phagocytic cells isolated from these hematopoietic organs. Ultrastructural observations support this hypothesis and, further, suggest that lymphocytic cells may be targeted at the present exposure levels.