13-week dietary study and in vitro and in vivo genotoxicity studies of a structuring fat produced through a microalgal fermentation process

Microalgae are increasingly being utilized as food ingredients for a variety of applications, including as sources of protein, egg and dairy substitutes, and cooking oils. The dietary safety of a new structuring fat produced using a heterotrophic fermentation process by a strain of Prototheca moriformis was evaluated in a 13-week dietary toxicity study and compared with kokum fat, a structuring fat of similar composition used in the food industry and derived from Garcinia indica seeds. The algal structuring fat was evaluated for its genotoxic potential using both in vitro and in vivo assays. No treatment-related adverse events occurred in rats consuming algal structuring fat or kokum fat in the 13-week study; no treatment-related effects were reported for body weight, food consumption, urinalysis, hematology, clinical chemistry, gross pathology, organ weights, or histopathology. While statistically significant effects occurred in some parameters, none were dose-related or considered adverse. Overall, the NOAELs for the algal structuring fat and the kokum fat were 100 000 ppm, the highest concentrations tested. The algal structuring fat was not mutagenic in the bacterial reverse mutation assay in the Salmonella typhimurium or Escherichia coli strains tested and was not clastogenic in the in vivo mouse bone marrow chromosome aberration assay.

Oral developmental toxicity study of methylsulfonylmethane in rats

Methylsulfonylmethane (MSM) is a metabolite of dimethyl sulfoxide, and occurs naturally at low levels in many foods. MSM has received wide attention as a dietary supplement to promote joint health. The objective of these studies was to determine the developmental toxicity potential of MSM when administered orally to pregnant rats during the period of major organogenesis and histogenesis. In a preliminary dose-finding study, distilled MSM microprill (i.e., microspherical pellets of MSM) was administered by oral gavage at dose levels of 0 (vehicle control), 50, 250, 500, and 1000 mg/kg/day to 8-9 sperm-positive female Sprague-Dawley rats/group/day on gestation days 6-20. No evidence of maternal or fetal toxicity was observed. For the definitive developmental study, four groups of 24-25 timed-bred primiparous female rats were administered 0, 50, 500, or 1000 mg MSM/kg/day via gavage on gestation days 6-20. Maternal feed consumption, body weight, body weight gain, uterus weight and corrected body weight/body weight gain were unaffected by treatment. No evidence of maternal toxicity, and no significant differences in litter viability, litter size, or litter body weight were detected. Fetal evaluations failed to show any biologically significant increase in the incidence of anomalies in the MSM treated groups, and no malformations were seen in any of the fetuses. No evidence of fetal mortality, alterations to growth, or structural alterations were observed in the fetuses of dams administered 50-1000 mg/kg/day. Therefore, under the conditions of this study, the no-observed-adverse-effect level (NOAEL) for maternal and developmental toxicity was 1000 mg/kg/day.

Safety evaluation of a medium- and long-chain triacylglycerol oil produced from medium-chain triacylglycerols and edible vegetable oil

To reduce the incorporation of dietary lipids into adipose tissue, modified fats and oils have been developed, such as medium-chain triacylglycerols (MCT). Typical dietary lipids from vegetable oils, termed long-chain triacylglycerols (LCT), are degraded by salivary, intestinal and pancreatic lipases into two fatty acids and a monoacyl glycerol; whereas, MCT are degraded by the same enzymes into three fatty acids and the simple glycerol backbone. Medium-chain fatty acids (MCFA) are readily absorbed from the small intestine directly into the bloodstream and transported to the liver for hepatic metabolism, while long-chain fatty acids (LCFA) are incorporated into chylomicrons and enter the lymphatic system. MCFA are readily broken down to carbon dioxide and two-carbon fragments, while LCFA are re-esterified to triacylglycerols and either metabolized for energy or stored in adipose tissue. Therefore, consumption of MCT decreases the incorporation of fatty acids into adipose tissue. However, MCT have technological disadvantages precluding their use in many food applications. A possible resolution is the manufacture and use of a triacylglycerol containing both LCT and MCT, termed medium- and long-chain triacylglycerol (MLCT). This manuscript describes studies performed for the safety evaluation of a MLCT oil enzymatically produced from MCT and edible vegetable oil (containing LCT), by a transesterification process. The approximate fatty acid composition of this MLCT consists of caprylic acid (9.7%), capric acid (3.3%), palmitic acid (3.8%), stearic acid (1.7%), oleic acid (51.2%), linoleic acid (18.4%), linolenic acid (9.0%), and other fatty acids (2.9%). The approximate percentages of long (L) and medium (M) fatty acids in the triacylglyerols are as follows: L, L, L (55.1%), L, L, M (35.2%), L, M, M (9.1%), and M, M, M (0.6%). The studies included: (1) acute study in rats (LD50>5000 mg/kg); (2) 6 week repeat-dose safety study via dietary administration to rats (NOAEL of 3500 mg/kg/day), (3) in vitro genotoxicity studies using Salmonella typhimurium and Escherichia coli (negative at 5000 mg/plate), and (4) a four-week, placebo-controlled, double blind, human clinical trial utilizing 20 test subjects (no effects at 42 g MLCT/day). These data are corroborated by other studies published in the peer-reviewed literature on analogous MLCTs.

Safety evaluation of a natural tomato oleoresin extract derived from food-processing tomatoes

Experimental and epidemiological studies indicate that consumption of tomato products containing high amounts of lycopene is associated with lowered cancer risk. The protective effects of lycopene may be related to its antioxidant potential. Lycopene has been demonstrated to inhibit oxidation. A proprietary, natural tomato oleoresin extract (NTOE), is a purified tomato oleoresin containing 6% lycopene produced from tomatoes. NTOE was evaluated for toxicological effects, and found the 50% lethal dose (LD(50)), derived from the acute oral toxicity study, was greater than 5000 mg/kg body weight. The no-observed-adverse-effect level (NOAEL) derived from the 13-week study was 4500 mg/kg/day. Acute dermal toxicity study of NTOE found no toxicity at 2000 mg/kg body weight. NTOE lacked dermal irritation in the rabbit model, but was found to have moderate eye-irritant capabilities. NTOE tested at 5% (w/w) in petroleum jelly was a moderate sensitizer in the guinea pig model. There was no evidence of mutagenic potential up to 5000 microg/plate, as determined by the Ames assay. These results demonstrate the inability of NTOE to produce oral, dermal or mutagenic toxicity in animal models at doses greater than 300 times the normal human consumption of lycopene. Consumption analysis of lycopene-containing foods estimated mean daily intake of lycopene at 8.2mg/day.

Expression of the aryl hydrocarbon receptor/transcription factor (AhR) and AhR-regulated CYP1 gene transcripts in a rat model of mammary tumorigenesis

Exposure to ubiquitous environmental chemicals, such as polycyclic aromatic hydrocarbons (PAH), may contribute to human breast cancer. In animals, PAH induce tumors in part by activating the aryl hydrocarbon receptor (AhR)/transcription factor. Historically, investigations into AhR-regulated carcinogenesis have focused on AhR-dependent transcriptional regulation of cytochrome P450 (CYP) enzymes which oxidize PAH to mutagenic intermediates. However, recent studies suggest that the AhR directly regulates cell growth. Given the postulated role of the AhR in carcinogenesis, we predicted that: (1) tissue predisposed to PAH tumorigenesis would express the AhR and (2) aberrant AhR and/or AhR-regulated gene expression would accompany malignant transformation. To test these hypotheses, AhR and CYP1 protein and/or mRNA levels were evaluated in rat mammary tumors induced with 7, 12-dimethylbenz[a]anthracene (DMBA), a prototypic PAH and AhR ligand. Results indicate modest AhR expression in normal mammary myoepithelial and ductal epithelial cells. In contrast, high AhR levels were detected in DMBA-induced tumors. Nuclear AhR localization in tumors suggested constitutive AhR activation. In situ hybridization and quantitative RT-PCR assays indicated high AhR mRNA levels in neoplastic epithelial cells. While both AhR-regulated CYP1A1 and CYP1B1 mRNAs were induced in breast tissue within 6 h of DMBA gavage, only CYP1B1 mRNA remained elevated in tumors. These results: (1) help explain targeting of breast tissue by carcinogenic PAH, (2) imply that AhR and CYP1B1 hyper-expression represent molecular biomarkers for, at least, PAH-induced mammary cell transformation, and (3) suggest mechanisms through which the AhR may contribute to carcinogenesis well after exogenous AhR ligands have been eliminated.

The role of polycyclic aromatic hydrocarbon metabolism in dimethylbenz[a]anthracene-induced pre-B lymphocyte apoptosis

Previous studies indicated that two prototypic PAH, benzo[a]pyrene (B[a]P) and 7,12-dimethylbenz[a]anthracene (DMBA), suppress the developing immune system by inducing apoptosis in bone marrow pre-B lymphocytes. In bone marrow cultures consisting of pre-B cells growing on bone marrow stromal cell monolayers, pre-B cell apoptosis was shown to be dependent on the aryl hydrocarbon receptor/transcription factor (AhR) expressed in stromal cells. However, it was not determined if AhR activation alone is sufficient or if DMBA metabolism is required for induction of a stromal cell-derived apoptosis signal. To address these issues we assessed: 1) the ability of poorly metabolized AhR ligands to induce pre-B cell apoptosis and 2) the capacity for and the mechanism through which an early DMBA metabolite induces pre-B cell apoptosis. Three poorly metabolized AhR ligands, 2,3,7,8-tetrachlorodibenzo-p-dioxin, 3,3',4,4',5-pentachlorobiphenyl, and 3,3',4,4'-tetrachlorobiphenyl failed to induce pre-B cell apoptosis in bone marrow cultures, indicating that AhR activation alone is not sufficient to induce apoptosis and suggesting a role for PAH metabolism in induction of an apoptosis signal. Consistent with this hypothesis, DMBA-3, 4-dihydrodiol, an early DMBA metabolite, induced significant pre-B cell apoptosis. The ability of DMBA-3,4-dihydrodiol to activate the AhR, inhibition of DMBA-3,4-dihydrodiol-induced apoptosis by alpha-naphthoflavone, and the significantly lower levels of DMBA-3, 4-dihydrodiol-induced apoposis in pre-B cell populations maintained on AhR(-) stromal cells strongly support a role for the AhR in DMBA-3,4-dihydrodiol-induced apoptosis. Of two DMBA-metabolizing enzymes evaluated, CYP1A1 and CYP1B1, the latter appeared to be the more likely to play a role in DMBA-induced apoptosis. These data confirm a role for the AhR in PAH-induced pre-B cell apoptosis, indicate a role for DMBA metabolism, and suggest a feedback loop in which at least one product of DMBA metabolism augments AhR signaling, leading to induction of an apoptosis stimulus.

Regulation of preB cell apoptosis by aryl hydrocarbon receptor/transcription factor-expressing stromal/adherent cells

Polycyclic aromatic hydrocarbons (PAH) are environmental chemicals that mediate immunosuppression. In long-term bone marrow B-cell lymphopoiesis models, PAH induce apoptosis in immature (preB) lymphocytes. Since the biologic function of PAH is often mediated by the aryl hydrocarbon receptor/transcription factor (AhR), the role of the AhR or AhR-regulated genes was assessed in preB cell apoptosis. Specifically, a bone marrow-derived preB cell line (BU-11) was cultured on monolayers of the AhR + bone marrow-derived stromal cell line BMS2, hepatoma sublines that express various levels of AhR activity (Hepa-1c1c7 and variants), AhR+ thymic epithelial cells, and primary bone marrow stromal cells from wildtype or AhR-/- mice. Cultures were treated with one of two prototypic PAH, 7,12-dimethylbenz[a] anthracene (DMBA) or benz[a]pyrene (B[a]P), and the percentage of cells undergoing apoptosis measured. The data demonstrated that: 1) bone marrow- and hepatic-derived stromal/adherent cells support preB cell growth and regulate apoptosis induced by DMBA or B[a]P; 2) B[a]P is more effective than DMBA when preB cells are maintained on Hepa-1c1c7 monolayers than when maintained on BMS2 monolayers; 3) DMBA is more effective than B[a]P when preB cells are cultured on BMS2 monolayers; 4) alpha-naphthoflavone, an AhR antagonist and cytochrome P-450 inhibitor, blocks preB cell apoptosis in both BU-11/Hepa-1c1c7 and BU-11/BMS2 cultures; 5) although preB cells grow well in Hepa-1c1c7 or BMS2 supernatants, addition of PAH in the absence of hepatic- or bone marrow-derived adherent cells does not result in preB cell apoptosis; 6) preB cell apoptosis is dependent on AhR activity in adherent hepatic- or bone marrow-derived stromal cells; and 7) apoptosis is induced by DMBA when preB cells are maintained on primary bone marrow stromal cell monolayers from wildtype but not from AhR-/- mice. Collectively, the data indicated that AhR-regulated activities in the hematopoietic microenvironment influence the susceptibility of immature lymphocytes to low-dose PAH exposure.

Characterization of the role played by antigen challenge in the suppression of in vivo humoral immunity by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)

The goal of these studies was to characterize the role played by antigen challenge in 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-induced immunosuppression. The effects of single exposure to TCDD (4.2, 14, and 42 microg/kg) in B6C3F1 mice on the reverse plaque assay (RPA; no sensitization) and the sheep red blood cell (SRBC) antibody response were compared. While the RPA was suppressed in a dose-dependent fashion with significance at the two highest doses, a much more dramatic effect was noted with the primary anti-SRBC response: a suppression was noted at the lowest dose, which was comparable to that observed with the highest dose in the RPA. Subsequent studies compared the RPA in B6C3F1 (Ah-high responder) and DBA/2 (Ah-low responder) mice after both single and repeated exposure to identical cumulative doses of TCDD (4.2, 14, and 42 microg/kg). The repeated exposures consisted of 14 consecutive daily treatments of 0.3, 1.0, and 3.0 microg/kg. The results indicated only a slight difference in the effects of TCDD in the two strains after single exposure, and even less difference after repeated exposure. Moreover, administering TCDD on different days relative to the SRBC challenge indicated a suppression in both strains when given 1, 2, or 3 days before antigen challenge, on the day of antigen challenge, or 1 or 2 days after antigen challenge. The only day of administration where the suppression was attenuated was 3 days after antigen challenge. These results confirm an important relationship between antigen challenge and TCDD exposure on immunosuppression.

Induction of PreB cell apoptosis by 7,12-dimethylbenz[a]anthracene in long-term primary murine bone marrow cultures

Numerous studies demonstrate that polycyclic aromatic hydrocarbons (PAH) suppress immunity by modifying the function of both B and T cells. Relatively few studies have assessed the effects of these common environmental chemicals on immature lymphocytes. In the present study, long-term primary bone marrow cultures were employed to investigate the effects of a prototypic PAH and aryl hydrocarbon receptor (AhR) agonist, 7,12-dimethylbenz[a]anthracene (DMBA), on immature B lymphocytes. In this system, immature preB cells are maintained in a supportive microenvironment provided by bone marrow stromal cells. Results presented here demonstrate that (1) exposure of primary bone marrow cultures to DMBA results in preB cell death by apoptosis; (2) notably low doses of DMBA (> or = 10(-8) M) induce preB cell apoptosis; (3) in long-term cultures, bone marrow stromal cells, but not preB cells, express AhR mRNA and protein as determined by in situ hybridization, RT-PCR, and immunoblotting; (4) freshly isolated unfractionated bone marrow cells, but not purified bone marrow B cells, express AhR protein as assessed by immunohistochemistry; (5) alpha-naphthoflavone, a competitive AhR inhibitor and cytochrome P450 antagonist, completely blocks DMBA-induced preB cell apoptosis in primary bone marrow cultures; and (6) DMBA or benzo[a]pyrene injection in vivo results in bone marrow cell apoptosis consistent with the death of hematopoietic cells clustered around stromal elements. The results implicate programmed cell death as a mechanism underlying DMBA-mediated immunosuppression and suggest that preB cell death is influenced by local interactions with AhR+ bone marrow stromal cells.

Proteasome regulation of activation-induced T cell death

Lactacystin, a microbial metabolite that inhibits protease activity only in the proteasome, was used to study the role of the proteasome in the activation-induced cell death (AICD) of T cells. Lactacystin induces DNA fragmentation and apoptosis in a T cell hybridoma (DO.11. 10) in a dose-dependent manner. Between 1 and 10 microM, the mildly cytotoxic lactacystin inhibited the AICD of DO.11.10 cells cultured in anti-CD3-coated wells. Degradation of IkappaBbeta and the translocation of the NF-kappaB (p50/RelA) into the nucleus, which occurred at 1.5 hr after anti-CD3 activation, were inhibited by lactacystin. Lactacystin did not inhibit the expression of nuclear transcription factor Oct-1. The activation-induced expression of the immediate-early gene, Nur77, and the T cell death genes, CD95 (Fas) and CD95 ligand (FasL), were inhibited. Functional expression of FasL cytotoxicity and the increase of cell surface Fas were also inhibited. Lactacystin must be added within 2 hr of activation to efficiently block AICD. In addition, lactacystin failed to inhibit the killing of DO.11.10 by FasL-expressing allo-specific cytotoxic effector cells. These observations strongly suggest a direct link between the proteasome-dependent degradation of IkappaBbeta and the AICD that occurs through activation of the FasL gene and up-regulation of the Fas gene.

Activation of the aryl hydrocarbon receptor/transcription factor and bone marrow stromal cell-dependent preB cell apoptosis

In the absence of known endogenous ligands, investigators have exploited ubiquitous environmental pollutants, including polycyclic aromatic hydrocarbons, to gain insight into the physiologic functions of the aryl hydrocarbon (dioxin) receptor/transcription factor (AhR). AhR ligands induce cell transformation and steroid-like immunosuppression, suggesting a role for the AhR in regulation of cell growth and/or function. However, mechanisms through which the AhR influences cells in general and lymphocytes in particular remain unresolved. A murine model of B cell development was created to: 1) examine a role for the AhR in immunosuppression; 2) define mechanisms of AhR ligand immunosuppression; 3) characterize AhR expression in preB cells, in bone marrow stromal cells that support preB cells, or in primary bone marrow B cells; and 4) determine if AhR ligands suppress lymphopoiesis by acting directly on preB cells or indirectly via the microenvironment, as represented by bone marrow stromal cells. Results indicate that: 1) low doses (> or = 10(-8) M) of the prototypic AhR ligand, 7,12-dimethylbenz[a]anthracene (DMBA), induce preB cell apoptosis in 12 to 24 h; 2) alpha-naphthoflavone, an AhR and cytochrome P-450 inhibitor, blocks DMBA-induced apoptosis; 3) AhR mRNA and functional AhR protein are expressed at high levels in bone marrow stromal cells (little or no AhR is present in preB cell lines), and 4) preB cells maintained in rIL-7 do not undergo DMBA-induced apoptosis unless cultured with stromal cells. Results underscore the regulatory role played by bone marrow stromal cells in lymphopoiesis and support the hypothesis that the AhR effects immunosuppression by inducing stromal cells to deliver a death signal to lymphocytes.

Activation of the aryl hydrocarbon receptor/transcription factor and bone marrow stromal cell-dependent preB cell apoptosis

In the absence of known endogenous ligands, investigators have exploited ubiquitous environmental pollutants, including polycyclic aromatic hydrocarbons, to gain insight into the physiologic functions of the aryl hydrocarbon (dioxin) receptor/transcription factor (AhR). AhR ligands induce cell transformation and steroid-like immunosuppression, suggesting a role for the AhR in regulation of cell growth and/or function. However, mechanisms through which the AhR influences cells in general and lymphocytes in particular remain unresolved. A murine model of B cell development was created to: 1) examine a role for the AhR in immunosuppression; 2) define mechanisms of AhR ligand immunosuppression; 3) characterize AhR expression in preB cells, in bone marrow stromal cells that support preB cells, or in primary bone marrow B cells; and 4) determine if AhR ligands suppress lymphopoiesis by acting directly on preB cells or indirectly via the microenvironment, as represented by bone marrow stromal cells. Results indicate that: 1) low doses (> or = 10(-8) M) of the prototypic AhR ligand, 7,12-dimethylbenz[a]anthracene (DMBA), induce preB cell apoptosis in 12 to 24 h; 2) alpha-naphthoflavone, an AhR and cytochrome P-450 inhibitor, blocks DMBA-induced apoptosis; 3) AhR mRNA and functional AhR protein are expressed at high levels in bone marrow stromal cells (little or no AhR is present in preB cell lines), and 4) preB cells maintained in rIL-7 do not undergo DMBA-induced apoptosis unless cultured with stromal cells. Results underscore the regulatory role played by bone marrow stromal cells in lymphopoiesis and support the hypothesis that the AhR effects immunosuppression by inducing stromal cells to deliver a death signal to lymphocytes.

Role of corticosterone in the enhancement of the antibody response after acute cocaine administration

A model has been developed in which acute cocaine administration results in an enhanced T-dependent antibody response to sheep erythrocytes. This enhancement occurs when cocaine (30 mg/kg, twice in 1 day) is administered 1 or 2 days before sensitization with antigen, in mice older than 16 wk. Acute cocaine has been shown to elicit a rise in serum corticosterone, and the administration of exogenous corticosterone, under similar conditions as cocaine, also results in a similar immunoenhancement. Further evidence in support of a role by corticosterone is the lack of an enhancement in adrenalectomized mice and the ability of alpha-helical corticotropin releasing factor to block the enhancement by cocaine. The role of concomitant epinephrine release from the adrenal was addressed by adrenal demedullation. Eliminating epinephrine, but not corticosterone release, had no effect on the cocaine-induced immunoenhancement. The evidence presented provides support for a major role by corticosterone in mediating cocaine's effects on at least one measure of immune function, the T-dependent antibody response.

Evaluation of sex- and strain-dependency of cocaine-induced immunosuppression in B6C3F1 and DBA/2 mice

The objective of these studies was to determine if the immunotoxic effects of cocaine in mice are sex- and strain-dependent, a profile of activity previously described for cocaine-induced hepatotoxicity. The latter effect has been attributed to differences in the metabolism of cocaine by the cytochrome P-450 system. Subchronic, (14-day) in vivo administration of cocaine to female B6C3F1 mice showed a significant decrease (80%) in the T-dependent primary antibody response only at 80 mg/kg, although exposure to 60 mg/kg produced only a 20% decrease. In contrast, exposure to 60 mg/kg cocaine in female DBA/2 mice produced a significant decrease of 50%. An even greater effect was observed in male mice where exposure to 40 mg/kg cocaine produced > 50% decreases in both B6C3F1 and DBA/2 mice. Similar results were obtained when male mice were only exposed for 7 days. Confirmation that hepatotoxicity occurred with a similar profile of sex- and strain-dependency was obtained in parallel studies when serum chemistries were measured. The immunosuppressive activity of cocaine in female B6C3F1 mice was markedly increased when mice were pretreated with phenobarbital, a cytochrome P-450 inducer. These results extend our previous studies that indicated that cocaine-induced immunosuppression occurs under conditions that are consistent with a mechanism mediated through metabolism by the cytochrome P-450 pathway.

Alternations in splenocyte and thymocyte subpopulations in B6C3F1 mice exposed to cocaine plus diazinon

Our laboratory has proposed a working model which asserts that cocaine's effects on immunity are mediated by reactive metabolites generated by the cytochrome P-450 system. This metabolic pathway is normally a minor one in humans, but takes on significance when metabolism of cocaine by the P-450 system is increased, as may occur with excessive alcohol consumption (enzyme induction) or after exposure to organophosphate pesticides (esterase inhibition). Results from our laboratory demonstrate that cocaine exerts its most dramatic effects on immunocompetence when administered to mice that have been pretreated with diazinon, an organophosphate esterase inhibitor. Most notably, we observed decreases in both the splenic T-dependent antibody response to sheep erythrocytes and the splenic T-independent antibody response to DNP-ficoll and a dramatic thymic atrophy in mice exposed to cocaine + diazinon, which were not seen in mice exposed to cocaine alone. The primary objective of the present investigation was to determine whether the exposure conditions used to produce the changes noted above are also capable of causing changes in lymphocyte cell types by use of flow cytometric analysis. Administration of cocaine after pretreatment with diazinon only modestly affected splenic lymphocyte subsets, which caused a slight decrease in the number of B cells. No effect was observed in the macrophage, T-helper or T-suppressor subpopulations in the spleen. These results suggest that changes in splenocyte subpopulations induced by cocaine + diazinon cannot account for the suppression of the antibody response. In contrast, all T-cell subsets in the thymus were decreased significantly, with immature double-positive thymocytes suffering the greatest loss in cell number. These results indicate that T cells, especially immature thymocytes located in the thymus, are sensitive to effects associated with the combined treatment of cocaine + diazinon.

2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) elevates basal B-cell intracellular calcium concentration and suppresses surface Ig- but not CD40-induced antibody secretion

Humoral immune responses to either T-independent or T-dependent antigens have previously been shown to be suppressed by the halogenated aromatic hydrocarbon environmental contaminant 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) through direct action on B-lymphocytes. To better understand the molecular nature of the TCDD-induced suppression of B-cell differentiation, we studied the effects of TCDD using in vitro models of T-independent (antibody directed against surface IgM) and T-dependent [activated T-helper (TH) cells bearing CD40 ligand] B-cell maturation. We report here that TCDD suppresses murine B-cell IgM secretion induced by either soluble or insolubilized anti-IgM plus lymphokines but does not affect IgM secretion stimulated by activated T(H)-cells and lymphokines. Because soluble or insolubilized anti-IgM but not fixed, activated TH-cells was found to trigger increases in intracellular ionized calcium in isolated B-cells, the effect of TCDD exposure on B-cell intracellular calcium concentration and mobilization was examined. In comparison to the endoplasmic reticulum calcium ATPase inhibitor thapsigargin, which induces an immediate rise in resting [Ca2+]i of up to four- to fivefold, TCDD treatment did not produce a rapid increase in [Ca2+]i but did result in an elevation of basal levels of nearly the same magnitude 18 hr postexposure. However, anti-IgM-induced calcium transients were similar in the presence or absence of TCDD. TCDD exposure also produced instability of the calcium concentration curve, with the observed elevation of basal intracellular calcium occurring after both in vitro and in vivo treatment paradigms. The immunomodulatory profiles of activity of TCDD and thapsigargin on the B-cell proliferative response to PMA plus ionomycin differ, suggesting that the kinetics of calcium release by these compounds dictates the overall effect on the responding B-cell. Taken together, the data indicate that TCDD elevates resting intracellular calcium levels in murine B-cells and may selectively inhibit calcium-dependent signaling pathways linked to surface Ig.

Immunosuppression induced by acute exposure to cocaine is dependent on metabolism by cytochrome P-450

The primary objective of this paper was to characterize the role of metabolism in immunosuppression by acute exposure to cocaine. beta-Ionone has been used to study the role of metabolism in hepatotoxicity associated with acute exposure to cocaine, and was shown to produce a greater effect than other cytochrome P-450 (P-450) inducers. When beta-ionone (600 mg/kg s.c.) was pretreated 72 and 48 hr before the acute administration of cocaine (30 mg/kg i.p.) in B6C3F1 female mice, the antibody response to sheep red blood cells was significantly suppressed. Exposure to cocaine alone produced little or no suppression. The immunosuppression in cocaine + beta-ionone-treated mice was accompanied by a decrease in thymus weight and an increase in liver weight. Administration of metyrapone (40 mg/kg i.p.) 30 min before cocaine administration (40 mg/kg) blocked completely the suppression of the antibody response by cocaine in beta-ionone-pretreated mice. The reversal by metyrapone was additional evidence that a P-450 pathway was the critical metabolic pathway of cocaine to be immunosuppressive, and the inhibitory effect of metyrapone on cocaine N-demethylase was confirmed in liver microsomes. The inductive effects of beta-ionone were also characterized further. Cocaine N-demethylase activity was significantly induced by beta-ionone. The induction of P-450IIB1/2, the only isozyme shown previously to be associated with the hepatotoxicity by cocaine, was demonstrated by Western immunoblotting to be induced by beta-ionone at doses as low as 300 mg/kg; but was less than the induction associated with phenobarbital. Studies confirmed that acute exposure to cocaine also was immunosuppressive in phenobarbital-pretreated mice. Taken together, our present results suggest that the immunosuppression by acute exposure to cocaine is associated with the increased metabolism of cocaine to toxic metabolites by P-450, probably P-450IIB1/2, as demonstrated previously for its hepatotoxicity.

Role of metabolism in cocaine-induced immunosuppression in splenocyte cultures from B6C3F1 female mice

Cocaine has been reported to directly suppress the in vitro immune responses at very high concentrations. In the present study, the possible role of metabolism in cocaine-induced immunosuppression was investigated in splenocyte cultures isolated from B6C3F1 female mice. Since cocaine can be metabolized by both esterase and P-450 monooxygenase, we studied the direct effects of cocaine, benzoylecgonine and norcocaine on the in vitro T-dependent antibody response to SRBC. Direct exposure to cocaine only produced a modest (30%) but nonsignificant suppression of the antibody response, while benzoylecgonine, a primary product of metabolism by the esterase pathway, was devoid of activity. In contrast, direct exposure to norcocaine, the initial product of N-demethylation by the P-450 pathway, produced significant suppression at concentrations greater than or equal to 10 microM. Similar results were observed in studies measuring LPS and Con A mitogenicity. Furthermore, a significant suppression was observed when splenocytes were preincubated for 1 h with 1 mM cocaine in the presence of liver S-9 fractions isolated from phenobarbital-induced mice. Meanwhile, no suppression was obtained when splenocytes were preincubated in the presence of untreated S-9 fractions. To characterize the mechanism of our results, the capacity of both untreated and phenobarbital-induced microsomes to produce formaldehyde from cocaine was compared. The N-demethylation of cocaine was NADPH-dependent and phenobarbital-induced microsomes produced approx. 6-times higher amounts of formaldehyde, indicating a greater portion of cocaine could be metabolized through the P-450 pathway to its toxic metabolites. Finally, because benzoylecgonine shares with cocaine the presence of a methyl group on the tropane nitrogen, we also compared the ability of N-demethylation from cocaine and benzoylecgonine in mouse liver microsomes. Our results indicated that benzoylecgonine could not be demethylated as determined by a failure to generate any formaldehyde. These results offer further support that the N-demethylation pathway is a critical step to cause its immunotoxicity.

Role of metabolism by esterase and cytochrome P-450 in cocaine-induced suppression of the antibody response

To investigate the role of metabolism in cocaine-induced immunosuppression, diazinon and beta-ionone were administered as an esterase inhibitor and a cytochrome P-450 (P-450) inducer, respectively, to B6C3F1 female mice. When 10 or 30 mg/kg of diazinon was administered 30 min before cocaine (30 mg/kg) was administered i.p. for 7 consecutive days, the suppression of the T-dependent antibody response to sheep red blood cells was potentiated greatly when compared to the suppression by cocaine alone. Spleen and thymus weights were decreased significantly and serum glutamate-pyruvate transaminase activities were elevated dramatically when cocaine and diazinon were administered together. beta-Ionone was administered s.c. for 7 consecutive days and the P-450 activities were determined 3 days after the last administration. beta-Ionone induced cocaine N-demethylation, which is the first step in the activation of cocaine to the metabolites capable of producing hepatotoxicity, as well as P-450IA1- and P-450IIB1-specific monooxygenases. The inductive effects of beta-ionone on P-450IA1/2 and P-450IIB1/2 proteins were confirmed by using Western immunoblotting with selective monoclonal antibodies. In addition, when beta-ionone (600 mg/kg) was administered with cocaine for 7 days, the suppression of the antibody response was potentiated greatly, thymus weight was decreased significantly and serum glutamate-pyruvate transaminase was elevated. Our present results suggest that inhibition of the esterase pathway of cocaine shunts the metabolism of cocaine into an immunotoxic pathway, and that the metabolism of cocaine by P-450 may be the critical pathway for the generation of the metabolites capable of suppressing the antibody response.

Disposition of cocaine and norcocaine in blood and tissues of B6C3F1 mice

The biodisposition of cocaine and norcocaine in blood and tissues of immunological importance in B6C3F1 mice following exposure to cocaine or cocaine plus an organophosphate esterase inhibitor, diazinon, is presented. Analysis of specimens was by gas chromatography-mass spectrometry. Results from these studies indicate that pretreatment with diazinon significantly increases cocaine and norcocaine concentrations in the blood, spleen, thymus, and liver. Following acute exposure to cocaine-diazinon, cocaine was found in the spleen and thymus up to 1 hour after exposure. Norcocaine was not detected at this time. Following 7-day exposure to cocaine-diazinon, both cocaine and norcocaine were found in liver, blood, and spleen up to 1 hour after the last exposure; however, only cocaine was detected in the thymus at 1 hour. Cocaine and norcocaine were not detected in any tissues 24 hours after the last exposure.