Polycyclic aromatic hydrocarbons regulate the pigmentation pathway and induce DNA damage responses in keratinocytes, a process driven by systemic immunity.

BACKGROUND: Urban pollution is correlated with an increased prevalence of skin pigmentation disorders, however the physiological processes underlying this association are unclear. OBJECTIVES: To delineate the relationship between polycyclic aromatic hydrocarbons (PAHs), a key constituent of atmospheric pollution, and immunity/skin pigmentation pathways. METHODS: We exposed peripheral blood mononuclear cells (PBMC) to PAHs and performed cytokines/chemokine profiling. We then examined the effect of immune activation on pigmentation by co-culturing PBMC and Benzo(a)pyrene (BaP) with reconstructed human pigmented epidermis (RHPE). To study the mechanism, we treated keratinocytes with conditioned medium from BaP-exposed PBMC and studied DNA damage responses, aryl hydrocarbon receptor (AhR) activation and pro-pigmentation factor, proopiomelanocortin (POMC) secretion. RESULTS: PAHs induced up-regulation of inflammatory cytokines/chemokine in PBMC. Co-culturing of RHPE with PBMC+BaP resulted in increased melanin content and localization. BaP-conditioned medium significantly increased DNA damage, p53 stabilization, AhR activation and POMC secretion in keratinocytes. We found that IFNγ induced DNA damage, while TNFα and IL-8 potentiated POMC secretion in keratinocytes. Importantly, BaP-conditioned medium-induced DNA damage and POMC secretion is prevented by antioxidants vitamin E, vitamin C and sulforaphane, as well as the prototypical corticosteroid dexamethasone. Finally, vitamin C and sulforaphane enhanced the genome protective and depigmentation effects of dexamethasone, providing proof-of-concept for a combinatorial approach for the prevention and/or correction of PAH-induced pigment spots formation. CONCLUSION: Our study reveals the importance of systemic immunity in regulating PAH-induced skin pigmentation, and provide a new keratinocyte DNA damage response mechanistic target for the prevention or reversal of pollution-associated skin pigmentation.

In vivo immune activation of splenocytes following exposure to tar from Asian sand dust.

Air pollution, especially that initiated by particulate matter (PM), has been implicated as a risk factor for several inflammatory diseases. Previously, it was reported that PM enhances immune responses. PM includes the tar fraction that contains polycyclic aromatic hydrocarbons (PAHs), which produce adverse health effects in exposed individuals. However, the influence of the tar fraction (as a component of PM) on splenocytes is not fully understood. The aim of this study was to determine the effects of the tar fraction extracted from PM collected from the atmosphere in Fukuoka, Japan, on mouse splenocytes. ICR mice were administered tar (1 or 5 µg/mouse) intratracheally 4 times at 2-week intervals, and splenocytes from the tar-treated mice were extracted and examined. The parameters determined were proliferation, cytokine concentrations and transcription factors activation. Following tar treatment, splenocyte proliferation increased relative to controls. Concanavalin A (ConA)-induced interleukin (IL)-2 formation and ConA- or lipopolysaccharide (LPS)-induced interferon-γ production were elevated in splenocytes from tar-exposed mice. However, the production of tumor necrosis factor-α and IL-6 induced by LPS was not markedly changed following tar treatment. Further, nuclear factor of activated T cells, but not nuclear factor-κB, was enhanced in splenocytes of tar-exposed mice. Data indicate that tar-activated splenocytes and PM-bound PAHs might contribute to T cell activation in the spleen.

Real-time immuno-PCR for ultrasensitive detection of pyrene and other homologous PAHs.

Polycyclic aromatic hydrocarbons (PAHs) are significant environmental pollutant that can lead to cancer and endocrine system disrupting. Here we developed a real-time immuno-PCR (RT-IPCR) assay based on a biotinylated reporter DNA system for ultrasensitive detection of pyrene (PYR) and homologous PAHs in water. The PAHs in sample compete with PYR-OVA coated on PCR plate to bind with monoclonal antibody (McAb). The biotinylated goat anti-mouse IgG (Bio-IgG) can be captured by the McAb bound with PYR-OVA. Then streptavidin is bound with biotin on Bio-IgG. Finally biotinylated reporter DNA is captured by the streptavidin and quantified by real-time PCR using FastStart universal SYBR Green Master (ROX) kit. The linear range of the assay was from 500 fmol L(-1) to 5 nmol L(-)) with a detection limit of 450 fmol L(-1). The average recoveries of PYR and homologous PAHs from lake water, tap water and commercial mineral water were 96.8%, 101.4% and 99.6% respectively, indicating that water samples had little interfere with the assay. The results demonstrated that the developed RT-IPCR might be a potential method for ultrasensitive detection of PYR and homologous PAHs in drinking and environment water sample.

The relevance of monitoring of antibodies against the polycyclic aromatic hydrocarbon (PAH) and PAH-DNA adducts in serum in relation to lung cancer and chronic obstructive pulmonary disease (COPD).

Certain substances from the polycyclic aromatic hydrocarbons (PAHs) group are major inducers of respiratory tract carcinogenesis. The presented are the results of a serological epidemiological study aimed at monitoring the levels of anti-PAH antibodies and antibodies to PAH-DNA adducts in serum. The patients studied belonged both to the group of those with known lung disease (COPD and lung cancer), as well as to the healthy population of people who due to the work conditions or those at the place of residence can expect increased exposure to PAHs. In addition to the results proper that confirm increase of the genotoxic exposure risk to PAH in smoke-polluted places of residence and other PAH polluted environments. There has also been proved the relevance of still commonly used markers (DNA adducts), as well as the suitability of new markers, more favourable from the economic and practical viewpoints (anti-benzo(a)pyrene-7,8-dihydrodiol-9,10-epoxide-DNA [anti-BPDE-DNA], anti-Benzo(a)pyrene antibodies of the IgA class).

Influence of immunization with non-genotoxic PAH-KLH conjugates on the resistance of organisms exposed to benzo(a)pyrene.

Polycyclic aromatic hydrocarbons (PAH) are recognized as common environmental pollutants released into the environment from many natural as well as man-made sources, and some have been classified as potent carcinogens. The main representative of the carcinogenic PAH is benzo(a)pyrene (B(a)P) which is known to induce genotoxic effects in vitro and in vivo, detected as PAH-DNA adducts. Long-term PAH exposure may be accompanied by an immunological response with the formation of antibodies against PAH as well as against PAH-DNA adducts. This paper describes the use of four PAH-keyhole-limpet haemocyanin (KLH) conjugates for the induction of specific and cross-reactive anti-PAH antibodies and focuses on the potential protective effects of anti-PAH antibodies produced after immunization of mice. In the in vitro experiments with HepG-2 cells, the genotoxicity of the PAH-KLH conjugates and the neutralizing effect of induced anti-PAH antibodies were evaluated. The titer of specific anti-PAH antibodies in sera and the amounts of DNA adducts in liver homogenates from immunized mice were investigated in vivo. The results show that anti-PAH antibodies of class IgG were induced during immunization. All the PAH-KLH conjugates tested were non-genotoxic and did not induce detectable DNA adducts in HepG2 cells or in the liver of immunized mice. The results show that only B(a)P-specific and B(a)P cross-reactive antibodies are able to neutralize B(a)P or its activated metabolites, which was revealed by a sudden decrease in the titer of anti-B(a)P antibodies in mouse sera after exposure to B(a)P. Furthermore, the anti-B(a)P antibodies produced by immunization were effective in reducing the amount of DNA adducts in mouse livers after intraperitoneal (i.p.) exposure to B(a)P. The results suggest that immunization with PAH-KLH conjugates can protect organisms against the adverse effects of carcinogenic PAH.

Enhanced immunological and detoxification responses in Pacific oysters, Crassostrea gigas, exposed to chemically dispersed oil.

The aim of this study was to evaluate the effects of chemically dispersed oil on an economically and ecologically important species inhabiting coasts and estuaries, the Pacific oyster Crassostrea gigas. Studies were carried out with juveniles, known to generally be more sensitive to environmental stress than adults. A set of enzyme activities involved in immune defence mechanisms and detoxification processes, i.e. superoxide dismutase (SOD), catalase, glutathione peroxidase (GPx), catecholase-type phenoloxidase (PO), laccase-type PO and lysozyme were analysed in different oyster tissues, i.e. the gills, digestive gland and mantle, and in the plasma and the haemoycte lysate supernatant (HLS) of the haemolymph. Results indicated that total PAH body burdens were 2.7 times higher in the presence than in the absence of the chemical dispersant. After 2 days of exposure to chemically dispersed oil, alkylated naphthalenes accounted for 55% of the total PAH body burden, whereas alkylated fluorenes and alkylated dibenzothiophenes accounted for 80% when the chemical dispersant was absent. Importantly, a higher number of enzyme activities were modified when oil was chemically dispersed, especially in the plasma and gills. Moreover, independently of the presence or absence of chemical dispersant, oil exposure generally inhibited enzyme activities in the gills and plasma, while they were generally activated in the mantle and haemocytes. These results suggest that the gills and plasma constitute sensitive compartments in C. gigas, and that the mantle and haemocytes may play an important role in protection against xenobiotics. Among the six enzyme activities that were analysed in these body compartments, five were modulated in the chemical dispersion (CD) treatment while only half of the enzyme activities were modulated in the mechanical dispersion treatment. Furthermore, CD treatment effects were often observed following exposure, but also during depuration periods. These results suggest that immune and/or detoxification responses are likely to be affected when dispersants are used to treat oil spills in shallow waters.

Disruption of human plasma cell differentiation by an environmental polycyclic aromatic hydrocarbon: a mechanistic immunotoxicological study.

BACKGROUND: The AhR is a ligand-activated transcription factor that mediates immunosuppression induced by environmental PAH and HAH. Recently, a critical role for the AhR in development of T cells involved in autoimmunity (Th17 and Treg) has been demonstrated, supporting the hypothesis that the AhR plays a key role in immune regulation both in the presence and absence of environmental ligands. Despite these results with T cells systems, little is known of the role that the AhR plays in B cell development. We have demonstrated that B cell activation with CD40 ligand, a stimulus that models adaptive immunity, induces AhR expression in primary human B cells, suggesting that activation may increase human B cell sensitivity to AhR ligands and that the AhR may play a role in B cell development. METHODS: To test these possibilities, we developed an in vitro system in which activated human B cells expressing high AhR levels are induced to differentiate into plasma cells. Consequently, the effects of benzo [a]pyrene, a prototypic environmental AhR ligand, on plasma cell differentiation could be investigated and this chemical could be exploited essentially as drug probe to implicate the role of the AhR in plasma cell development. RESULTS: A previously unattainable level of B cell differentiation into plasma cells (up to 45% conversion) was observed. Benzo [a]pyrene significantly suppressed that differentiation. gamma-Irradiation after an initial proliferation phase induced by CD40 ligand and immediately prior to initiation of the differentiation phase blocked cell growth but did not affect cell viability or plasma cell differentiation. B [a]P suppressed differentiation whether or not cell growth was inhibited by gamma-irradiation. CONCLUSIONS: 1) Extensive proliferation is not required during the differentiation phase per se for CD40L-activated human B cells to undergo plasma cell differentiation, and 2) an environmental PAH blocks both proliferation and differentiation of AhR expressing B cells. The results uncover a new mechanism by which environmentally ubiquitous PAHs may negatively impact human B cell-mediated immunity.

Circulating antibodies directed against "polycyclic aromatic hydrocarbon-like" structures in the sera of cancer patients.

BACKGROUND: An increase in immunoglobulin (Ig) A isotype directed against benzo(a)pyrene (BP) structure has previously been described in sera of cancer patients. In this study, new polycyclic aromatic hydrocarbon (PAH) conjugates were synthesized in order to more closely mimic the endogenous ligands of the cytosolic aryl hydrocarbon receptor (AhR). PAH [benzo(a)pyrene; 1,2-benzanthracene; dibenz[a,c]anthracene; 7,12-dimethylbenza[a]anthracene; benzo(ghi)perylene] were bound to protein carriers such as bovine serum albumin (BSA) via N-acetyl-cysteine (NAC). METHODS: The levels of circulating antibodies (Abs) directed against PAH-NAC conjugates in the sera of cancer patients were evaluated using an Enzyme-Linked Immunosorbent Assay (ELISA) with these new conjugates. The avidity (IC(50)) and specificity of these circulating Abs were assessed via competition experiments. RESULTS: An increase in Ig directed against these PAH-NAC conjugates was found in the sera of cancer patients, irrespective of the state and stage of the tumors. These Ig were principally of the A isotype. Sera from cancer patients had significantly higher optical density (OD) ranges than the controls, p<0.0001. The ELISA test for breast cancer (n=155) and ovarian cancer (n=62) identified 82% and 92% of positive patients, respectively. The percentage positive in the control group (n=60) was around 5%. Moreover, competition experiments with the different PAH-NAC conjugates and NAC-BSA revealed an estimated avidity of 10(-6)M for the circulating IgA antibodies. CONCLUSIONS: The Abs discriminated between the different PAH-NAC conjugates and NAC-BSA. Therefore, these Abs recognize a carcinogenic PAH-NAC structure and not only a BP structure. These markers may be useful in the future for monitoring cancer evolution and recurrence.

Acquired and innate immunity to polyaromatic hydrocarbons.

Polyaromatic hydrocarbons are ubiquitous environmental pollutants that are potent mutagens and carcinogens. Researchers have taken advantage of these properties to investigate the mechanisms by which chemicals cause cancer of the skin and other organs. When applied to the skin of mice, several carcinogenic polyaromatic hydrocarbons have also been shown to interact with the immune system, stimulating immune responses and resulting in the development of antigen-specific T-cell-mediated immunity. Development of cell-mediated immunity is strain-specific and is governed by Ah receptor genes and by genes located within the major histocompatibility complex. CD8+ T cells are effector cells in the response, whereas CD4+ T cells down-regulate immunity. Development of an immune response appears to have a protective effect since strains of mice that develop a cell-mediated immune response to carcinogenic polyaromatic hydrocarbons are less likely to develop tumors when subjected to a polyaromatic hydrocarbon skin carcinogenesis protocol than mice that fail to develop an immune response. With respect to innate immunity, TLR4-deficient C3H/HeJ mice are more susceptible to polyaromatic hydrogen skin tumorigenesis than C3H/HeN mice in which TLR4 is normal. These findings support the hypothesis that immune responses, through their interactions with chemical carcinogens, play an active role in the prevention of chemical skin carcinogenesis during the earliest stages. Efforts to augment immune responses to the chemicals that cause tumors may be a productive approach to the prevention of tumors caused by these agents.

Immunological images of polycyclic aromatic hydrocarbons.

AIM: To develop experimental model for definition of immunological images of chemical carcinogens. MATERIALS AND METHODS: The conjugates of benzo[a]pyrene, benz[a]anthracene, anthracene, chrysene and pyrene with bovine serum albumin and yeast hexokinase were synthesized. Rabbits were immunized by bovine serum albumin-hapten conjugates. Antibodies to each hapten were isolated from the serum by affinity chromatography with the hapten-yeast hexokinase-Sepharose sorbents. The binding of each hapten with each antibody was determined by competitive immunoassay. RESULTS: The immunological images of all the investigated chemical compounds were described. CONCLUSION: The model is proposed to determine the internal immunological images of anti-idiotypic monoclonal antibodies to chemical carcinogens.

Immunization with soot from a non-combustion process provokes formation of antibodies against polycyclic aromatic hydrocarbons.

The emission of soot during combustion processes used in transportation, manufacturing, and power generation is of increasing concern because of its serious adverse health effects. In particular, the ability to modulate the immune system has recently been established. In the present investigation, an artificial soot sample that was prepared by fragmentation of acetylene in a laser-induced plasma was used as an antigen for the immunization of a rabbit. A highly sensitive competition curve in an indirect competitive ELISA using a benzo[a]pyrene-BSA conjugate as a coating antigen could be constructed for benzo[a]pyrene with an IC50 of 2.94 mug/l (11.65 nmol/l). In contrast to the high affinity, the soot antiserum dilution (antibody titer) of 1:750 was rather low. The cross-reactivity was tested with 16 parent polycyclic aromatic hydrocarbons, 7 nitrated polycyclic aromatics, and 3 methylated, hydroxylated or butyric acid derivatives. The results obtained suggest that the vertebrate immune system can respond to an immunization with soot by the generation of high affinity IgG class antibodies against polycyclic aromatics. It is likely that antibodies are raised against the molecular structures which form the framework of the soot particles and not against adsorbed and extractable polyaromatic compounds. The experiments suggest that if soot is considered a T-independent antigen, the isotype switch, essentially from IgM to IgG, could have been caused by co-inoculation with a T-dependent antigen, i.e., mycobacteria contained in Freunds complete adjuvant. However, at the cellular level the mechanism remains to be uncovered.

Adjuvant activity of ambient particulate matter in macrophage activity-suppressed, N-acetylcysteine-treated, iNOS- and IL-4-deficient mice.

In previous studies, we have shown strong adjuvant activity for Ottawa dust (EHC-93) after coexposure of the BALB/c mouse to EHC-93 and ovalbumin. Mice were intranasally sensitized at days 0 and 14 with 200 microg ovalbumin and 150 microg EHC-93, and challenged with ovalbumin at days 35, 38, and 41 with 200 microg ovalbumin. Mice were autopsied at day 42. This adjuvant activity was shown for the antibody response to ovalbumin (immunoglobulins E, G1, and G2a), histopathological lesions in the lung, cytokines, and the numbers of eosinophils in lung lavages. To study the mechanisms of this adjuvant activity, mice (BALB/cC.D2-Vil6) with natural-resistance-associated macrophage protein (Nramp1s), BALB/c mice pretreated with the antioxidant N-acetylcysteine (NAC), mice (B6.129P2-Nos2tmLau) deficient in inducible nitric oxide synthase (iNOS), and mice with interleukin-4 (IL-4) deficiency (BALB/cIl4< tm2Nnt) were coexposed to ovalbumin and EHC-93. Our studies have shown that the adjuvant activity induced after such coexposure does not change if the macrophage activation of the mice is disturbed or if the mice have been pretreated with N-acetylcysteine. In addition, the adjuvant activity does not develop through the pathway in which inducible nitric oxide synthase is involved. Because the histopathological lesions are statistically significant less in the IL-4 knockout strain in comparison with the wild type, we conclude that interleukin-4 might play an important role in the adjuvant activity caused by EHC-93.

Antisera to polycyclic aromatic hydrocarbons and their application on the detection of chemical carcinogens in blood sera of oncological patients.

AIM: To investigate the cross-reactivity of the hyperimmune antisera of animals (rabbits) and the sera of oncological patients to polycyclic aromatic hydrocarbons (PAHs) of a similar chemical structure. METHODS: Reactions of antibodies with haptens have been estimated by non-competitive and competitive ELISA with synthesized protein conjugates of PAHs as a coating antigene. RESULTS: All the model rabbit antisera have been stated to react with anthracene, chrysene, pyrene, benzo(a)pyrene and benz(a)anthracene irrespective of the hapten used to immunize animals. The cross-reactivity of serum antibodies to all five PAHs has been found in blood samples of oncological patients. CONCLUSION: It is recommended to use the conjugates of anthracene, chrysene and pyrene for detecting human antibodies to more dangerous environmental carcinogens--benzo(a)pyrene and benz(a)anthracene.

Host defense mechanisms in polyaromatic hydrocarbon carcinogenesis.

Polyaromatic hydrocarbons (PAHs) are chemicals that are widely employed to examine the complex mechanisms by which chemicals cause cancer. While it is clear that the tumors that carcinogenic PAHs produce elicit an immune response, the interplay between host immune defense mechanisms and earlier stages in the cutaneous carcinogenesis pathway has received little attention. Studies from our laboratories have shown that topical application of several different PAHs to mice results in the development of an antigen-specific cell-mediated immune response to them. The response is genetically determined and is mediated by CD8+ T cells. Development of a cell-mediated immune response is associated with resistance to dimethylbenz(a)anthracene tumorigenesis. These findings are consistent with the hypothesis that host defense mechanisms against PAHs help to protect individuals from the carcinogenic actions of these agents. This may form the basis for novel immunopreventive strategies for individuals at high risk for development of tumors produced by PAHs.

[New approaches in evaluating the antitumor immune response in breast cancer]. / Novye podkhody k otsenke protivoopukholevoi immunoreaktivnosti pri rake molochnoi zhelezy.

Different classes of antibodies to polycyclic aromatic hydrocarbons (PAH) and immunogenicity of carcinoembryonic antigen (CEA) were investigated in breast cancer patients versus course. Prior to treatment, the levels of IgM, IgG and IgA antibodies to PAHs were 5.9, 7.7 and 32.5%, respectively. In cases of tumor regression, they were 13.8, 25.0 and 19.2%, while in those of progression-2.4, 2.8 and 12.8%, respectively. The immunogenicity of CEA, i.e. the power of forming circulating immune complexes, appeared to be higher in cases of tumor regression than in those of progression. CEA concentration in immune complexes exceeding 5ng/ml was observed in 24.0 and 15.1% of cases, respectively, while in whole serum, the concentration in excess of 10 ng/ml was in 8.0 and 42.4%, respectively.