Wspaper and rubber stopper in egg water and EROD activity determined (Figure 4B). We previously used zebrafish embryos to demonstrate the ability of PAHs and other metabolically labile AhR agonists both to stimulate this activity and to produce AhR-dependent toxicity in vivo [23,25,33]. Exposure of zebrafish to a 1:5,000-fold dilution of the DMSO newspaper Defactinib extract in egg-water resulted in approximately a two-fold increase in EROD activity compared to the DMSO control, while that of a 1:20,000-fold dilution 25033180 of the rubber stopper DMSO extract resulted in a 6.8-fold increase in EROD activity (Figure 4B). b-Naphthoflavone, a classical AhR agonist (at 1 mg/L in egg water), induced EROD activity 7-fold. At the low extract concentrations above, no adverse morphological effects in the zebrafish were observed. Doxorubicin (hydrochloride) Increasing the concentration of rubber extract to 1:5,000 in egg water resulted in substantial malformations in all fishes, including pericardial edema (see arrow in Figure 4C), yolksac edema, necrosis, cranial edema, and severe craniofacial malformations especially of the lower jaw. The increase in EROD activity in zebrafish exposed to newspaper or rubber stopper extract was the result of an increase in CYP1A, as EROD induction was blocked when zebrafish were injected with an antisense CYP1A morpholino (Figure 4B) previously shown to inhibit increases in CYP1A mRNA, protein and EROD activity [23]. Interestingly, while no adverse developmental effects were observed in the zebrafish exposed to a 1:20,000-fold dilution of rubber stopper extract in their water, when these fish were also injected with the CYP1A antisense morpholino, dramatic adverse developmental effects were observed, comparable to fish exposed to a 1:5,000-fold dilution of the rubber extract (Figure 4C). These effects likely resulted from a decrease in CYP1A-dependent degradation of the chemical(s) in the extract responsible for the adverse effects. Thus, chemicals present in these extracts can induce AhR-dependent gene expression and toxicity in zebrafish in vivo. Exposure to AhR agonists can result in a variety of species- and tissue-specific toxic and biological effects [2,4,5,23,33]. While ourresults indicate that the AhR active chemicals extracted from these materials are evidently biotransformed, they are able to produce TCDD-like toxic and biological effects observed in animals exposed to metabolically stable AhR agonists [2,4,5,23], and chronic exposure could produce other AhR-dependent adverse effects. For example, activation of the AhR can produce endocrine disrupting effects on a variety of hormone receptor systems, from alterations in hormone synthesis and degradation, to reductions in hormone (particularly estrogen) responsiveness [1,20,34]. Since some of these commercial and consumer product extracts contain substantial AhR agonist activity, it is possible that they can also contain chemicals that can produce endocrine disrupting effects in exposed animals. Since these extracts are likely complex mixtures of chemicals, and numerous structurally diverse xenobiotics have been shown to bind to and activate steroid hormone receptor signaling pathways [35?8], it is likely that these extracts also contain steroid hormone receptor agonists. In fact, DMSO and ETOH extracts of the rubber products produce a substantial estrogenic induction response in a recombinant human ovarian carcinoma (BG1) cell line (BG1Luc4E2) containing a stably transfected estrogen receptor respo.Wspaper and rubber stopper in egg water and EROD activity determined (Figure 4B). We previously used zebrafish embryos to demonstrate the ability of PAHs and other metabolically labile AhR agonists both to stimulate this activity and to produce AhR-dependent toxicity in vivo [23,25,33]. Exposure of zebrafish to a 1:5,000-fold dilution of the DMSO newspaper extract in egg-water resulted in approximately a two-fold increase in EROD activity compared to the DMSO control, while that of a 1:20,000-fold dilution 25033180 of the rubber stopper DMSO extract resulted in a 6.8-fold increase in EROD activity (Figure 4B). b-Naphthoflavone, a classical AhR agonist (at 1 mg/L in egg water), induced EROD activity 7-fold. At the low extract concentrations above, no adverse morphological effects in the zebrafish were observed. Increasing the concentration of rubber extract to 1:5,000 in egg water resulted in substantial malformations in all fishes, including pericardial edema (see arrow in Figure 4C), yolksac edema, necrosis, cranial edema, and severe craniofacial malformations especially of the lower jaw. The increase in EROD activity in zebrafish exposed to newspaper or rubber stopper extract was the result of an increase in CYP1A, as EROD induction was blocked when zebrafish were injected with an antisense CYP1A morpholino (Figure 4B) previously shown to inhibit increases in CYP1A mRNA, protein and EROD activity [23]. Interestingly, while no adverse developmental effects were observed in the zebrafish exposed to a 1:20,000-fold dilution of rubber stopper extract in their water, when these fish were also injected with the CYP1A antisense morpholino, dramatic adverse developmental effects were observed, comparable to fish exposed to a 1:5,000-fold dilution of the rubber extract (Figure 4C). These effects likely resulted from a decrease in CYP1A-dependent degradation of the chemical(s) in the extract responsible for the adverse effects. Thus, chemicals present in these extracts can induce AhR-dependent gene expression and toxicity in zebrafish in vivo. Exposure to AhR agonists can result in a variety of species- and tissue-specific toxic and biological effects [2,4,5,23,33]. While ourresults indicate that the AhR active chemicals extracted from these materials are evidently biotransformed, they are able to produce TCDD-like toxic and biological effects observed in animals exposed to metabolically stable AhR agonists [2,4,5,23], and chronic exposure could produce other AhR-dependent adverse effects. For example, activation of the AhR can produce endocrine disrupting effects on a variety of hormone receptor systems, from alterations in hormone synthesis and degradation, to reductions in hormone (particularly estrogen) responsiveness [1,20,34]. Since some of these commercial and consumer product extracts contain substantial AhR agonist activity, it is possible that they can also contain chemicals that can produce endocrine disrupting effects in exposed animals. Since these extracts are likely complex mixtures of chemicals, and numerous structurally diverse xenobiotics have been shown to bind to and activate steroid hormone receptor signaling pathways [35?8], it is likely that these extracts also contain steroid hormone receptor agonists. In fact, DMSO and ETOH extracts of the rubber products produce a substantial estrogenic induction response in a recombinant human ovarian carcinoma (BG1) cell line (BG1Luc4E2) containing a stably transfected estrogen receptor respo.
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