Thomas G. Osimitz

Lack of androgenicity and estrogenicity of the three monomers used in Eastman's Tritan™ copolyesters.

Eastman Tritan™ copolyester, a novel plastic from Eastman is manufactured utilizing three monomers, di-methylterephthalate (DMT), 1,4-cyclohexanedimethanol (CHDM), and 2,2,4,4-tetramethyl-1,3-cyclobutanediol (TMCD) in various ratios. As with most any polymer, the monomers along with the high molecular weight oligomers, whose toxicity is most commonly represented by the monomers, make up the predominate amount of free chemicals available for leaching into the environment and/or foods. In light of the high level of public concern about the presence of endocrine (primarily estrogenic) activity ascribed to certain plastics and chemicals in the environment, Tritans™ monomers were evaluated using QSAR for binding to the androgen receptor and estrogen receptors (alpha and beta) as well as a battery of in vitro and in vivo techniques to determine their potential androgenicity or estrogenicity. The findings were universally negative. When these data are coupled with other in vivo data developed to assess systemic toxicity and developmental and reproductive toxicity, the data clearly indicate that these monomers do not pose an androgenic or estrogenic risk to humans. Additional data presented also support such a conclusion for terephthalic acid (TPA). TPA is also a common polyester monomer and is the main mammalian metabolite formed from DMT.

Human exposure to insecticide products containing pyrethrins and piperonyl butoxide (2001-2003).

Pyrethrum, used as an insecticide for centuries, is derived from dried and ground flowers of Chrysanthemum cinerariaefolium. Its current major use is in insecticide products to the control insects in the home and food handling establishments. We investigated human incidents reported through the American Association of Poison Control Centers (AAPCC) Toxic Exposure Surveillance System (TESS) associated with regulated insecticides containing pyrethrins and piperonyl butoxide (PY/PBO) from 2001 to 2003. Special attention was paid to dermal and respiratory effects. Although there are limitations associated with TESS data, we observed that In view of their widespread use, the data indicates that PY/PBO products can be used with a relatively low risk of adverse effects. Moreover, the data suggest that they are not likely to cause reactions in people with asthma or allergies.

Mode of action analysis for pesticide-induced rodent liver tumours involving activation of the constitutive androstane receptor: relevance to human cancer risk

A number of non-genotoxic chemicals, including some pesticides, have been shown to increase the incidence of liver tumours in rats and/or mice. Frameworks for analysing the modes of action (MOAs) by which chemicals produce liver tumours in rodents and the relevance of such tumour data for human risk assessment have now been established. One common MOA for rodent liver tumour formation by non-genotoxic chemicals involves activation of the constitutive androstane receptor (CAR). Key and associative events for a CAR-activation MOA include receptor activation, liver hypertrophy, induction of cytochrome P450 enzyme activities, increased replicative DNA synthesis, altered hepatic foci and liver tumours. While some effects of rodent CAR activators can be observed in human liver, a major species difference is that, unlike rodents, CAR activators do not increase replicative DNA synthesis in human hepatocytes. The CAR-activation MOA for rodent liver tumour formation is thus not plausible for humans, and hence such compounds do not pose a hepatocarcinogenic hazard for humans.

Evaluation of the utility of the lifetime mouse bioassay in the identification of cancer hazards for humans

Limited testing resources, the need to limit animal use, and the demand for better knowledge about carcinogenic hazards require that the carcinogenicity testing paradigm based on lifetime cancer bioassays in rats and mice should be as efficient and reliable as possible. We have therefore reevaluated the rodent bioassay, particularly for nongenotoxic chemicals and conducted a rigorous examination of the 710 substances listed in the Carcinogenic Potency Database (CPDB) that were tested in both mice and rats. The CPDB is a web-based database that provides access to the literature and the results of 6540 bioassays on 1547 chemicals that have been published in the general literature through 2001 and by the National Cancer Institute/National Toxicology Program through 2004. Only three chemicals (o-benzyl-p-chlorophenol, Elmiron®, p-tolylurea) were identified as unequivocally non-genotoxic, mouse non-liver carcinogens. A careful analysis showed that their carcinogenicity in mice is irrelevant for assessment of human cancer hazards. This is consistent with data showing, with a few well-known exceptions, that non-genotoxic carcinogens in rodents are considered to be non-carcinogenic to humans. As a result, we propose that the inclusion of the mouse bioassay in the standard assessment scheme for non-genotoxic chemicals is no longer necessary.

Determination of Human Hepatic CYP2C8 and CYP1A2 Age-Dependent Expression to Support Human Health Risk Assessment for Early Ages

Predicting age-specific metabolism is important for evaluating age-related drug and chemical sensitivity. Multiple cytochrome P450s and carboxylesterase enzymes are responsible for human pyrethroid metabolism. Complete ontogeny data for each enzyme are needed to support in vitro to in vivo extrapolation (IVIVE). This study was designed to determine age-dependent human hepatic CYP2C8 expression, for which only limited ontogeny data are available, and to further define CYP1A2 ontogeny. CYP2C8 and 1A2 protein levels were measured by quantitative Western blotting using liver microsomal samples prepared from 222 subjects with ages ranging from 8 weeks gestation to 18 years after birth. The median CYP2C8 expression was significantly greater among samples from subjects older than 35 postnatal days (n = 122) compared with fetal samples and those from very young infants (fetal to 35 days postnatal, n = 100) (0.00 vs. 13.38 pmol/mg microsomal protein; p < 0.0001). In contrast, the median CYP1A2 expression was significantly greater after 15 months postnatal age (n = 55) than in fetal and younger postnatal samples (fetal to 15 months postnatal, n = 167) (0.0167 vs. 2.354 pmol/mg microsomal protein; p < 0.0001). CYP2C8, but not CYP1A2, protein levels significantly correlated with those of CYP2C9, CYP2C19, and CYP3A4 (p < 0.001), consistent with CYP2C8 and CYP1A2 ontogeny probably being controlled by different mechanisms. This study provides key data for the physiologically based pharmacokinetic model–based prediction of age-dependent pyrethroid metabolism, which will be used for IVIVE to support pyrethroid risk assessment for early life stages.

Subchronic toxicology of tetrabromobisphenol A in rats.

Tetrabromobisphenol A (TBBPA) is used to protect a wide range of electrical and electronic equipment, consumer electronics and office and communication equipment from catching fire. TBBPA reacts covalently with other monomers becoming an integral part of the cross-linked molecular structure. This study was conducted to evaluate the subchronic toxicity of TBBPA administered by gavage daily for 13 weeks at 0, 100, 300, and 1000 mg/kg/day in male and female CD® rats. A 6-week post-treatment control and 1000 mg/kg/day recovery groups were included. TBBPA exerted no marked effect on the rate of mortality, clinical signs, body or organ weights, feed consumption, histopathology, urinalysis, ophthalmology, and neurological outcomes in a functional observation battery, motor activity, serum thyroid stimulating hormone, serum triiodothyronine, or other serum chemistries. Although differences were observed for bilirubin and alkaline phosphatase, the observed alterations were within the normal range and thus were neither biologically or toxicologically meaningful. The single thyroid-related parameter affected by TBBPA was a reduction in serum thyroxine levels, but the decrease was not of sufficient magnitude to induce other more sensitive indicators of thyroid perturbation. The No Observed Adverse Effect Level was at least 1000 mg/kg/day, the highest dose tested. Based on an upper bound aggregate exposure for adults estimated by the European Union, the margin of exposure is approximately 5000, suggesting that, for the endpoints examined in this study, exposure to TBBPA presents a reasonable certainty of no harm.

Human Risk Assessment for Nonylphenol

ABSTRACT This article presents a risk assessment for human exposure to nonylphenol (NP). We critically reviewed and assessed all relevant full-text publications based on a variety of data quality attributes. Two categories of data, environmental monitoring and biomonitoring from exposed individuals, were used to estimate human exposure to NP. Environmental monitoring data included the measurement of NP in food, water, air, and dust. From these data and estimates of human intake rates for the sources, exposures were estimated from each source and source-specific Margins of Exposure (MOEs) calculated. However, the nature of the populations studied prevented the calculation of aggregate exposure calculations from these data. Rather, the most reliable estimates of aggregate exposure to NP were those derived from biomonitoring studies in exposed individuals. Using the daily absorbed dose estimates for NP, MOEs were calculated for these populations. The MOEs were based on the use of a No-Observed-Adverse-Effect-Level (NOAEL) for sensitive toxicological endpoints of interest, that is, systemic and reproductive toxicity from continuous-feeding more than 3.5 generations (13 mg/kg/day). The MOEs were all greater than 1000 (ranging from 2863 to 8.4 × 107), clearly indicating reasonable certainty of no harm for source-specific and aggregate (based on biomonitoring) exposures to NP.

An Evaluation of the Human Relevance of the Lung Tumors Observed in Female Mice Treated With Permethrin Based on Mode of Action

Permethrin increased the incidence of bronchiolo-alveolar adenomas in female mice but not male mice or female or male rats. Studies were conducted to determine whether permethrin has mitogenic activity in Club cells in mouse lung as the basis for the mode of action (MOA) for the lung adenoma induction. Several short-term experiments focusing on time-course, dose-response, reversibility, sex difference, strain difference, and species difference were evaluated for Club cell proliferation and morphology. The findings demonstrated that permethrin slightly and continuously enhanced Club cell proliferation at tumor-associated dose levels in female mice, but did not increase proliferation in male mice or in female rats. Electron microscopic examination demonstrated that permethrin produced morphological alterations in Club cells prior to increasing the Club cell proliferation. There was no evidence of increased cell death. These alterations in Club cells were also observed with a close structural analog cypermethrin. Taken together, the present studies provide evidence that the MOA for induction of mouse lung adenomas by permethrin involves slight morphological effects on Club cells, sustained Club cell proliferation, and eventually hyperplasia and bronchiolo-alveolar adenoma in susceptible mice. The potential human carcinogenic hazard of permethrin based on the tumorigenic MOA for lung tumors in mice was evaluated using the International Programme on Chemical Safety Human Relevance Framework. As humans are quantitatively much less sensitive to agents that increase Club cell proliferation and tumor formation in mice, it is not likely permethrin will lead to an increase in susceptibility to lung tumor development in humans. Epidemiological data for permethrin strongly supports this conclusion.

Polyester monomers lack ability to bind and activate both androgenic and estrogenic receptors as determined by in vitro and in silico methods.

The paper presents results from the screening of seven monomers used by Eastman Chemical to make various polymers. Ethylene glycol, diethylene glycol, polytetramethylene glycol, isophthalic acid, monosodium-5-sulfoisophthalic acid, 1,4-cyclohexanedicarboxylic acid, and dimethylcyclohexanedicarboxylate were screened for potential androgenicity or estrogenicity. The following studies were conducted: QSAR for binding to the AR and ER, in vitro Androgen Receptor Binding Assay, in vitro Estrogen Receptor Binding Assays (alpha and beta isoforms), in vitro Androgen Receptor Transactivation Assay in human cells, and in vitro Estrogen Receptor Transactivation Assay in human cells. None of the QSAR models predicted that any of the monomers possessed appreciable binding affinity for either AR or ER. Binding assays showed no evidence of interaction with either the AR or the alpha or beta ER receptors. Similarly, the AR and ER transactivation assays were negative. Moreover, six of the seven monomers have been subjected to 13-week and developmental toxicity studies in rats with no androgen- or estrogen-related effects being noted. Given the negative results of the in vitro screening assays (except PMG which demonstrated cytotoxicity) as well as available repeated dose and developmental and reproductive studies, the data suggest that none of the monomers tested exhibit androgenic or estrogenic hazards.

Metabolism of deltamethrin and cis- and trans-permethrin by rat and human liver microsomes, liver cytosol and plasma preparations

Abstract The metabolism of deltamethrin (DLM), cis-permethrin (CPM) and trans-permethrin (TPM) was studied in liver microsomes, liver cytosol and plasma from male Sprague–Dawley rats aged 15, 21 and 90 days and from adult humans. DLM and CPM were metabolised by rat hepatic microsomal cytochrome P450 (CYP) enzymes and to a lesser extent by microsomal and cytosolic carboxylesterase (CES) enzymes, whereas TPM was metabolised to a greater extent by CES enzymes. In human liver, DLM and TPM were mainly metabolised by CES enzymes, whereas CPM was metabolised by CYP and CES enzymes. The metabolism of pyrethroids by cytosolic CES enzymes contributes to the overall hepatic clearance of these compounds. DLM, CPM and TPM were metabolised by rat, but not human, plasma CES enzymes. This study demonstrates that the ability of male rats to metabolise DLM, CPM and TPM by hepatic CYP and CES enzymes and plasma CES enzymes increases with age. In all instances, apparent intrinsic clearance values were lower in 15 than in 90 day old rats. As pyrethroid-induced neurotoxicity is due to the parent compound, these results suggest that DLM, CPM and TPM may be more neurotoxic to juvenile than to adult rats.