Perinatal Exposure to Low Doses of Bisphenol A Affects Body Weight, Patterns of Estrous Cyclicity, and Plasma LH Levels.The nonsteroidal non·ste·roi·dal or non·ster·oid adj. Not being or containing a steroid. n. A drug or other substance not containing a steroid. estrogenic compound bisphenol A Bisphenol A is a chemical compound containing two phenol functional groups. It belongs to the phenol class of aromatic organic compounds. It is widely prepared and sold and various important polymers/plastics are made from it. (BPA BPA British Paediatric Association. ) is a monomer monomer (mŏn`əmər): see polymer. monomer Molecule of any of a class of mostly organic compounds that can react with other molecules of the same or other compounds to form very large molecules (polymers). used in the manufacture of polycarbonate A category of plastic materials used to make a myriad of products, including CDs and CD-ROMs. plastics and resins. BPA may be ingested in·gest tr.v. in·gest·ed, in·gest·ing, in·gests 1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat. 2. by humans as it reportedly leaches from the lining of tin cans into foods, from dental sealants into saliva, and from polycarbonate bottles into their contents. Because BPA is weakly estrogenic--approximately 10,000-fold less potent than 17[Beta]-estradiol--current environmental exposure levels have been considered orders of magnitude below the dose required for adverse effects on health. Herein we demonstrate measurable effects on the offspring of Sprague-Dawley female rats that were exposed, via their drinking water drinking water supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. , to approximately 0.1 mg BPA/kg body weight (bw)/day (low dose) or 1.2 mg BPA/kg bw/day (high dose) from day 6 of pregnancy through the period of lactation lactation Production of milk by female mammals after giving birth. The milk is discharged by the mammary glands in the breasts. Hormones triggered by delivery of the placenta and by nursing stimulate milk production. . Offspring exposed to BPA exhibited an increase in body weight that was apparent soon after birth and continued into adulthood. In addition, female offspring exposed perinatally to the high dose of BPA exhibited altered patterns of estrous es·trous adj. Relating to or being in estrus. estrous pertaining to or emanating from estrus. estrous cycle cyclicity and decreased levels of plasma luteinizing hormone lu·te·in·iz·ing hormone n. Abbr. LH A hormone produced by the anterior lobe of the pituitary gland that stimulates ovulation and the development of the corpus luteum in the female and the production of testosterone by the interstitial (LH) in adulthood. Administration of neither the doses of BPA that caused effects during perinatal exposure nor a 10-fold higher dose was able to evoke a uterotropic response in ovariectomized postpubertal females. These data indicate an increased sensitivity to BPA during the perinatal period and suggest the need for careful evaluation of the current levels of exposure to this compound. Key words: Bisphenol A, body weight, BPA, development, endocrine disruptors, environmental estrogens Estrogens Hormones produced by the ovaries, the female sex glands. Mentioned in: Acne, Polycystic Ovary Syndrome estrogens (es´trōjenz), n. , estrous cycles, reproductive function, xenoestrogen. Environ Health Perspect 109:675-680 (2001). [Online 22 June 2001] http://ehpnet1.niehs.nih.gov/docs/2001/109p675-680rubin/abstract.html Estrogens exert a powerful influence during development that can permanently affect neuroendocrine neuroendocrine /neu·ro·en·do·crine/ (-en´do-krin) pertaining to neural and endocrine influence, and particularly to the interaction between the nervous and endocrine systems. neu·ro·en·do·crine adj. function as well as the development and endocrine control of reproductive tract tissues and the mammary glands. The revelation that some environmental chemicals can mimic the effects of estrogens raises concerns for human health, particularly when exposure occurs at stages of tissue organization and development such as during gestation or during the neonatal period of life (1). One such chemical is bisphenol A (BPA), a monomer used in the manufacture of polycarbonate plastics and resins. Low levels of BPA may be ingested routinely by humans as the compound leaches from the lining of tin cans into foods (2), from dental sealants into saliva (3), and from polycarbonate bottles into their contents (4). BPA is approximately 10,000-fold less potent than 17[Beta]-estradiol when tested for proliferative activity and indigenous gene expression in estrogen-responsive cultured cell lines (3,5), in reporter gene assays (6,7), and in receptor binding assays (8). Because of its low potency relative to estradiol, current environmental exposure levels to BPA have been considered orders of magnitude below the dose required for adverse effects on health (9). Studies in rodent models have yielded conflicting results regarding the effects of exposure to BPA that are influenced by the species and by the specific strains examined as well as by the dose, the route of administration, and the time of exposure (10-16). For example, Fischer 344 rats appear to be particularly sensitive to BPA. Ovariectomized animals exhibited approximately a 2-fold increase in uterine uterine /uter·ine/ (u´ter-in) pertaining to the uterus. u·ter·ine adj. Of, relating to, or in the region of the uterus. wet weight following 3 days of exposure to 0.3 mg BPA/kg body weight (bw) delivered by a subcutaneous implant (10). In contrast, identical treatment had no effect on uterine wet weight in Sprague-Dawley females (10). Prepubertal prepubertal /pre·pu·ber·tal/ (-pu´ber-tal) before puberty; pertaining to the period of accelerated growth preceding gonadal maturity. Long Evans rats showed a significant increase in uterine wet weight in response to 200 mg BPA/kg bw/day for 3 days; however, administration of 100 mg BPA/kg bw in the same regimen was ineffective (16). Immature Alpk:AP rats exhibited a uterotropic response to 400 mg BPA/kg bw as evidenced by a 1.3-fold and a 1.5-fold increase in wet weight after oral gavage gavage /ga·vage/ (gah-vahzh´) [Fr.] 1. forced feeding, especially through a tube passed into the stomach. 2. superalimentation. ga·vage n. 1. and subcutaneous injection, respectively (17). Although some evidence suggests that mice may be less likely than rats to exhibit a uterotropic response to BPA (6), results of a recent study revealed that the continuous subcutaneous administration of 100 mg BPA/kg bw/day for 3 days did elicit a uterotropic response in CD1 mice (18). Other end points that have been studied after BPA administration to adult animals--such as induction of cell proliferation in the uterus and the vagina, and prolactin prolactin /pro·lac·tin/ (-lak´tin) a hormone of the anterior pituitary that stimulates and sustains lactation in postpartum mammals, and shows luteotropic activity in certain mammals. pro·lac·tin n. secretion also revealed differences in sensitivity among rat strains (10,11). Again, Sprague-Dawley rats proved less sensitive to BPA than Fisher 344 rats in these studies. The route and time of exposure can also affect the potency of BPA. Results of a recent study indicated that the relative bioavailability bioavailability /bio·avail·a·bil·i·ty/ (bi?o-ah-val?ah-bil´i-te) the degree to which a drug or other substance becomes available to the target tissue after administration. bi·o·a·vail·a·bil·i·ty n. of BPA is lower after oral administration than after subcutaneous or intraperitoneal delivery (15). Consistent with those data, Laws and colleagues (16) demonstrated a greater increase in uterine wet weight in response to subcutaneous delivery relative to oral administration of equivalent levels of BPA to immature female rats. With regard to the time of exposure, oral administration of very low levels of BPA (0.002-0.020 mg/kg) to pregnant (CF-1) mice during days 11-17 of gestation produced measurable effects in their offspring (12,13). Significant alterations have also been reported in the behavior of the offspring of female Sprague-Dawley rats that were treated with 0.040-0.40 mg/kg BPA during pregnancy and lactation (19). To date, there is no evidence that these same levels of BPA exposure would exert measurable effects in adults of the same species and strain. The particular consequences of estrogenic exposure and the mechanisms involved undoubtedly differ depending on the time of exposure. Limited exposure of adult animals to estrogenic compounds can produce effects that are mostly reversible when exposure ceases. In contrast, perinatal exposure to exogenous estrogenic compounds is likely to produce organizational effects that are irreversible (20,21). To date, the limited number of studies that have examined the effects of perinatal BPA exposure have used different species, strains, doses, and routes of administration, and they have measured different end points (13,14,19,22). Hence, integrating the available data into a coherent picture has proven difficult. The aim of the present study was to assess the effects of BPA during development and to compare the sensitivity of the developing organism with that of the adult animal. An oral route of BPA administration was chosen for this study to mimic the most likely route of exposure to the compound in humans and wildlife. Materials and Methods Animals. We purchased female Sprague-Dawley rats from Taconic Farms (Germantown, NY). We purchased one group of 2- to 3-month-old females as timed pregnant females (n = 18). They were shipped to our animal facility on day 5 of pregnancy for the study of BPA exposure during the perinatal period. We purchased a second group of animals (n = 30) as ovariectomized young adult females for use in a uterotropic assay to assess the estrogenicity of BPA. Animals were maintained in the Division of Laboratory Animal Medicine with food (Purina Rodent Chow, St. Louis, MO) and water available ad libitum ad libitum without restraint. ad libitum feeding food available at all times with the quantity and frequency of consumption being the free choice of the animal. . We used glass water bottles in these studies to ensure that related compounds did not leach from plastic water bottles and potentially confound the results of our studies. We used plastic cages to house the animals; beforehand, however, we evaluated ethanol extracts from the cages using the E-SCREEN assay (23,24) to confirm that measurable levels of estrogenic compounds did not leach from the cages. Animals were maintained on a light:dark cycle (14:10) with lights on at 0500 hr and off at 1900 hr. The care of the animals was in accordance with the Guidelines for the Care and Use of Laboratory Animals and the Institutional Animal Care and Use Committee Institutional Animal Care and Use Committees are of central importance to the application of laws to animal research in the United States. Most research involving laboratory animals is funded by the United States National Institutes of Health or other federal agencies. on our campus. Exposure of pregnant and lactating lac·tate 1 intr.v. lac·tat·ed, lac·tat·ing, lac·tates To secrete or produce milk. [Latin lact females to BPA in the drinking water. Upon arrival in the facility, the timed pregnant females were weighed and randomly assigned to 1 of three groups. We exposed experimental females to BPA in their drinking water at concentrations of 1 mg/L (low dose BPA, n = 6) or 10 mg/L (high dose BPA, n =6) beginning on day 6 of pregnancy. BPA exposure was continued throughout the period of lactation. We gave control females (n = 6) water containing only the concentration of ethanol (1%) used as a diluent diluent /dil·u·ent/ (dil´oo-int) 1. causing dilution. 2. an agent that dilutes or renders less potent or irritant. dil·u·ent adj. Serving to dilute. n. for the BPA solutions. Beginning on the day of weaning weaning, n the period of transition from breast feeding to eating solid foods. weaning the act of separating the young from the dam that it has been sucking, or receiving a milk diet provided by the dam or from artificial sources. , pups were supplied with unadulterated un·a·dul·ter·at·ed adj. 1. Not mingled or diluted with extraneous matter; pure. See Synonyms at pure. 2. Out-and-out; utter: the unadulterated truth. drinking water. We estimated the mean levels of BPA consumed daily by [pregnant females from the drinking water at approximately 0.1 mg/kg bw/day (low dose) and 1.2 mg/kg bw/day (high dose). These estimates were based on the measurements of the difference in the amount of water placed in the water bottle each day and the amount remaining on the following day. The assessments assume that all the water lost from the bottle was consumed. They do not account for possible leakage, evaporation, or spillage of the water or for potential loss of BPA activity during the 24-hr period. Therefore, the estimates of the level of BPA exposure may be somewhat higher than actual exposure levels. The actual levels of BPA that reached the fetuses during gestation or that were ingested postnatally by the offspring during the period of lactation were not estimated in the present study. Assessment of the effects of BPA exposure. We examined the pregnant females daily and weighed them several times during pregnancy. On the day of delivery, we observed the females continuously and recorded the time of delivery of litters for each individual. The sex of the offspring was initially recorded on postnatal postnatal /post·na·tal/ (-na´t'l) occurring after birth, with reference to the newborn. post·na·tal adj. Of or occurring after birth, especially in the period immediately after birth. day 2. We weighed the pups several times during the neonatal period and at frequent intervals through 110 days after birth. The body weight data collected before weaning were not segregated by sex. To facilitate body weight measurements with the least amount of disruption to the litters, each pup was removed and rapidly weighed without first assessing its sex. Male and female offspring from each of the three groups were killed at various times after birth, and the genital tracts were examined for evidence of macroscopic macroscopic /mac·ro·scop·ic/ (mak?ro-skop´ik) gross (2). mac·ro·scop·ic or mac·ro·scop·i·cal adj. 1. Large enough to be perceived or examined by the unaided eye. 2. abnormalities at each time point. We examined the males neonatally (n = 12), at 3 months (n = 12), and at 5 months (n = 18) and the females neonatally (n = 12), at 8 months (n = 24), and at 12-16 months (n = 34). At all time points, animals were ,selected from as many different litters from each group as possible. For example, we assessed anogenital a·no·gen·i·tal adj. Relating to the anus and the genitals. anogenital relating to the region of the anus and the genitalia, especially the external genitalia. distances in animals killed during the neonatal period: 12 males and 12 females, including one male and one female from four different litters from each of the three experimental groups. We checked female offspring daily beginning on day 28 to assess the day of vaginal opening vaginal opening n. The narrowest portion of the vaginal canal, located in the floor of the vestibule, behind the urethral orifice. . We examined vaginal cytology cytology (sītŏl`əjē), in biology, the study of the structure of all normal and abnormal components of cells and the changes, movements, and transformations of such components. daily in the female offspring for 18 consecutive days at 4 months of age and then again at 6 months of age to determine the pattern of estrous cyclicity in adulthood (n = 69). Females were considered to show clear evidence of estrous cyclicity if a minimum of two, and in many cases three, consecutive 4-5 day estrous cycles were confirmed during the daily assessments of vaginal cytology. Eight female offspring in each of the three groups were ovariectomized and killed 3 months later to assess circulating luteinizing hormone (LH) levels. We collected trunk blood and assayed the serum for LH titers using the rat LH assay kit obtained through the National Hormone and Pituitary pituitary /pi·tu·i·tary/ (pi-too´i-tar?e) 1. hypophysial. 2. pituitary gland; see under gland. anterior pituitary adenohypophysis. Program, the National Institute for Diabetes and Digestive and Kidney Disease Kidney Disease Definition Kidney disease is a general term for any damage that reduces the functioning of the kidney. Kidney disease is also called renal disease. (Bethesda, MD) and A.F. Parlow (LH antisera S-11, lot number AFP-C697071P). All plasma samples were run in a single assay. The intra-assay variability was 7%. Uterotropic assay. Two weeks after ovariectomy ovariectomy /ovar·i·ec·to·my/ (o-var?e-ek´tah-me) oophorectomy. o·var·i·ec·to·my n. The surgical removal of one ovary or both ovaries. Also called oophorectomy. , young adult females were exposed for 3 days to the same two concentrations of BPA in their drinking water as the pregnant and lactating females (1 mg/L or 10 mg/L)--or a concentration 10 times greater than the high dose given pregnant females (100 mg/L). Other groups of identically treated animals were exposed to estrone estrone /es·trone/ (es´tron) an estrogen isolated from pregnancy urine, human placenta, palm kernel oil, and other sources, also prepared synthetically; for properties and uses, see estrogen. (1 mg/L or 0.1 mg/L) or to water containing 1% ethanol (diluent) for 3 days. We examined vaginal cytology before treatment began and then daily during treatment. After 3 days, animals were decapitated de·cap·i·tate tr.v. de·cap·i·tat·ed, de·cap·i·tat·ing, de·cap·i·tates To cut off the head of; behead. [Late Latin d and the uterine wet weights were determined. We examined the animals carefully to confirm that no ovarian tissue remnants were present. Statistical analysis. Overall differences in body weights, LH levels and uterine wet weight were analyzed by ANOVA anova see analysis of variance. ANOVA Analysis of variance, see there . Once significance was established, post hoc tests (t-tests, Tukey, or LSD LSD or lysergic acid diethylamide (lī'sûr`jĭk, dī'ĕth`ələmĭd, dī'ĕthəlăm`ĭd), alkaloid synthesized from lysergic acid, which is found in the fungus ergot ( ) were performed to make comparisons between groups. The incidence of mammary tumors was analyzed by the chi-square test chi-square test: see statistics. . Overall comparisons of the proportion of cycling females at 4 and 6 months were made using the Kruskall-Wallis test, and Mann-Whitney Utests were used to compare between groups where appropriate. Results The first significant findings we noted were increased body weights of the pups born to BPA-treated females relative to those born to control females. On postnatal days 4, 7, and 11 (Figure 1), animals exposed to both low-and high-dose BPA treatments weighed more than animals born to control females (p [is less than] 0.0001). On days 11 (p [is less than] 0.025, Figure 1) and 22 (p [is less than] 0.005, Figure 2A and C), animals exposed to the low dose of BPA were heavier than those exposed to the high dose of BPA. On day 28, we observed a significant difference in mean body weight between high- and low-dose animals in the females (p [is less than] 0.005; Figure 2A) but not in their male littermates (Figure 2C), although the male offspring did exhibit significant body weight effects of BPA through postnatal day 54 (Figure 2D). On days 87 and 110, low-dose BPA females retained higher body weights than both control and high-dose females (p [is less than] 0.05; Figure 2B). [GRAPHS OMITTED] We observed evidence of functional alterations of the reproductive system reproductive system, in animals, the anatomical organs concerned with production of offspring. In humans and other mammals the female reproductive system produces the female reproductive cells (the eggs, or ova) and contains an organ in which development of the fetus in female offspring exposed to the high-dose regimen of BPA. Most females exposed perinatally to high-dose BPA failed to exhibit evidence of regular estrous cycles when examined at 4 months (only 21% exhibited regular estrous cycles) and at 6 months [only 23% exhibited regular estrous cycles (Figure 3A)]. The defect in the pattern of estrous cyclicity varied in individual females and was not easily defined. The vaginal cytology of some animals revealed intermittent extended periods of diestrus di·es·trus or di·es·trum n. The period of sexual quiescence intervening between two periods of estrus. di·es  trous adj. , whereas others exhibited extended periods of proestrus pro·es·trusn. The period immediately before estrus in most female mammals, characterized by development of the endometrium and ovarian follicles. proestrus the period of heightened follicular activity preceding estrus. and/or estrus estrus Period in the sexual cycle of female mammals, except the higher primates, during which they are in heat (ready to accept a male for mating). Some animals (e.g., dogs) have only one heat during a breeding season; others (e.g. . The difference between the animals exposed to high-dose BPA and those exposed to vehicle was statistically significant (p [is less than] 0.0001 at 4 months, p [is less than] 0.005 at 6 months). A lower percentage of the animals exposed to the low-dose regimen of BPA exhibited regular estrous cycles at 4 months (67%) relative to the control females (83%); however, this difference was not significant. The mean number of regular 4-5 day estrous cycles confirmed for offspring of the high-dose animals differed significantly from the mean number confirmed in offspring of control and low-dose females (Figure 3B). [GRAPHS OMITTED] Besides altered patterns of estrous cyclicity, the offspring of the high-dose BPA females also revealed significantly lower levels of plasma LH relative to control females after long-term ovariectomy (Table 1). Although plasma LH levels were lower in the low-dose BPA animals relative to the controls, this difference was not significant probably because of the variability observed in this group. Table 1. Plasma LH levels (mean [+ or -] SEM)in ovariectomized females. Group No. of rats LH levels (ng/mL) Control females 7 14.97 [+ or -] 0.51 Low-dose females 6 12.17 [+ or -] 1.54 High-dose females 8 12.14 [+ or -] 0.46(*) (*) p < 0.001, high-dose vs. control females. During observations of the female offspring, which extended through 16 months of age when the last group of animals was sacrificed, 10% of the female offspring of controls (2/19), 20% of female offspring exposed to the low dose (3/15), and 28% exposed to the high dose (7/25) of BPA developed mammary tumors. Although the data are provocative, the differences in the incidence of mammary tumors were not statistically significant. The precise time that each tumor was first palpable is not known because regular examination for mammary tumor development had not been planned. Rather, the tumors were detected during routine handling of the animals when they had reached a diameter [is greater than] 1 cm. Many parameters examined in this study were not significantly affected by perinatal exposure to BPA. The mean number of pups per litter did not differ (control 12.0 [+ or -] 0.7; low dose 11 [+ or -] 1.3; high dose 11.6 [+ or -] 1.0), and the sex ratios of the litters were comparable in the three groups. The day of vaginal opening did not differ among groups (34.8 [+ or -] 0.22, control; 34.7 [+ or -] 0.28 low dose; and 34.8 [+ or -] 0.30 high dose), nor did measurements of anogenital distance taken during the neonatal period. Furthermore, no macroscopic abnormalities were observed in genital tract tissues examined at any time during the study. Exposure to the same levels of BPA given to pregnant and lactating mothers was not able to stimulate a uterotropic response in ovariectomized postpubertal females (Table 2). Moreover, females that received a dose of BPA 10 times higher than the high dose administered to pregnant and lactating females did not exhibit an increase in uterine wet weight (Table 2). In contrast, a 4-fold increase in uterine wet weight occurred in animals that received levels of the potent natural estrogen estrone comparable to levels of BPA received in the low-dose treatment. Consistent with the increase in uterine wet weights, all females in this estrone-treated group exhibited cornified cornified converted into horny tissue (keratin); keratinized. vaginal smears on the day that they were killed. In contrast, the vaginal cytology of females in the other groups examined revealed the predominance of leukocytes.
Table 2. Results of uterotropic assay in ovariectomized young adults.
Mean uterine wet
Estimated chemical weight
Group No. exposure/day (mg [+ or -] SEM)
Control 6 78.2 [+ or -] 6.1
Estrone (1 mg/L) 5 0.17 mg/kg bw 326.4 [+ or -] 14.9(**)
Estrone
(0.1 mg/L) 5 0.02 mg/kg bw 97.6 [+ or -] 5.6
BPA (100 mg/L) 4 16.90 mg/kg bw 82.9 [+ or -] 8.9
BPA (10 mg/L) 4 1.90 mg/kg bw 89.9 [+ or -] 2.8
BPA (1 mg/L) 4 0.15 mg/kg bw 78.2 [+ or -] 5.0
Chemicals were delivered in the drinking water. Controls received
vehicle (1% ethanol).
(**) Estrone (1 mg/L) differs from all other groups, p < 0.0001.
Discussion Several recent studies have demonstrated subtle effects rather than gross macroscopic abnormalities in rodents that were exposed prenatally and/or neonatally to low doses of BPA (12,13,19). Our findings are consistent with this trend. The increase in body weight observed in the offspring of BPA-treated female rats in our study confirm and extend recently published findings in mice. Daily oral administration of 0.0024 mg BPA/kg to pregnant mice on days 11-17 of gestation increased the body weight of female offspring (13). Our data demonstrate that BPA increased body weight in both male and female rats born to exposed mothers, although the increase persisted longer in females. Moreover, in the female offspring, the lower of the two BPA doses produced a larger and more persistent effect on body weight relative to the higher dose. This intriguing finding is consistent with the nonmonotonic or inverted-U-shaped dose-response curve dose-response curve A graphic representation of the effects that varous doses of an agent–eg, ionizing radiation or a chemotherapeutic agent, have on a given parameter–eg, cell viability, mutation frequency, DNA damage, tumor growth or metastasis or that has been reported with this compound for prostate wet weight (12). In the experiments reported here, the effects of BPA on body weight were observed during the period of exposure, and they persisted after BPA administration ceased. The increase in body weight reported in mice by Howdeshell et al. (13) was also observed after in utero in utero (in u´ter-o) [L.] within the uterus. in u·ter·o adj. In the uterus. in utero adv. exposure to BPA. Both sets of data suggest that the effect of BPA on body weight does not require the constant presence of the stimulus. Similarly, the altered estrous cycle patterns observed in the female offspring of dams exposed during gestation and lactation to the high dose of BPA occurred long after BPA exposure ceased. Altered patterns of estrous cyclicity have recently been reported in adult females examined during the period of daily exposure to 100 mg BPA/kg bw administered by oral gavage (16). However, these apparently comparable effects on estrous cyclicity are likely to be mediated through different pathways, because the latter occurred during exposure to BPA and the former occurred long after the exposure had ended. The permanent alterations in estrous cyclicity we observed in females exposed to BPA perinatally might be expected to limit reproductive fertility and decrease overall reproductive success. In a recent study of Sprague-Dawley female rats, Kwon and colleagues failed to observe significant differences in body weight or in patterns of estrous cyclicity after perinatal exposure to much higher levels of BPA than those used in the present study (25). Doses up to 320 mg/kg/day BPA were administered to dams from day 11 of gestation through day 20 of lactation. Although an oral route of administration was used in that study, BPA was administered daily as a single bolus bolus /bo·lus/ (bo´lus) 1. a rounded mass of food or pharmaceutical preparation ready to swallow, or such a mass passing through the gastrointestinal tract. 2. a concentrated mass of pharmaceutical preparation, e. by oral gavage and not via continuous low-level exposure in the drinking water, as in our study. It is not clear whether the different modes of oral administration might have influenced the results observed in the two studies. It is possible that the physiologic response to a large bolus of the compound is to activate pathways that will ensure its rapid elimination. Differential processing of high doses relative to low doses of BPA may contribute to the inverted-U-shaped nonmonotonic dose-response curve that has been described for this and other compounds (12,26). A recent study demonstrated that oral adiministration of a bolus of BPA (10 mg/kg or 100 mg/kg) resulted in the conversion of BPA to the monoglucuronide conjugate conjugate /con·ju·gate/ (kon´jdbobr-gat) 1. paired, or equally coupled; working in unison. 2. a conjugate diameter of the pelvic inlet; used alone usually to denote the true conjugate diameter; see , the major urinary metabolite metabolite, organic compound that is a starting material in, an intermediate in, or an end product of metabolism. Starting materials are substances, usually small and of simple structure, absorbed by the organism as food. of the compound (15). Moreover, after oral gavage, the levels of BPA detected in plasma were low and the period of time that detectable levels of BPA were present in the plasma was abbreviated relative to subcutaneous or intraperitoneal routes of administration (15). Although the observed disruption of regular estrous cycles indicates that perinatal exposure to the high dose of BPA altered the function of the hypothalamic-pituitary-gonadal axis, the site(s) of the disturbance is (are) unclear. The decrease in circulating LH levels also observed in females exposed perinatally to the high dose of BPA is consistent with an effect at the hypothalamic hypothalamic pertaining to the hypothalamus. hypothalamic hormones see hypothalamus. hypothalamic-pituitary-adrenocortical axis and/or pituitary level. Mean LH levels in the low-dose animals did not differ significantly from those in either the control or high-dose females perhaps because of a higher variability. Howdeshell et al. (13) demonstrated that the sensitivity of mice to BPA can vary markedly in individual animals. Exposure to endogenous levels of gonadal gonadal pertaining to or arising from a gonad. See also testicular, ovarian. gonadal cords cords formed by epithelial cells which migrate from the mesonephric tubules in the embryo to the gonadal ridge and establish the indifferent steroids in utero may differ in rodents depending on the position of the developing embryo and the sex of proximal littermates in the uterine horn (27-31). These subtle differences in exposure to endogenous gonadal steroids during development may influence the sensitivity of individual animals to low levels of exposure to exogenous estrogenic compounds. Evidence for such additive effects were reported in turtles after in ovo exposure to exogenous estrogens (32). The mechanisms by which perinatal exposure to BPA elicits the effects observed in our study remain to be determined. It is interesting to note that the perinatal BPA exposure here spanned the classically defined critical period of brain sexual differentiation sexual differentiation See Hermaphroditism, hirsutism, Müllerian ducts, Precocious puberty, Pseudoprecocious puberty, Tanner staging, Testis-determining factor, Virilization, Wolffian ducts, XXX, XXY, XXXY, XYY syndromes, Y Chromosome. , which extends from several days before birth through approximately postnatal day 10 in rats (33). During this time, circulating levels of testosterone produced by the testes testes or testicles Male reproductive organs (see reproductive system). Humans have two oval-shaped testes 1.5–2 in. (4–5 cm) long that produce sperm and androgens (mainly testosterone), contained in a sac (scrotum) behind the penis. can affect nervous system development and cause a male-typical pattern of neuroendocrine regulation and behavior (33-36). Increased body weight, premature loss of estrous cyclicity, and a decrease in postcastration LH levels have all been documented in females that were treated with exogenous testosterone during development (37,38). Many of the actions of testosterone during brain sexual differentiation occur via its local aromatization a·ro·ma·tize tr.v. a·ro·ma·tized, a·ro·ma·tiz·ing, a·ro·ma·tiz·es 1. To make aromatic or fragrant: swirled the wine to aromatize it. 2. to estradiol within specific sites in the developing brain (33-35), and the importance of estrogen in the differentiation of male behavioral and neuroendocrine regulation is supported by many lines of investigation (reviewed in 35). Therefore, it is tempting to postulate postulate: see axiom. that the estrogenic compound BPA, which binds estrogen receptors (39,40), alters the expression of estrogen and androgen receptors (41), and possesses antiandrogenic activities (42), may have interfered with central processes involved in brain sexual differentiation in animals exposed perinatally. As a nonsteroidal estrogen, BPA could potentially bypass the protective mechanisms that limit exposure to circulating estrogens during fetal and early neonatal development (34,43,44). In developing mice and rats, high concentrations of the liver-secreted protein alpha fetoprotein alpha fetoprotein /al·pha fe·to·pro·tein/ (fe?to-pro´ten) a plasma protein produced by the fetal liver, yolk sac, and gastrointestinal tract and also by hepatocellular carcinoma, germ cell neoplasms, other cancers, and some benign bind estradiol and reduce the availability of this steroid from the circulation during the critical period of sexual differentiation (33-35). In contrast, testosterone in the circulation is free to enter the brain, where it can be converted to estradiol and interact with estrogen receptors. Behavioral effects consistent with central actions of BPA during development have recently been reported in rats after oral exposure to BPA at a level and time frame similar to that used in the present study (19). Perinatal exposure to BPA appeared to result in a slight but not statistically significant increase in the incidence of mammary tumor development in the female offspring during the course of our study. These data are provocative and suggest that a possible relationship between perinatal exposure to BPA and mammary tumor development warrants further investigation. In this regard, recent epidemiological data suggest that increased estrogen exposure in utero increases the risk of breast cancer (45,46). Although not a result of perinatal exposure, BPA administration has been reported to stimulate lobular lob·ule n. 1. A small lobe. 2. A section or subdivision of a lobe. lob maturation and epithelial cell proliferation in young adult Noble rats (47). To date, the relative sensitivity to a specific regimen of BPA exposure has not been assessed in a single animal strain during development and in adulthood, and the marked strain differences in BPA sensitivity (10,11) have hindered the integration of currently available data. Therefore, we evaluated the sensitivity of ovariectomized adult Sprague-Dawley rats to BPA, using the uterotropic assay as a measure of estrogenicity. As shown, exposure to the same levels of BPA provided to the pregnant and lactating mothers, as well as a dose 10 times higher than the high dose, was unable to stimulate a uterotropic response in ovariectomized postpubertal females. Moreover, Gould and colleagues (48) demonstrated that administration of even higher doses of BPA (150 mg BPA/kg bw) failed to increase uterine wet weight in immature Sprague-Dawley females. The data from the present study therefore suggest that the sensitivity to BPA exposure is significantly increased during early development. BPA may be particularly deleterious during the perinatal period because of its low binding affinity to serum proteins (49) and the potential for nonsteroidal estrogenic compounds to bypass mechanisms that limit exposure of the fetus and the fetal brain to circulating estrogens (33,45,46). In addition, developmental exposure to BPA produces effects that persist long after the causal agent is removed. Moreover, the body weight data in this study suggest that low doses of BPA may be more effective than high doses in altering some physiologic parameters. Data from other studies have demonstrated that low-dose exposure to this compound may in fact be more detrimental than high doses (12) and that persistent exposure to low doses of the compound over long periods may be as effective as shorter exposures to somewhat higher levels (19). 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Gould JC, Leonard LS, Maness SC, Wagner BL, Conner K, Zacherewski T, Safe S, McDonnell DP, Gaido KW. Bisphenol A interacts with the estrogen receptor alpha in a distinct manner from estradiol. Mol Cell Endocrinol 142:203-214 (1998). (49.) Nagel SC, vom Seal FS, Welshons WV. The effective free fraction of estradiol and xenoestrogens in human serum measured by whole cell uptake assays: physiology of delivery modifies estrogenic activity. Proc Sec Exp Biol Med 217:300-309 (1998). Address correspondence to A. Soto, Department of Anatomy and Cellular Biology cellular biology n. The study of the molecular or chemical interactions of biological phenomena. , Tufts Medical School, 136 Harison Avenue, Boston, MA 02111 USA. Telephone: (617) 636-6954. Fax: (617) 636-6536. E-mail: Ana.Soto@tufts.edu We acknowledge the technical assistance of C. Lee, C. Michaelson, R. O'Donnell, P. Ronsheim, and G. Shin. Support for these studies was provided by the Tufts Institute of the Environment and NIH-ES 08314. Received 23 August 2000; accepted 26 January 2001. Beverly S. Rubin, Mary K. Murray, David A. Damassa, Joan C. King and Ana M. Soto Department of Anatomy and Cellular Biology, Tufts Medical School, Boston, Massachusetts, USA |
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