Lawrence T. Wetzel

Chronic effects of atrazine on estrus and mammary tumor formation in female Sprague-Dawley and fischer 344 rats

The chronic effects of dietary administration of atrazine at levels as high as 400 ppm on selected endocrine and tumor profiles were evaluated in Fischer 344 and Sprague-Dawley female rats. The study showed that lifetime dietary administration of atrazine at a maximum tolerated dose (MTD) to Sprague-Dawley female rats caused (1) lengthening of the estrous cycle, (2) increased number of days in estrus or under the influence of exposure to estrogen, (3) earlier onset of galactocele formation, and (4) earlier onset of mammary and pituitary tumor formation but not an increased incidence of mammary and pituitary tumors when compared to concurrent control rats. Fischer 344 female rats fed atrazine at an MTD exhibited slightly lengthened estrous cycles, but no effects were observed on estradiol or progesterone levels, or on the onset or incidence of mammary tumors. These results support a hypothesis that high-dose atrazine administration in Sprague-Dawley females is related to an acceleration of age-related endocrine changes leading to an earlier onset and/or increased incidence of mammary tumors. This endocrine-mediated response, which appears to be unique to the Sprague-Dawley female rat, occurs only at or above a threshold dose (the MTD) that interferes with normal estrous cycling, promoting prolonged exposure to endogenous estrogen.

Hypothesis for mammary tumorigenesis in Sprague-Dawley rats exposed to certain triazine herbicides

The symmetrical triazine herbicides have been used for the preemergence control of broadleaf weeds for nearly three decades. Recently, certain members of this class, primarily the chlorotriazines (substituted in the 2 position), have been shown to evoke an increased incidence of mammary tumors in female Sprague-Dawley rats. This response was noted when these chemicals were administered in the diet for 2 yr, and most often at dietary feeding levels at or above the maximum tolerated dose (MTD). At levels exceeding the MTD the health of these animals was compromised, as manifested by toxicity-related reduced survival that was not associated with the occurrence of mammary tumors. Mammary tumors in rats frequently occur as a result of the influence of endogenous estradiol and prolactin. Those hormones, as well as progesterone, growth-stimulating, luteinizing, and follicle-stimulating hormones, were measured after 24 mo of dietary administration of the chlorotriazine, simazine. The plasma hormone pattern seen in aged female Sprague-Dawley rats administered 1000 ppm simazine in the diet for 24 mo resembled that noted for aged female controls, except that the difference was more pronounced in the simazine-treated group. These results suggest that prolonged exposure of Sprague-Dawley females to excessive levels of triazines affects the neuroendocrine system, which in turn alters the pathology of the mammary gland. These changes are comparable to those that occur naturally as the rat ages. Changes in neuroendocrine control could result in the expression of an earlier onset and/or an increased incidence of mammary tumors, which already occur at a high spontaneous rate in aging Sprague-Dawley female rats.

Estrous cycle patterns of Sprague-Dawley rats during acute and chronic atrazine administration

An increased incidence or earlier onset of mammary tumors (MT) has been associated with lifetime feeding of atrazine, an agricultural herbicide, to Sprague-Dawley (SD) female rats. Because MT occur spontaneously in this strain, along with episodes of persistent estrus and acyclic estrogen secretion, it was proposed that atrazine may act to promote this process. SD female rats, 7 to 8 wks old, were administered atrazine while vaginal cytology was monitored. At 200 mg/kg/d by gavage, which clearly exceeded the maximum tolerated dose (MTD), the predominant early response was prolonged vaginal diestrus. Persistent estrous episodes were seen, but less commonly. When atrazine was added to the diet, there was likewise an initial appearance of prolonged diestrus at 400 ppm, but by 13 to 14 wks on test (20 to 21 wks of age), persistent estrus was predominant, rising to >50% of animals by 26 wks on test. Age-matched controls also displayed persistent estrus, but to a lesser degree. At 400 ppm atrazine for 6 mo, animals displayed vaginal estrus for a mean of 62.8% of all days, versus 47.3% in age-matched controls, and 20 to 25% in young animals. The 400 ppm dose also exceeded the MTD. Observed no-effect levels for estrous cycling and body weight change were 50 ppm. Significant effects on estrous cycling occurred only at levels previously associated with enhanced or premature MT formation, and suggest that the tumor response in aging SD female rats can be manipulated by factors controlling the internal estrogen milieu. Because atrazine has no intrinsic estrogenic activity, it is more likely that high-level dosing to a susceptible animal model alters control of ovulation and normal cycling. The requirement of excessive dosing levels, as well as differences in neuroendocrine senescence, makes a risk to human health from this mode of action essentially nonexistent.

Chloro‐s‐triazine antagonism of estrogen action: Limited interaction with estrogen receptor binding

In an accompanying article (see pp. 183-196), it was reported that administration of very high doses of the chlorotriazine herbicides atrazine, simazine, and diaminochlorotriazine (DACT), a common metabolite, expressed antiestrogenic activity in uteri of female Sprague-Dawley rats without expressing intrinsic estrogenic activity. In the present article, studies of chlorotriazine interaction with rat uterine estrogen receptors (ER) are reported. Under equilibrium conditions, none of the triazine compounds showed an ability to compete against binding of radiolabeled estradiol to ER. A weak competition was evident only if cytosols were preincubated with triazines at 25 degrees C prior to introduction of tracer. Competition was very weak, with kl estimates of 10-100 microM. A limited Scatchard analysis suggested a competitive type of inhibition. Sucrose gradient analysis of cytosol incubations showed that triazine interaction with the 4S isoform of ER may be greater than with the 8S form. When administered to ovariectomized rats for 2 d at 300 mg/kg/d, atrazine, simazine, or DACT all reduced uterine ER binding capacity by approximately 30%. Results from the receptor binding studies indicated that triazine competition against ER binding occurred to a much lesser degree than inhibition of estrogen-mediated responses reported in accompanying articles. This suggests that the complete responses to triazines may include inhibition of events other than or in addition to ER binding of estrogen.

Possible antiestrogenic properties of chloro-s-triazines in rat uterus.

Several published reports have indicated that certain chloro-s-triazine herbicides may alter endocrine function in rats, possibly by androgen receptor binding. In direct tests of estrogenic bioactivity, oral doses of up to 300 mg/kg/d of atrazine, simazine, or the common metabolite diaminochlorotriazine (DACT) did not significantly increase uterine weight of ovariectomized Sprague-Dawley female rats. The highest dose, which was approximately 10% of the LD50 for these compounds, did cause body weight loss. When administered concomitantly with sc injections of estradiol (2 micrograms/kg), 300 mg/kg of orally administered chlorotriazines significantly reduced uterine weight in comparison to animals given estrogen alone. Neither atrazine, simazine, nor DACT, at oral doses up to 300 mg/kg/d, stimulated incorporation of [3H]thymidine into uterine DNA of immature Sprague-Dawley female rats. However, oral treatment at doses of 50 mg/kg and higher significantly reduced thymidine incorporation into uterine DNA extracted from immature rats given a single injection of 0.15 microgram estradiol. Oral doses of 300 mg/kg of atrazine, simazine, or DACT significantly reduced expression of progesterone receptor binding in cytosol fractions prepared from uteri of ovariectomized rats injected sc with 1 microgram estradiol; 50 mg/kg triazine was not effective in this case. Uterine progesterone receptor levels were not stimulated in rats given oral doses up to 300 mg/kg of these triazines without estradiol injections. These results suggest that atrazine, simazine, and DACT possess no intrinsic estrogenic activity but that they are capable of weak inhibition of estrogen-stimulated responses in the rat uterus. This inhibition may play a role in the previously observed disruptive actions of chlorotriazines on reproductive endocrine function of female rats.

Short‐term effects of chlorotriazines on estrus in female Sprague‐Dawley and Fischer 344 rats

Atrazine or simazine (s-chlorotriazines) was administered by gavage daily for 2 wk to female Sprague-Dawley and Fischer 344 rats at oral doses of 100 or 300 mg/kg to evaluate effects on body, ovary, uterus, and adrenal weights, estrous cycle stages, vaginal cytology, and plasma hormone (estradiol, progesterone, prolactin, and corticosterone) levels. Significant reductions in body weights of both Sprague-Dawley and Fischer 344 female rats at both dose levels were accompanied by a significant reduction in ovarian and uterine weights, and a decrease in circulating estradiol levels. The magnitudes of the effects were less in Fischer 344 rats than in Sprague-Dawley rats, and the effects of simazine were less pronounced than those of atrazine at the same dose. A maximum tolerated dose (MTD: > or = 10% body weight reduction) was estimated to be 100 mg/kg for atrazine and 300 mg/kg for simazine for both stains. The Sprague-Dawley female rats exhibited a treatment-related lengthening of the estrous cycle and an increased number of days characterized by cornified epithelial cells. This resulted in a greater percent of the cycle days spent in estrus and reduction in the percent of the cycle days spent in diestrus. Atrazine-dosed Fischer 344 females also exhibited a significant trend toward cycle lengthening, but this was due to reduction in the percent of cycle spent in estrus and a concomitant increase in diestrual days. These findings suggest that treatment with doses of triazine at or above the MTD may result in prolonged exposure to endogenous estrogen in the Sprague-Dawley but not the Fischer 344 rat. These changes may account for the observed earlier onset and/or increased incidence of mammary tumors in chlorotriazine-treated female Sprague-Dawley rats. This strain of rat is already known to be prone to a substantial development of mammary tumors with advancing age, while the Fischer 344 strain is not as likely to exhibit this response.

The mammary tumor response in triazine-treated female rats: a threshold-mediated interaction with strain and species-specific reproductive senescence.

Triazine herbicides are among the most heavily used agricultural pesticides. Although they possess a very low acute toxicity in animals, a mammary tumor response has been consistently observed in Sprague-Dawley (SD) female rats following chronic oral dosing of atrazine and simazine at and above maximum tolerated doses. However, a substantial collection of detailed research has clearly shown that triazines are not genotoxic or mutagenic, nor do they possess estrogenic agonist activity that might promote mammary tumor growth. Examination of estrous cycling records of atrazine-treated SD rats revealed a premature appearance of persistent estrous episodes, beyond the prevalent occurrence normally seen in untreated, aging SD rats. A significant correlation has been found between early or severe estrous cycle disruption of atrazine-treated rats and the early appearance of mammary tumors. In studies using SD female rats fed atrazine for 6 months, then ovariectomized and administered an estrogen-containing silastic s.c. implant, a deficient luteinizing hormone surge was observed at a 400 parts per million (ppm) dose, but not at 25 or 50 ppm. Because SD rats exhibiting persistent estrus also have a prolonged elevation of estrogen secretion, it is proposed that the triazine-associated mammary tumor response is promoted by the test animals own estrogen from ovarian follicles that fail to ovulate because gonadotropin surge sufficiency is blocked by the high dose of herbicide. It is further proposed that, because reproductive senescence in SD rats is fundamentally different from menopause in women, the animal response to dosing, as well as the enormous requisite dosing level, establishes a safety margin of very low risk to human health from this mode of action.

Pattern of Reproductive Aging in Female Rats Can Affect Mammary Tumor Incidence

Reproductive senescence in female rats is due primarily to a developing neuroendocrine failure. Aging Sprague-Dawley (SD) animals demonstrate episodes of persistent vaginal estrus (PVE), while aging Fischer 344 (F-344) rats have episodes of pseudopregnancy. In the present studies, the ratio of serum estrogen to progesterone rose during PVE episodes in mature SD rats. The ratio was also higher than in F-344 rats at the same ages. In addition, SD rats demonstrated a much higher incidence of spontaneous mammary tumors (MT) than did F-344 rats. Among SD female rats fed 400 ppm atrazine, a broad- spectrum herbicide, for 2 years, there was an earlier appearance of PVE episodes, higher estrogen-progesterone ratios, and an earlier appearance of MT, compared to age-matched SD controls. Final tumor incidence, at 24 months, was not increased over control incidence. Indices of reproductive aging were unaffected in F-344 rats fed 400 ppm atrazine, and MT incidence remained low through 24 months. F-344 rats can develop a high rate of MT in response to chemical carcinogens, but did not do so in response to atrazine feeding. Results suggest that the spontaneous MT rate of aging female rats is influenced by exposure to the animals’ own reproductive steroids during middle age, and that the pattern of aging and alteration of the endocrine milieu can correspondingly affect the timing of MT development in senescence.