Abstract
Atrazine is one of the most commonly used pre-emergence and early post-emergence herbicides in the world. We have shown previously that atrazine does not directly stimulate the pituitary or adrenal to trigger hormone release but acts centrally to activate a stress-like activation of the hypothalamic-pituitary-adrenal axis. In doing so, atrazine treatment has been shown to cause adrenal morphology changes characteristic of repeated stress. In this study, adrenals from atrazine treated and stressed animals were directly compared after 4 days of atrazine treatment or restraint stress. Both atrazine and stressed animals displayed reduced adrenocortical zona glomerulosa thickness and aldosterone synthase (CYP11B2) expression, indicative of repeated adrenal stimulation by adrenocorticotropic hormone. To determine if reduced CYP11B2 expression resulted in attenuated aldosterone synthesis, stressed and atrazine treated animals were challenged with angiotensin II (Ang II). As predicted, stressed animals produced less aldosterone compared to control animals when stimulated. However, atrazine treated animals had higher circulating aldosterone concentrations compared to both stressed and control groups. Ang II-induced aldosterone release was also potentiated in atrazine pretreated human adrenocortical carcinoma cells (H295R). Atrazine pretreated did not alter the expression of the rate limiting steroidogenic StAR protein or angiotensin II receptor 1. Atrazine treated animals also presented with higher basal blood pressure than vehicle treated control animals suggesting sustained elevations in circulating aldosterone levels. Our results demonstrate that treatment with the widely used herbicide, atrazine, directly increases stimulated production of aldosterone in adrenocortical cells independent of expression changes to rate limiting steroidogenic enzymes.
Highlights
Atrazine (2-chloro-4-ethylamino-6-isopropylamino-s-triazine) is one of the most commonly used herbicides worldwide [1]
We have termed atrazine’s effects on the HPA axis as “stress-like” since, corticotropinreleasing hormone (CRH) receptor activation is required for atrazine-induced adrenocorticotropic hormone (ACTH) release, CRH cells of the hypothalamic paraventricular nucleus fail to display markers of activation after atrazine treatment [11]
When adrenal cortical zones were analyzed, the zona glomerulosa (zG) was found to be reduced in thickness after 4 days of treatment with 100 mg/kg body weight (BW) of atrazine or 30 min of restraint stress when compared with vehicle-treated animals (Table 2, Figure 1A; F(2, 21) = 20.8, P < 0.001)
Summary
Atrazine (2-chloro-4-ethylamino-6-isopropylamino-s-triazine) is one of the most commonly used herbicides worldwide [1]. It is possible that the inhibitory effects of atrazine and its chlorometabolites on gonadotropins [8,9,10] is partially due to the interaction between the chlorotriazine and the hypothalamic-pituitary-adrenal (HPA) axis. Atrazine does not induce adrenocorticotropic hormone (ACTH) release in pituitary cell cultures. The blockade of corticotropinreleasing hormone (CRH) receptors inhibits atrazine-induced elevation in corticosterone in vivo. This suggests that atrazine does not directly stimulate ACTH release from the pituitary, but requires CRH receptor activation, presumably from hypothalamic derived CRH. We have termed atrazine’s effects on the HPA axis as “stress-like” since, CRH receptor activation is required for atrazine-induced ACTH release, CRH cells of the hypothalamic paraventricular nucleus fail to display markers of activation after atrazine treatment (cFos and P-CREB) [11]. Animals do not respond to atrazine treatment with hyperthermia or display avoidance behavior common in stressed animals [12]
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