Endocrine disrupting effect of di-(2-ethylhexyl)phthalate on female rats and proteome analyses of their pituitaries

Di-(2-ethylhexyl)phthalate (DEHP) is a plasticizer and a ubiquitous environmental contaminant that may have adverse effects on human reproductive health. We examined the long-term exposure effects of DEHP on female rats and observed a strong effect on estrous cyclicity that produced a continuous diestrous stage. We found that the serum estradiol, follicle-stimulating hormone (FSH), pituitary FSH and luteinizing hormone levels were significantly reduced in the treated rats. To examine on the endocrine disrupting effects, we performed proteome-based analyses of their pituitaries, and found two proteins with remarkably reduced their levels. They were identified as the valosin-containing peptide/p97 (VCP/p97) and UMP-CMP kinase and their average protein spot intensities on statistical analysis of the spots differences of the treated/control rats were 0.13 and 0.21, respectively. Furthermore, there were 14 other proteins that had significantly changed levels, and their average protein spot intensities were in a range of 0.26 to 0.50 in 13 proteins and 2.74 in one. The reduction of in level of 7 proteins seems to be related to the intracellular protein transporting pathway, and it appears to suggest a slow down of gonadotrophin-releasing capability. Reduction of gonadotrophin release in the pituitary seems to lead to a decrease of serum estradiol level and continuous diestrous stage in estrous cyclicity.     

Induction of peroxisomal Lon protease in rat liver after di-(2-ethylhexyl)phthalate treatment

Previously, we identified a peroxisome-specific isoform of Lon protease using subcellular proteomics. In the present study, we investigated changes in the level of the Lon protease in peroxisomes during recovery from peroxisomal proliferation induced by di-(2-ethylhexyl)phthalate (DEHP) to elucidate the function of peroxisomal Lon protease (PSLP). Following a 2-week treatment with DEHP, the level of PSLP was monitored for 15 days. The amount of protease was greatly increased after the 2-week treatment, followed by a further increase 3 days after cessation of the treatment. Afterward, it decreased and reached the control level on day 15. On the other hand, level peroxisomal β-oxidation enzymes induced to express by DEHP started to decrease soon after discontinuation of treatment. The results suggest that PSLP functions to degrade β-oxidation enzymes induced by DEHP during recovery from perxisomal proliferation.     

In utero exposure to the antiandrogen di-(2-ethylhexyl) phthalate decreases adrenal aldosterone production in the adult rat

We previously reported that in utero exposure of the male fetus to the plasticizer di-(2-ethylhexyl) phthalate (DEHP) resulted in decreased circulating levels of testosterone in the adult without affecting Leydig cell numbers, luteinizing hormone levels, or steroidogenic enzyme expression. Fetal exposure to DEHP resulted in reduced mineralocorticoid receptor (MR; NR3C2) expression in adult Leydig cells. In the present studies, treatment of pregnant Sprague-Dawley dams from Gestational Day 14 until birth with 20, 50, 100, 300, or 750 mg kg(-1) day(-1) of DEHP resulted in significant sex-specific decreases in serum aldosterone but not corticosterone levels at Postnatal Day 60 (PND60) but not at PND21. There was no effect on circulating levels of potassium, angiotensin II or adrenocorticotropin hormone (ACTH). However, there was reduced expression of AT receptor Agtr1a, Agtr1b, and Agtr2 mRNAs. The mRNA levels of proteins and enzymes implicated in aldosterone biosynthesis were not affected by in utero DEHP treatment except for Cyp11b2, which was decreased at high (≥ 500 mg kg(-1) day(-1)) doses. The data presented herein, together with our previous observation that aldosterone stimulates testosterone production via an MR-mediated mechanism, suggest that in utero exposure to DEHP causes reduction in both adrenal aldosterone synthesis and MR expression in Leydig cells, leading to reduced testosterone production in the adult. Moreover, these results suggest the existence of a DEHP-sensitive adrenal-testis axis regulating androgen formation.     

Antiandrogenic effect of perinatal exposure to the endocrine disruptor di-(2-ethylhexyl) phthalate increases anxiety-like behavior in male rats during sexual maturation

Di-2-ethylhexyl phthalate (DEHP) is the most widely used phthalate to convey flexibility and transparency to plastic products made of polyvinyl chloride. It has been recognized as endocrine disruptor and associated with reproductive toxic effects. We examined the effects of perinatal exposure to DEHP on anxiety-like behavior, using the Elevated Plus Maze (EPM) test, in male and female rats at different stages of sexual development. Anxiety-like behavior was expressed as a) frequency of open arm entries over the total arm entries (% FEO); b) time spent in them compared with total time the animal stayed in the EPM (% TSO) and c) time spent in closed arms (TSC). Because DEHP has anti-androgenic action we also tested control and exposed immature male rats pretreated with testosterone. We found sex differences in behavior induced by DEHP; while male rats of 45 and 60 days of age showed a significant decrease in FEO and TSO percentages, as well as an increase in TSC, no changes were observed in anxiety-like behavior in perinatal DEHP exposed females at these ages of sexual maturation. In 60-day-old male rats, DEHP exposure produced a significant decrease in serum testosterone levels. Testosterone replacement was able to antagonize the adverse effects of DEHP exposure on LH, activating the negative feed-back mechanism of this steroid on reproductive axis, as well as increasing FEO and TSO percentages to similar values observed in the control group. These findings suggest that the anti-androgenic action of this chemical could be one possible mechanism underlie anxiogenic-like behavior produced by perinatal DEHP exposure in 60-day-old male rats.     

Expression of glucose transporters (GLUT 1 and GLUT 4) in primary cultured rat adipocytes: differential evolution with time and chronic insulin effect.

We previously reported that in cultured adipose cell lines insulin increased selectively the expression of Glut 1, in contrast to in vivo regulation where variations in insulinemia have been shown to affect only GLUT 4. We have addressed here the question of the long-term regulation of GLUT 1 and GLUT 4 in fat cells by using primary cultures of rat adipocytes. Epididymal fat cells were isolated by collagenase and cultured 4 days in DMEM supplemented with BSA 1%, FCS 1%, and glucose 10 mM. GLUT 1 and GLUT 4 proteins were assessed in total cellular membranes by Western blotting, using specific antibodies against their respective C-terminal peptides. GLUT 1 steadily increased over culture time to reach at day 3, a level 3-fold higher than the initial value. In contrast, GLUT 4 decreased sharply and stabilized at day 3, at 30% of the initial value. The changes in GLUT 1 and GLUT 4 mRNAs with culture time were parallel to changes in the corresponding proteins, suggesting a pre-translational level of regulation. The expression of the lipogenic enzyme, fatty acid synthetase (FAS), highly expressed in fat cell, decreased over time following a pattern closely parallel to that of GLUT 4. Chronic exposure to insulin added at day 2 had no effect on GLUT 4 expression but increased the expression of GLUT 1 and FAS by 70% and 36%, respectively. Glucose consumption was stable over 4 days of culture, while lactate production increased from 24 to 36% of glucose utilization, in agreement with the loss in FAS. Glucose consumption increased only slightly with insulin (+160%), in good keeping with the low levels of expression of both GLUT 4 and FAS in these cultured cells. These data indicate that culture alters oppositely the expression of GLUT 1 and GLUT 4 in rat adipocytes and suggest that factor(s) other than insulin predominate in their regulation in vivo.     

DEHP对中国林蛙精巢中StAR、CYP17和CYP19基因表达的影响

为探讨邻苯二甲酸二(2-乙基己基)酯(di-2-ethylhexyl phthalate,DEHP)对两栖动物精巢类固醇激素合成的影响,将中国林蛙(Rana chensinensis)雄性成体分别暴露于浓度为10-7、10-6、10-5、10-4mol·L-1DEHP的水体,分别在暴露20、30和40d取其精巢,提取精巢总RNA,逆转录合成cDNA,通过荧光实时定量PCR检测StAR、CYP17和CYP19mRNA表达相对值。结果表明:与对照组相比,DEHP处理组StAR和CYP19基因表达均上调,CYP17基因表达下调;比较不同DEHP浓度和不同暴露时间对StAR、CYP17和CYP19mRNA表达相对值的影响,显示DEHP浓度变化对3个基因表达影响的规律性不强,而DEHP暴露时间的累积效应较明显;提示DEHP可通过干扰中国林蛙精巢中StAR、CYP17和CYP19基因表达,影响其相应关键酶的表达,从而干扰类固醇激素的合成,产生雌激素效应。     

Effects of uterine and lactational exposure to di-(2-ethylhexyl) phthalate on spatial memory and NMDA receptor of hippocampus in mice

Di-(2-ethylhexyl) phthalate (DEHP) is an environmental endocrine disrupter. Currently, little is known about neurodevelopmental toxicity of DEHP in wildlife and humans. The present study investigated the effects of DEHP, focusing on the changes in the behavior of offspring mice at the ages of 6 and 12 w, respectively, following utero and lactational exposure to DEHP (10, 50, and 200 mg/kg/d) from gestation day 7 through postnatal day 21. The results of open field tasks showed that DEHP increased the grooming of males at age 6 w and females at age 12 w but decreased the frequency of rearing of 6-w-old females and the number of grid crossings of 12-w-old females. In the Morris water maze task, 50 and 200 mg/kg/d DEHP significantly prolonged the time of searching the hidden platform in water maze and reduced the time staying in the target quadrant during a probe trial of 6-w-old male mice, but not of 6-w-old females nor 12-w-old mice of both sexes, suggesting an impaired spatial learning and memory among younger males after perinatal exposure to DEHP. Western blot analyses further showed that DEHP at 50 and 200 mg/kg/d decreased the levels of the N-methyl-d-aspartic acid (NMDA) receptor subunits NR1 and NR2B in the hippocampus of 6-w-old males. These results suggest that uterine and lactational exposure to low doses of DEHP sex-specifically impacted behaviors, including locomotion activity and spatial memory, via the concomitant inhibition of the NMDA receptor of the hippocampus in offspring mice.     

Developmental exposure to di(2-ethylhexyl) phthalate impairs endocrine pancreas and leads to long-term adverse effects on glucose homeostasis in the rat

-Di(2-ethylhexyl) phthalate (DEHP), a typical endocrine-disrupting chemical (EDC), is widely used as plasticizer. DEHP exposure in humans is virtually ubiquitous, and those undergoing certain medical procedures can be especially high. In this study, we investigated whether developmental DEHP exposure disrupted glucose homeostasis in the rat and whether this was associated with the early impairment in endocrine pancreas. Pregnant Wistar rats were administered DEHP (1.25 and 6.25 mg·kg(-1)·day(-1)) or corn oil throughout gestation and lactation by oral gavage. Body weight, glucose and insulin tolerance, and β-cell morphometry and function were examined in offspring during the growth. In this study, developmental DEHP exposure led to abnormal β-cell ultrastructure, reduced β-cell mass, and pancreatic insulin content as well as alterations in the expression of genes involved in pancreas development and β-cell function in offspring at weaning. At adulthood, female DEHP-exposed offspring exhibited elevated blood glucose, reduced serum insulin, impaired glucose tolerance, and insulin secretion. Male DEHP-exposed offspring had increased serum insulin, although there were no significant differences in blood glucose at fasting and during glucose tolerance test. In addition, both male and female DEHP-exposed offspring had significantly lower birth weight and maintained relatively lower body weight up to 27 wk of age. These results suggest that developmental exposure to DEHP gives rise to β-cell dysfunction and the whole body glucometabolic abnormalities in the rat. DEHP exposure in critical periods of development can be a potential risk factor, at least in part, for developing diabetes.     

Specific changes in the protein composition of rat liver in response to the peroxisome proliferators ciprofibrate, Wy-14,643 and di-(2-ethylhexyl)phthalate.

The hypolipidaemic agents ciprofibrate and Wy-14,643 ([4-chloro-6-(2,3-xylidino)-2-pyrimidinylthio]acetic acid) and the phthalate-ester plasticizer di-(2-ethylhexyl)-phthalate (DEHP), like other peroxisome proliferators, produce a significant hepatomegaly and induce the peroxisomal fatty acid beta-oxidation enzyme system together with profound proliferation of peroxisomes in hepatic parenchymal cells. Changes in the profile of liver proteins in rats following induction of peroxisome proliferation by ciprofibrate, Wy-14,643 and DEHP have been analysed by high-resolution two-dimensional gel electrophoresis. The proteins of whole liver homogenates from normal and peroxisome-proliferator-treated rats were separated by two-dimensional gel electrophoresis using isoelectric focusing for acidic proteins and nonequilibrium pH gradient electrophoresis for basic proteins. In the whole liver homogenates, the quantities of six proteins in acidic gels and six proteins in the basic gels increased following induction of peroxisome proliferation. Peroxisome proliferator administration caused a repression of three acidic proteins in the liver homogenates. By the immunoblot method using polyspecific antiserum against soluble peroxisomal proteins and monospecific antiserum against peroxisome proliferation associated Mr 80000 polypeptide (polypeptide PPA-80), the majority of basic proteins induced by these peroxisome proliferators appeared to be peroxisomal proteins. Polypeptide PPA-80 becomes the most abundant protein in the total liver homogenates of peroxisome-proliferator-treated rats. These results indicate that ciprofibrate, DEHP and Wy-14,643 induce marked changes in the profile of specific hepatic proteins and that some of these changes should serve as a baseline to identify a set of gene products that may assist in defining the specific 'peroxisome proliferator domain'.