Abstract
Dichlorodiphenyltrichloroethane (DDT) is the most widespread, persistent pollutant and endocrine disruptor on the planet. Although DDT has been found to block androgen receptors, the effects of its low-dose exposure in different periods of ontogeny on the male reproductive system remain unclear. We evaluate sex steroid hormone production in the pubertal period and after maturation in male Wistar rats exposed to low doses of o,p’-DDT, either during prenatal and postnatal development or postnatal development alone. Prenatally and postnatally exposed rats exhibit lower testosterone production and increased estradiol and estriol serum levels after maturation, associated with the delayed growth of gonads. Postnatally exposed rats demonstrate accelerated growth of gonads and higher testosterone production in the pubertal period. In contrast to the previous group, they do not present raised estradiol production. All of the exposed animals exhibit a reduced conversion of progesterone to 17OH-progesterone after sexual maturation, which indicates putative attenuation of sex steroid production. Thus, the study reveals age-dependent outcomes of low-dose exposure to DDT. Prenatal onset of exposure results in the later onset of androgen production and the enhanced conversion of androgens to estrogens after puberty, while postnatal exposure induces the earlier onset of androgen secretion.
Highlights
Low-dose nonoccupational exposure to endocrine-disrupting chemicals is a global problem due to their worldwide dissemination [1,2,3]
We investigate the production of sex steroid hormones during puberty and after maturation in rats exposed to low doses of DDT, both during prenatal and postnatal development and during postnatal development alone, to differentiate the outcomes of prenatal and postnatal exposure
Relative gonad weight did not change with age in the control rats
Summary
Low-dose nonoccupational exposure to endocrine-disrupting chemicals is a global problem due to their worldwide dissemination [1,2,3]. Despite the evident toxic and carcinogenic effects of high-dose exposure, the World Health Organization later recommended the reintroduction of DDT for vector-borne disease control, as it is one of the most effective insecticides [7]. This is the background for the continuous dissemination of DDT in the environment. Its long half-life and ability to accumulate in the food chain ensures the low-dose persistence of DDT in all ecosystems of the planet and its resulting
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