Mechanisms of Suppression of Epinephrine Production in Rats by Low-Dose Developmental Exposure to DDT.

We studied the mechanisms underlying decreased production of epinephrine by adrenal glands in rats developmentally exposed to endocrine disruptor DDT was performed on the basis of assessment of morphology, fine structure, and function of the adrenal medulla and medullary cells. It was found that the main mechanisms of disruptive action of DDT leading to a decrease in epinephrine secretion into systemic circulation are a decrease in the growth rate of the adrenal medulla, a decrease in the number of mitochondria in adrenal cells, especially under the outer cytoplasmic membrane, destructive changes in mitochondria, and a progressive decrease in the synthesis of tyrosine hydroxylase. The decrease in the number of mitochondria and suppression tyrosine hydroxylase synthesis in adrenal cells predominate during the pubertal period, while slowdown of the growth of the adrenal medulla and progressive decrease in the synthesis of tyrosine hydroxylase seem to be the most evident mechanisms after puberty.

Morphological Changes in the Thymus of Newborn Rats Exposed to Endocrine Disruptor Dichlorodiphenyltrichloroethane (DDT) during the Prenatal Period.

The structure of the thymus in newborn rats exposed in utero to endocrine disruptor DDT was studied. We found that exposure to low doses of DDT during pregnancy does not disturb thymus formation in the offspring, but leads to changes in its structure than manifested as slower lobulation, wider epithelium-free areas in the cortex, and lower number of thymic corpuscles in the medulla. The results attest to sensitivity of the reticuloepithelial stroma of the thymus to the effects of endocrine disruptor.