Molecules acting on receptor level at weaning, durably influence liver glucocorticoid receptors.

In the experiments the effect of late hormonal imprinting to the liver glucocorticoid receptors were studied. Three-week-old (weanling) female rats were treated with five molecules acting at receptor level and four weeks later receptor kinetic analysis was done on liver glucocorticoid receptors. The tricyclic antidepressant, histamine and serotonin receptor blocker mianserin positively influenced receptor density and negatively receptor affinity. Vitamin D3 and the environmental pollutant benzpyrene elevated receptor density. Mifepristone (RU 486) which is bound by progesterone- and glucorticoid-receptor without postreceptorial effects was ineffective as well, as the H1 receptor blocker chlorpheniramine. The results demonstrate that receptor-level-acting foreign molecules can durably influence the binding capacity of glucocorticoid receptors, however, this is not a general phenomenon and it is not dependent on the type of receptors (membrane or cytosol). Those molecules were effective which 1. have receptor in the same receptor family (vitamin D3) and have postreceptorial effect, or 2. have a structure similar to steroids (benzpyrene) or 3. deeply influenced steroid receptors in earlier experiments (mianserin). This effect should be considered before administering such type of medicaments.

Effect of treatment at weaning with the serotonin antagonist mianserin on the brain serotonin and cerebrospinal fluid nocistatin level of adult female rats: a case of late imprinting.

Four weeks old (weanling) female rats were treated with the tricyclic antidepressant and histamine/serotonin receptor blocker mianserin for studying its faulty hormonal imprinting effect. Measurements were done four months later. Brain serotonin levels significantly decreased in four regions (hippocampus, hypothalamus, striatum and brainstem), without any change in the cortex. Sexual activity of the treated and control rats was similar. Cerebrospinal fluid nocistatin level was one magnitude higher in the treated rats, than in the controls. The density of uterine estrogen receptors was significantly reduced, while binding capacity of glucocorticoid receptors of liver and thymus remained at control level. The results call attention to the possibility of 1. a broad spectrum imprinting at the time of weaning by a receptor level acting non-hormone molecule 2. imprinting of the brain in a non-neonatal period of life and 3. a very durable (lifelong?) effect of the late imprinting with an antidepressant.

Impact of single neonatal serotonin treatment (hormonal imprinting) on the brain serotonin content and sexual behavior of adult rats.

Hormonal imprinting takes place perinatally at the first encounter between the developing receptor and its target hormone. As a consequence of imprinting the receptor accomplishes its maturation and reaches the binding capacity characteristic to the adult age. In the excess of target hormone or presence of molecules similar to the target hormone, which are able to bind to the unmatured receptors, faulty imprinting develops with life-long consequences. At present, serotonin was given to neonatal rats and their sexual activity, brain serotonin level and steroid receptor's binding capacity was measured in adult age. Brain serotonin level was significantly reduced in male's striatum and parallel with this, male's sexual activity significantly increased. In other regions of the male brain (prefrontal cortex, hypothalamus, hippocampus) there was a statistically non-significant tendency for a decrease in serotonin level. No significant differences were detected in female brain values, and there was only slight change in female's sexual activity. There was also no change in the binding capacity of thymic glucocorticoid and uterine estrogen receptors. The experiments call attention to the possibility of perinatal imprinting by a neurotransmitter causing changes in brain neurotransmitter level for life, which is manifested in altered sexual activity.

H1-receptor blocker antihistamine, terfenadine durably influences the glucocorticoid receptor, and lymphocyte histamine content of weanling rats.

Hormonal imprinting takes place perinatally when a hormone and its maturing target receptor meet. As a consequence of imprinting the receptor accomplishes its maturation reaching the binding capacity characteristic to the adult age. In this critical period the presence of foreign molecules which are able to bind to the receptor can cause faulty imprinting with life-long consequences. In the recent years it was cleared that not only receptors are influenced by faulty imprinting, however, also the hormone production of the given cell. In addition imprinting was provoked at non-perinatal periods (adolescence and adult age) in cytogenic organs. In the present experiment the prolonged effect of a non-perinatal imprinting by an antihistamine to the histamine content of white blood cells and glucocorticoid receptors of liver and thymus was studied. Two weeks after 3-day terfenadine treatment at weaning, flow cytometry of peritoneal cells and blood lymphocytes for histamine, and receptor kinetic analysis of dexamethasone binding were done. Histamine content of blood lymphocytes and glucocorticoid receptor density of liver cells were significantly decreased. This means that a short treatment with a H(1)-receptor blocker antihistamine durably influences physiological indexes which were not known till now. This means that not only the acute effects, but the prolonged side-effects must be considered.

Effect of neonatal beta-endorphin imprinting on sexual behavior and brain serotonin level in adult rats.

A single dose (3 microg) beta-endorphin was administered to newborn female and male rats (hormonal imprinting). In adult age (at 5 months) sexual behavior, steroid hormone binding capacity and brain serotonin content was studied. Females' sexual activity (lordosis quotient) significantly decreased and more animals protested against mounting (ratio of kicking and crying 21/24 vs. 8/24; p < 0.001). Males' sexual activity did not change, however more males were aggressive (4/10 vs. 1/10). Uterine estrogen receptor density significantly increased and affinity decreased. There was no change in the binding capacity of thymic glucocorticoid receptors. In the brain, five regions were studied for serotonin content. There was a gender difference in serotonin level and the intragroup differences were also high. In the endorphin treated males the serotonin level was significantly lower than in the controls. In the endorphin treated females the intragroup scattering has been significantly reduced. Nociceptin content of the cerebrospinal fluid was not changed. The experiments call attention to the possibility of adjustment of sexual and behavioral sphere by the individually different endorphin surge during labor.