Influence of hormonal contraceptives on the pituitary response to LH/FSH-releasing hormone.

In the pre-ovulatory phase the absolute and relative LH increase was much greater than during the luteal phase and less pronounced in the early follicular phase of the normal cycle. FSH release was affected only during the pre-ovulatory period, where a retarded, 3- or 4-fold increase compared to basal levels was recorded. In the women taking oral contraceptives of the conventional type the first LH-RH test showed gonadotropin responses similar to those obtained during the luteal phase of the controls. The second test brought a significantly lower LH response, suggesting an increasing exogenous steroid inhibition at the pituitary level in the course of the therapeutic cycle. This inhibition seems to be reversed during the monthly tablet-free interval. A particularly small and retarded gonadotropin response was observed in patients taking Deposiston. These results are discussed as to their clinical significance.     

Influence of receptor formation and receptor movement inhibitors on hormonal imprinting in cell culture

Hormonal imprinting takes place at the first interaction of the cell with the adequate hormone, and exerts a lasting influence on cellular binding capacity and functional response over many subsequent cell generations. Hormonal imprinting can also be induced in cell lines. In a Chinese hamster ovary (CHO K1) cell line, inhibitor of endocytosis and cellular protein synthesis inhibited hormone binding in themselves, and in cultures preexposed to TSH they inhibited imprinting by TSH in a dose-dependent manner. The protein synthesis inhibitor cycloheximide and the microfilament de-organizing agent cytochalasin-B inhibited imprinting by TSH to a greater degree than all other inhibitors tested, indicating that apart from cellular binding capacity, unimpaired cellular protein synthesis and microfilament activity are essential prerequisites of hormonal imprinting.     

Impact of starvation on hormone binding and hormonal imprinting in Tetrahymena.

Tetrahymena cells maintained (starved) in a physiological salt solution showed a considerable decrease in insulin binding capacity. The cells previously imprinted with insulin showed a comparable relative binding decrease after a similar exposure. This change was reversible by prolonged maintenance in plain nutrient medium after which the binding capacity of the imprinted cells increased appreciably over the control. The cells maintained (starved) in salt solution for 2 h were no longer imprintable with insulin; it follows that prolonged starvation not only reduced the recognition potential, but also extinguished the imprintability of Tetrahymena cells.     

Impact of combined hormonal pretreatment (insulin+TSH) on the imprinting of hormones administered in combination to Chinese hamster ovary cell culture.

Cultured Chinese hamster ovary (CHO) cells were treated (imprinted) with insulin and with thyrotropin (TSH) related to gonadotropins (FSH+LH). When one week later the treatment was repeated with one of the hormones, considerable differences could be observed in the binding capacity of the cells. In the hormone combination TSH was able to evoke persistent imprinting only to a markedly lesser degree than insulin, meanwhile the imprintatory effect of insulin was of greater extent even on the cell regarded to be unspecific for insulin. Hormone treatment of one hour duration--when investigated immediately after--did not extinct the binding capacity to TSH but enhanced that to insulin. With the deterioration of the conditions of culturing, the enhanced binding capacity disappeared.     

Selective and/or overlapping effect of pituitary hormones (thyrotropin, gonadotropin) on serum thyroxin and testosterone level in newly hatched cockerels

Follicle-stimulating hormone and thyrotropin administered perinatally to cockerels have an overlapping effect on the testis and on the thyroid gland. Both hormones when given in one single dose considerably increased the serum level of both thyroxin and testosterone. In the case of chronic treatment performed in the perinatal period, the thyroxin level will similarly increase, though to a smaller extent, while the testosterone level decreases. The experiments studying the direct effect on hormone secretion proved the overlapping effect of the hormones in the perinatal period.     

Effect of the cAMP level on hormonal imprinting in Tetrahymena

Augmentation of the cAMP level has no positive effect on hormonal imprinting in Tetrahymena. Artificial elevation of the cAMP level may inhibit the development of imprinting or may result in abnormal imprinting. The role of Ca2+ is of great importance in mediation of the imprinting mechanism. Generally, this role is not influenced by an elevated cAMP level but, exceptionally, the latter may effect the mechanism of imprinting.     

Influence of deciliation and ciliary regeneration on hormonal imprinting in Tetrahymena. Observations on the 'localization' of imprinting

Imprinting induced in Tetrahymena with insulin is not abolished by deciliation. No imprinting occurred in deciliated cells exposed to insulin at 1 or 2 h of regeneration. However, imprinting did occur if Tetrahymena was exposed to insulin after 3 h of regeneration. It appears that while presence of cilia is a prerequisite of imprinting, the pertinent information is not, or not exclusively stored in the cilia.     

Influence of enkephalins on the ACTH-induced hormonal imprinting in tetrahymena

Both adrenocorticotrop hormone (ACTH) and the synthetic enkephalins investigated evoked imprinting in Tetrahymena and led to increased hormone binding at further contact with ACTH. Neither molecule evoked, however, imprinting for the enkephalins. The pentapeptide enkephalin containing also proline had the most pronounced imprinting effect and, when given together with ACTH, it increased the imprintatory effect of ACTH considerably. In all the situations investigated the enkephalin tetrapeptide inhibited the positive effect of the enkephalin pentapeptide, whereas it did not influence the imprintatory effect of ACTH. Similarities can be found between the pharmacological and imprinting effects of enkephalin in mammals, and the effects seen in the present investigations.     

Data on the evolution of hormones. Investigations on imprinting evoked by oligopeptides exhibiting no hormonal activity

According to the present state of art, imprinting can also be evoked by di-, tri-, tetra- and heptapeptides exhibiting no hormonal activity, i.e., pretreatment with some of the oligopeptides leads to an enhancement of further hormone binding. Administration of symmetric and asymmetric molecules containing alanine resulted in positive, and negative imprinting respectively. The length of the molecule had no effect on the possibility of imprinting to develop. At the same time, the extent of imprinting evoked by molecules having no hormonal activity was approximately half of the imprinting seen in previous experiments when molecules having hormonal activity were applied. This observation indicates that in the phenomenon of development into a hormone the ability to evoke imprinting (to develop receptor memory) may be important. Thus, the development into a hormone is not an accidental event.     

Taxon-dependence of receptor level cell-to-cell communication in Tetrahymena: possible explanation for the transmission of hormonal imprinting

Insulin treatment induced in Tetrahymena pyriformis a positive hormonal imprinting, and in Tetrahymena thermophila a negative imprinting, resulting in increased and decreased binding capacity, respectively, at re-exposure to the hormone. The imprinting, or the information associated with it, is transferred by the nutrient medium of the insulin-treated cells to those not treated. The issue of transfer depends on the nature of the receiver taxon, leading always to a positive imprinting in Tetrahymena pyriformis, and to a negative imprinting in Tetrahymena thermophila, regardless of the nature of the 'imprinted' transmitter taxon. The findings substantiate the transferability of hormonal imprinting by the nutrient medium at the unicellular level, the key role of the postreceptorial mechanism in determining the trend of imprinting and may explain the persistence of imprinting in the progeny generations.     

Influence of hormone treatment applied or begun in different phases of the cell cycle on hormonal imprinting in Tetrahymena

Primary exposure to a hormone (hormonal imprinting) alters--in the case of the Tetrahymena increases--cellular response to re-exposure(s) to the same hormone. The intensity of hormonal imprinting depends on the phase of the cell cycle in which the primary exposure has taken place. The effect of imprinting was greater on the cells exposed to the hormone in phase G1 than on those exposed in phase S or G2. The response pattern of the progeny generations corresponded to that of the primarily exposed (imprinted) ancestor cell, irrespective of their own pre-exposure in phase G1, G2 or S of their cycle.     

Transgenerational effect of neonatal vitamin A or D treatment (hormonal imprinting) on the hormone content of rat immune cells.

Male offspring of neonatally vitamin A or D treated (hormonally imprinted) rat dams were studied for hormone (adrenocorticotrophine [ACTH], beta-endorphin, histamine, triiodothyronine [T3]) content in immune cells, by using immunocytochemical methods for flow cytometry and confocal microscopy. ACTH and T3 were almost doubled in the lymphocytes of vitamin A treated mothers' offspring, while histamine decreased to a one-third in the histamine content of vitamin D treated mothers' offspring. Part of the animals received vitamin treatment again 24 hours before measurement, however, only endorphin content elevated moderately. In the offspring of untreated dams administered with vitamin D 24 hours before measurement, each cell type studied (lymphocyte, monocyte-granulocyte group, mast cell) had a one-third lower T3 content, which shows that vitamin D treatment can influence hormone content of immune cells. The experiments call attention to the transgenerational effect of perinatal treatment with lipid-soluble, intracellular receptor-bound vitamins.     

Hormonal imprinting and damages caused by fetal steroid treatment. Influence of fetal treatment with pregnancy-protecting steroids (allylestrenol, diethylstilbestrol) on the effect of gonadotropin administered to cockerels perinatally and at the age of six weeks

Single fetal (9th day) treatment with either diethylstilbestrol (DES) or allylestrenol (AE) caused a considerable decrease, both at the age of five days and six weeks, in the weight of the testicles and the diameter of the seminiferous cords, while the ratio of spermatogonia to primary spermatocytes increased. When measured either at the age of five days or six weeks, gonadotropin treatment [a combination of follicle stimulating hormone (FSH) and luteinizing hormone (LH)], administered twice daily for three days after the hatching, led to an increase in the above-mentioned parameter and to a shift in the cell ratio towards the control value. However, the absolute value of the controls treated with FSH-LH was by far not reached. The effect of perinatal treatment could be detected even in adulthood, namely, at the age of five days the response capability was relatively weak in the cockerels treated with DES and AE, while high responsiveness was observed at the age of six weeks. In some cases the relative value of the increment exceeded even that of the control; however in absolute term it was well below the control. On the basis of these experiments it might be concluded that hormonal imprinting evoked by FSH-LH treatment also occurs in the gonad damaged by DES and AE. The setting in of imprinting ameliorates the damages caused by DES and AE and increases the response capability of the cells.     

Effect of gonadotropin-releasing hormone on estrogen receptor messenger ribonucleic acid level in perifused pituitary cells

Summary 1. We examined the potential effect of GnRH pulses on pituitary estrogen receptor mRNA level.2. The treatment of perifused pituitary cell aggregates with four hourly pulses of GnRH (10 nM/1 min/h) resulted in a marked increase in the steady-state level of ER mRNA (25%vs unstimulated control, n = 3).3. No changes were observed for the LH ß mRNA. Data suggest, for the first time, that a cross-talk between the GnRH and nuclear ER may occur in the gonadotrope cells.     

Influence of yohimbine on release of anterior pituitary hormones

We used a double-blind crossover design to study the effects of alpha 2 adrenoreceptor blockade with yohimbine on levels of anterior pituitary hormones. A dose of yohimbine was used which raised plasma norepinephrine from 379 +/- 74 (S.E.) to 730 +/- 143 pg/ml and mean arterial pressure from 83 +/- 4 to 92 +/- 5 torr (p less than 0.025). This dose (125 micrograms/kg, then 1 microgram/kg/min) also altered mood when compared to saline infusion. In spite of these changes, when prolactin, cortisol, ACTH, beta-endorphin, TSH and growth hormone were measured after 45 minutes of yohimbine infusion, no changes from baseline were noted. These data suggest that in normal man, at rest, alpha 2 adrenoreceptors in the hypothalamus, adenohypophysis or other brain areas do not tonically modulate release of these hormones into the blood.