Binding characteristics of hypothalamic mu opioid receptors throughout the estrous cycle in the rat.

This study presents a detailed analysis of the binding characteristics of hypothalamic mu opioid receptors during the different phases of the estrous cycle of the female rat. Different groups of adult female rats with a regular 4-day estrous cycle were killed by decapitation at 10.00 h of diestrus days 1 and 2, at 10.00, 12.00, 14.00, 16.00, 18.00 and 20.00 h of the day of proestrus and at 10.00, 12.00, 14.00, 16.00 and 18.00 h of the day of estrus. At sacrifice, the hypothalami of the animals were dissected out, plasma membrane preparations were obtained and the binding characteristics (Bmax, Kd) of the specific mu opioid ligand dihydromorphine (DHM) on mu opioid receptors were evaluated. Blood has been collected from the trunk vessels to monitor with specific radioimmunoassays serum levels of LH, estradiol and progesterone. The data obtained indicate that in the hypothalamus of female rats with a regular 4-day estrous cycle, the binding characteristics of DHM for mu receptors show important variations during the different phases of the estrous cycle. In general, the number of mu opioid receptors is elevated during the morning of diestrus day 2 and during the day of proestrus being maximal at 14.00 h and declining significantly at 18.00 and 20.00 h of the same day. At estrus, the number of mu receptors appears high at 10.00 and 16.00 h and low at 12.00, 14.00 and 18.00 h. All these variations take place without any significant change of the affinity (Kd) of DHM for the mu receptors.(ABSTRACT TRUNCATED AT 250 WORDS)

Testosterone and postnatal ontogenesis of hypothalamic mu ([3H]dihydromorphine) opioid receptors in the rat.

Brain opioids modulate the activity of the hypothalamo-pituitary complex by binding to specific receptors which have been subdivided at least into 3 subclasses (mu, kappa, delta, etc). mu-Receptors and their ligands seem to be particularly involved in the control of gonadotropin and prolactin release. It is known that the neuroendocrine system, as well as the brain opioid systems and their receptors, are not fully mature at birth; it is also known that the postnatal maturation of many brain machineries is under the control of androgens secreted by the developing testes. Consequently, it has been investigated whether the presence or the absence of testosterone at time of birth may induce changes of the binding characteristics of hypothalamic mu-opioid receptors. The experiments have been performed by evaluating the maximal binding capacity (Bmax, an index of the number of receptors), and the affinity constant (Ka) of the specific mu-ligand dihydromorphine in hypothalamic plasma membrane preparations derived from normal male rats, normal female rats, male rats orchidectomized 2 days after birth and female rats treated 2 days after birth with 1.25 mg of testosterone propionate. Animals belonging to the 4 groups were killed at days 16, 26 and 60 of age. The results obtained show that, at 16 days of age, in the 4 groups of rats the number of hypothalamic mu receptors is identical. At 26 days a significant increase in the number of mu-receptors occurs in normal female animals, while their levels remain similar to those found at 16 days in the other 3 groups of animals. At 60 days of age, the number of mu-receptors in normal females remains elevated, while the number of mu-receptors increases to reach normal female levels in the hypothalamus of neonatally castrated males. At 60 days, there were no changes in normal males or in androgenized females. The variations here reported took place without any change of the Ka of dihydromorphine for the mu-receptors. These data show a sexual dimorphism of hypothalamic mu-receptors and suggest that their ontogenetic development may be linked to the presence or the absence of androgens at time of birth.

Hypothalamic opiatergic tone during pregnancy, parturition and lactation in the rat.

The concentrations of beta-endorphin have been shown to change in the rat brain during pregnancy and lactation. This study has been performed in order to analyze whether also brain opioid receptors might undergo significant modifications during these two physiological situations. The maximal binding capacity (Bmax) and the constant of affinity (Ka) of the mu-subpopulation of opioid receptors have been evaluated in the hypothalami of female rats at different stages of pregnancy (7, 15 and 22 days), on the day of parturition (12-18 h after delivery) and 6-8 days postpartum (both in lactating and in nonlactating animals). Female rats killed on the day of estrus served as controls. The receptor binding assay has been performed utilizing [3H]-dihydromorphine [( 3H]-DHM) as the ligand for the mu-opioid receptors. Hypothalamic concentrations of beta-endorphin as well as serum levels of luteinizing hormone (LH), follicle-stimulating hormone (FSH) and prolactin have also been evaluated by radioimmunoassay. The results showed that the concentration of hypothalamic mu-opioid receptors increased during pregnancy, being significantly higher than in the controls at days 15 and 22 of gestation. After delivery, the concentration of these receptors returned towards control values, regardless on whether the animals were lactating or not. The Ka values of [3H]-DHM for the mu-receptors did not change significantly in the different groups of experimental animals. Hypothalamic beta-endorphin content showed a modest though not significant increase at the end of gestation (day 22) and returned to control values 12-18 h after delivery.(ABSTRACT TRUNCATED AT 250 WORDS)

Modulation of the binding characteristics of hypothalamic mu opioid receptors in rats by gonadal steroids.

Recent evidence suggests that the effects of the opioids on gonadotropin release may depend on the endocrine status existing in the experimental animal. In the brain, the effects of the opioids are exerted through the interaction with different classes of opioid receptors (mu, delta, kappa, etc.). Among these, the mu receptors appear to be particularly relevant to the control of gonadotropin secretion. Different groups of experiments have been performed in the rat in order to analyze whether changes of circulating levels of sex steroids may have an impact on the binding characteristics of hypothalamic mu opioid receptors, as evaluated by a receptor binding assay performed on plasma membrane preparations, using [3H]dihydromorphine as a mu ligand. In a first series of experiments, it has been observed that the ontogenesis of hypothalamic mu opioid receptors is different in male and in female rats: the concentration of mu sites, similar in animals of the two sexes at 16 days of age, increases in females, but not in males, between day 16 and day 26 of life. This sexual difference persists in 60-day old animals, when the brain is fully mature. It has also been observed that the pattern of maturation of hypothalamic mu receptors can be reversed by neonatal castration of males and by neonatal testosterone treatment of females. In a second series of experiments, it has been shown that in the hypothalamus of regularly cycling female rats the concentration of mu receptors varies during the different phases of the estrous cycle. In particular, a rather high density of mu sites during diestrus day 2 and the morning of the day of proestrus was found; this is followed by a progressive decline during the afternoon of the day of proestrus and the day of estrus, with a minimum value of the concentration of mu receptors being recorded in the first day of diestrus. These fluctuations seem to be linked to the physiological changes of serum levels of ovarian steroids: in fact, in a third series of experiments, it has been found that the positive feedback effect on LH release, exerted by the treatment of ovariectomized female rats with estrogens plus progesterone, is accompanied by a significant decrease of the concentration of hypothalamic mu opioid receptors; treatments with estrogens alone, able to induce a negative feedback effect on LH secretion, are not associated with modifications of hypothalamic mu receptors. These data seem to indicate that hypothalamic mu receptors may be involved in the positive but not in the negative feedback control of LH secretion.(ABSTRACT TRUNCATED AT 400 WORDS)

Aging and the hypothalamo-pituitary-testicular axis in the rat.

Several experiments have been performed in order to clarify the mechanisms through which aging in male rats brings about profound modifications of the neuroendocrine system (reduced pulsatile secretion of LH and FSH, decreased serum levels of gonadotropins and testosterone, etc.). (1) It has been found that the number of mu opioid receptors decreases significantly in the hypothalami of old male rats; the substitution therapy with testosterone is ineffective in increasing the number of mu opioid receptors. These data suggest that the decrease of hypothalamic mu opioid receptors is not due to a decline of serum testosterone levels, but appears to be an independent phenomenon. (2) K opioid receptors increase significantly in the amygdala and in the thalamus of old male rats. These results show that aging, in addition to mu receptors, affects also the number of K receptors in selected areas of the brain. The increase of the number of K receptors in the amygdala might have some bearing on the decrease of serum gonadotropins observed in aged rats, since the amygdala is involved in the nervous circuitry influencing the hypothalamo-pituitary-gonadal axis. (3) The study of the release of LHRH from the hypothalamus of old male rats with an in vitro perfusion system shows that the release of the hormone is comparable in young and old animals, both in basal and in K+ stimulated conditions. These results indicate that the hypothalamus of old male rats retains the capacity of releasing LHRH both in basal and in stimulated conditions. (4) It has been observed that the number of LHRH receptors at the level of the anterior pituitary is significantly reduced in old male rats. This finding might explain the low serum levels of gonadotropins and testosterone in aged rats, due to a lack of an adequate response of the pituitary to hypothalamic LHRH.

Decrease of mu opioid receptors in the brain and in the hypothalamus of the aged male rat.

Experiments have been designed in order to analyze whether the binding capability of mu opioid receptors in the brain of the male rat is modified by age. In a first experiment, the number of receptors (Bmax) and the constant of affinity (Ka) for the mu ligand 3H-dihydromorphine (3H-DHM) have been measured in the whole brain of male rats of 2, 15 and 22 months of age. In a second experiment the Bmax and the Ka for 3H-DHM have been evaluated in the hypothalamus of male rats of 2 and 22 months of age. In this experiment it was also investigated whether the administration of exogenous testosterone modifies the number and/or the affinity of the hypothalamic mu receptors. Serum levels of LH, FSH, prolactin and testosterone have been measured by specific RIAs. The results obtained show that: serum testosterone levels are significantly decreased in aged rats, while serum LH and FSH show only a small decline; serum prolactin is higher in old than in young animals; the number of mu receptors in the whole brain of 15 and 22 month old animals and in the hypothalamus of 22 month old rats is significantly lower than in the same tissues of young animals; the administration to old animals of testosterone, in doses able to bring back towards normal serum levels of testosterone, induces a decrease of LH and FSH, but has no effect on serum prolactin titers. Testosterone administration does not modify the number of hypothalamic mu opioid receptors, indicating that the decline of brain mu receptors in old animals is not the consequence of the physiological decline of testosterone secretion; in no instance the Ka for the mu ligand is significantly affected.

Is the 5 alpha-reductase of the hypothalamus and of the anterior pituitary neurally regulated? Effects of hypothalamic deafferentations and of centrally acting drugs.

The following experiments have been performed in order to verify whether the conversion of testosterone into its 5 alpha-reduced metabolites, 5 alpha-androstane-17 beta-ol-3-one (DHT), 5 alpha-androstane-3 alpha,17 beta-diol (3 alpha-diol) and 5 alpha-androstane-3 beta,17 beta-diol (3 beta-diol), in the hypothalamus and in the anterior pituitary is controlled by neural stimuli. Long-term castrated male rats have been submitted to anterior and total deafferentations of the hypothalamus and to the administration of the following centrally acting drugs: reserpine, p-chlorophenylalanine pCPA and atropine sulphate. The possible involvement of the central opioid system has also been investigated utilizing morphine and naloxone. Neither hypothalamic deafferentations, nor the treatment with reserpine, pCPA, atropine, morphine or naloxone produce any significant modification in the metabolism of testosterone in the hypothalamus. Hypothalamic deafferentations and treatments with reserpine, morphine and naloxone are also ineffective in changing the pattern of testosterone metabolism in the anterior pituitary. On the contrary, atropine and pCPA seem to affect the conversion of testosterone in the gland, both drugs producing an increased formation of DHT and 3 alpha-diol but not of 3 beta-diol. It is concluded that the 5 alpha-reductase-3-hydroxysteroid-dehydrogenase system of the hypothalamus does not appear to be controlled either neurally by inputs coming from other brain structures, or by variations of the neurotransmitter content in the hypothalamus itself. Serotonin and acetylcholine seem to participate in the control of testosterone metabolism at pituitary level, even if it is not clear whether their action takes place directly on the gland, or is mediated through some hypothalamic factor(s). Moreover, it does not appear that brain opioids are involved in the control of the enzymatic complex under consideration either in the hypothalamus or in the anterior pituitary.

Role of the organum vasculosum laminae terminalis in the control of gonadotrophin secretion in rats.

The organum vasculosum laminae terminalis (OVLT) was destroyed by radiofrequency lesions in regularly cycling and in long-term ovariectomized adult rats. After OVLT lesion practically all cyclic females (16 out of 22) became dioestrous, as indicated by vaginal smears. At the time of killing these animals (8 days after the lesion) serum LH levels were undetectable, while serum FSH was as low as in cyclic animals in dioestrus. In the few OVLT-lesioned animals which exhibited some sort of oestrous cyclicity, serum LH showed a small subphysiological increase at pro-oestrus; this was not accompanied by a parallel increase in serum FSH and in these animals a delayed peak of FSH occurred on the day of oestrus. Ovariectomized rats bearing OVLT lesions had serum titres of Lh and FSH as high as those of ovariectomized control rats. It is suggested that the OVLT may play a role in the control of the cyclic release of gonadotrophins but is not involved in the tonic regulation of gonadotrophin secretion.