Ronald P. Hammer

μ-Opiate receptor binding in the medial preoptic area is cyclical and sexually dimorphic

The density and distribution of mu- and kappa-opiate receptors in the medial preoptic area (MPOA) of male and female rats across the estrous cycle was examined using quantitative in vitro autoradiography of [3H]D-Ala2,MePhe4,Gly-ol5-enkephalin (DAGO), [3H]naloxone and [3H]bremazocine binding. While no difference in kappa-receptor labeling was observed across sex or estrous stage, selective mu-receptor labeling with [3H]DAGO revealed a significant variation of density and distribution in the MPOA across the estrous cycle and between sexes. A dense concentration of mu-receptors located in the central, sexually dimorphic portion of the MPOA was observed during metestrus and diestrus in females, but not during proestrus nor in males. This region appeared to be the same as that labeled similarly using [3H]naloxone. These results suggest that a regional substrate for functional activation by endogenous opioid peptides (e.g. beta-endorphin) is cyclically regulated in females, which may explain the gonadal steroid-dependent effects of MPOA beta-endorphin on lordosis and luteinizing hormone secretion in females.

Preoptic area opioids and opiate receptors increase during pregnancy and decrease during lactation

Opiate receptor and endogenous opioid content were determined in pregnant, lactating, ovariectomized, and ovariectomized and subsequently estradiol- and progesterone-treated adult female rats. Levels of estradiol and progesterone produced by Silastic capsules implanted in animals of the ovariectomized, hormone-treated group were similar to natural levels of those hormones induced during pregnancy. Quantitative receptor autoradiography and radioimmunoassay were used to determine [3H]naloxone binding density and immunoreactive beta-endorphin content, respectively, in the preoptic area of the hypothalamus. Both opiate receptor binding density and beta-endorphin content in the preoptic area varied in the same direction in all experimental groups. The highest levels of both were observed during pregnancy and the lowest levels during lactation. Ovariectomy without subsequent hormone treatment produced intermediate levels of both opiate receptor and beta-endorphin. Ovariectomy with experimentally-induced estradiol and progesterone levels similar to those of pregnancy produced opiate receptor density and beta-endorphin content similar to those observed in pregnant animals. These data suggest that gonadal steroids are capable of altering function of the endogenous opiate system in the preoptic area. Moreover, preoptic area levels of opioids and opiate receptors are normally elevated during pregnancy and reduced during lactation. Since opiates are known to disrupt ongoing maternal behavior, a reduction of preoptic opiate function during lactation may be required to promote normal maternal behavior. The specific preoptic region involved in opiate regulation of maternal behavior may be illustrated by the zone of opiate receptor alteration observed herein.

The sexually dimorphic region of the preoptic area in rats contains denser opiate receptor binding sites in females

Quantitative autoradiographic analysis of opiate receptor binding using [3H]naloxone shows higher levels in the sexually dimorphic region of the medial preoptic area in female rats than in males. Opiate receptor density varies across the estrous cycle being densest in diestrous females. The sexually dimorphic nucleus of the preoptic area lies within the opiate receptor-rich region. Endogenous opiates in the medial preoptic region acting at opiate receptors which are of differential density in males and females could influence sex-specific behavior mediated by the region.

Effects of opiates on neuronal development in the rat cerebral cortex

Quantitative morphological characteristics of cells in the primary somatosensory cortex of 6-day-old rats were examined following continuous maternal administration of morphine (10 mg/kg/day), naltrexone (10 mg/kg/day), or saline vehicle from gestation day 12. Naltrexone reduced neuronal packing density and significantly increased cortical thickness but had not effect on neuronal number, while morphine reduced neuronal packing density and the number of neurons without affecting cortical thickness. These results suggest that blockade of endogenous opioid function during development enhances neuronal maturation in this brain region, while perinatal morphine administration might act to restrict cortical cell proliferation and maturation. Thus, the effect of ontogenetic activation of opioid receptors by endogenous opioid compounds could be similar to but less severe than the effect of exogenous opiate exposure on cortical cell development.

The sex hormone-dependent development of opiate receptors in the rat medial preoptic area

The opiate receptor content of the sexually dimorphic medial preoptic area (MPOA) was examined in newborn and 5-day old (D6) male and female rats. A significant increase of [3H]naloxone binding was observed in and around the sexually dimorphic nucleus of the preoptic area (SDN-POA) in D6 female rats, relative to newborn females. Opiate receptor labeling did not increase over this period in males, nor was labeling different between males and females at birth. This dramatic alteration of MPOA opiate receptor content was observed to occur in either sex in the absence of testosterone postnatally; that is, neonatally-castrated males exhibited the same increase of labeling by D6 as did normal females. Conversely, daily postnatal testosterone treatment of females from birth to D6 resulted in the development of male-like MPOA opiate receptor pattern. The sex hormone-dependence of MPOA opiate receptor development is discussed in relation to the sex hormone-dependent ontogeny of SDN-POA structure. The overlap of critical periods for the development of these structural and chemical sexual dimorphisms suggests a role for endogenous opioids in modulating MPOA development.

Perinatal opiate treatment delays growth of cortical dendrites

Basilar dendritic arborizations of layer II-III pyramidal neurons in primary somatosensory cortex of 5-day-old male rats were reconstructed following perinatal morphine, morphine/naltrexone, or saline vehicle administration. Morphine treatment was observed to reduce total dendritic length. This effect was limited to higher order dendritic branches, with terminal dendrites manifesting the greatest reduction of length. The action of morphine was presumably mediated by opiate receptors, since concurrent naltrexone administration completely reversed morphine effects on dendritic length and branching. These results suggest that opiates act during late ontogenesis to affect dendritic growth in cerebral cortex.

Δ9-Tetrahydrocannabinol alters cerebral metabolism in a biphasic, dose-dependent mannier in rat brain

Abstract Δ 9 -tetrahydrocannabinol (THC)-induced alterations in limbic and neocortical function are associated with deficiencies in short-term memory and recall. The 2-deoxy-D-glucose (2DG) autoradiographic method was used to examine the effect of acute THC administration (0, 0.2, 0.5, 2.0, 10.0 mg/kg) on regional brain metabolism in limbic and cortical brain regions of male rats. THC altered 2DG uptake in a biphasic, dose-dependent manner in most limbic and cortical structures, however most diencephalic and brainstem structures examined were unaffected. The 0.2 mg/kg THC dose significantly increased 2DG uptake relative to vehicle treatment in ail cortical and selected limbic regions, whereas the 2.0 and 10.0 mg/kg THC doses decreased 2DG uptake in most of these regions. Certain limbic regions, particularly the hippocampus, are more sensitive to THC suggesting a selective regional action of the drug at lower doses. The incidence of enhanced metabolic activity in limbic and cortical regions is consistent with the occurrence of high density cannabinoid receptors in these regions.

Gestational cocaine exposure increases opiate receptor binding in weanling offspring

The use of cocaine during pregnancy produces a variety of adverse effects in offspring. Gestational cocaine exposure is known to affect developing dopamine systems, but other neurochemical systems may also be at risk. Regional density of opiate receptors labeled with [3H]naloxone was examined in the brains of 21-day-old male rats exposed to cocaine (0, 10, 20, or 40 mg/kg/day s.c.) between gestation days 8 and 20. Gestational cocaine exposure significantly increased labeling in a dose-dependent fashion in dopaminergic terminal (e.g. the nucleus accumbens, medial prefrontal cortex, olfactory tubercle, and caudatoputamen), limbic (e.g. basolateral amygdaloid nucleus, lateral habenula, hippocampus, dentate gyrus, entorhinal and cingulate cortices) and neocortical (e.g. somatosensory and motor cortices) regions, but had little effect in diencephalic or brainstem regions. The results suggest a functional linkage whereby drug-induced alteration of dopamine systems can regulate developing opioid systems in the brain. Moreover, gestational cocaine exposure produced long-lasting changes of opiate receptor labeling in certain brain regions. The implications of these results are uncertain. However, such effects on endogenous opioid systems could contribute to a developmental delay, cognitive or motor dysfunction.

Parity-associated alterations of medial preoptic opiate receptors in female rats.

Preoptic area opiate receptor density was measured by quantitative autoradiography using [3H]naloxone in female rats during their first and second pregnancies and lactations and in a separate group of ovariectomized, nulliparous animals. Opiate receptor density in the medial preoptic area (MPOA) was elevated on day 12 of gestation in both primigravid and multigravid rats when compared with ovariectomized subjects. MPOA receptor density was reduced in primiparous mothers on day 5 of lactation relative to pregnancy. In contrast, receptor density in the MPOA did not decline in multiparous (second lactation) rats relative to pregnancy levels. Opiate receptor density was significantly higher on day 5 of lactation in multiparous than in primiparous mothers. No difference in receptor density was detected in the adjacent lateral preoptic area among the treatment groups. An examination of hormone titers revealed that basal prolactin levels were significantly higher in primigravid than multigravid rats, and that during lactation prolactin titers were negatively correlated with MPOA opiate receptor density in the primiparous mothers. The data demonstrate that multiple pregnancies and lactations result in changes of MPOA opiate receptor density and of circulating hormone levels. The findings are discussed in terms of the concurrent changes in neural opiate sensitivity associated with multiparity.

Regional dependence of morphine-induced μ-opiate receptor down-regulation in perinatal rat brain

The effect of perinatal morphine administration was examined in various brain regions using in vitro receptor autoradiography. Morphine was administered by continuous s.c. infusion of 10 mg/kg per day; brains of offspring were examined at five days of age. Morphine exposure reduced mu-receptor binding density in the preoptic area of hypothalamus, but not in the primary somatosensory cortex. mu-Receptor density was greater in the medial preoptic area of females than males, and in superficial layers of cortex in males than females. The results suggest that morphine has selective regional effects on mu-receptor ontogeny in rat brain.