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1.
The sexually dimorphic nucleus of the preoptic area (SDN-POA) is larger in male than in female rats, the male phenotype requiring the presence of circulating androgens perinatally. These experiments investigated the intracellular electrophysiology and morphology of SDN-POA neurons and compared these properties with those of other medial preoptic area (MPOA) neurons. Biocytin-injected cells in the SDN-POA either had one or two primary dendrites, or they had multipolar dendritic arrays; dendrites were aspiny or sparsely spiny and displayed limited branching. Neurons in other parts of the MPOA were similar morphologically. Regardless of morphology, neurons situated in either the SDN-POA or surrounding MPOA had low-threshold potentials and linear or nearly linear current-voltage relations. In most (73%) cells, stimulation of the dorsal preoptic region evoked a fast excitatory postsynaptic potential followed by a fast inhibitory postsynaptic potential (IPSP). Bicuculline blocked the fast IPSPs, which reversed near the Cl2 equilibrium potential (-71 ± 5mV), indicating their mediation by gamma-aminobutyric acid (GABA)A receptors. Neurons in the SDN-POA have electrophysiological properties similar to those of other medial preoptic cells. When compared with the hypothalamic paraventricular nucleus, the MPOA appears relatively homogeneous electrophysiologically. This is despite the morphological variability within this population of neurons and heterogeneities that are also apparent at other levels of analysis. Finally, GABA-mediated, inhibitory synaptic contacts are widespread among medial preoptic neurons, consistent with indications from earlier reports that GABA provides a link in the feedback actions of gonadal steroids on the release of gonadotropic hormones. © 1994 Wiley-Liss, Inc.  相似文献   

2.
A high percentage of galanin-immunoreactive (GAL-I) cells within sexually dimorphic components of the medial preoptic area (MPOA) of the rat also concentrate estrogen and GAL microinjected within the medial preoptic nucleus (MPN) facilitates masculine sexual behavior after testosterone priming. Thus, we determined the distribution of GAL-I cells within the MPOA and their response to gonadal steroids. We report significantly greater numbers of GAL-I cells within the central division of the medial preoptic nucleus (MPNc) and fewer within the anteroventral periventricular nucleus (AVPv), of the gonadectomized male than the gonadectomized female; that GAL-I cell numbers and densities within the AVPv are increased significantly in the intact, testosterone- or estrogen-treated male compared to the gonadectomized male and that GAL-I cell numbers and densities within the MPNc and GAL-I cell densities within the medial division of the MPN (MPNm), are increased significantly by gonadal steroids in rats of both sexez. The results suggest an involvement of galaninergic cells within the MPOA in the regulation of sexually dimorphic, gonadal steroid-sensitive functions.  相似文献   

3.
Ronald P. Hammer  Jr.   《Brain research》1985,360(1-2):65-74
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.  相似文献   

4.
Autoradiography was performed to determine if the neurons of the sexually dimorphic nucleus of the preoptic area (SDN-POA) in the adult rat accumulate estradiol (E2), testosterone (T), and/or dihydrotestosterone (DHT). Three days prior to steroid administration, adult male and female Sprague-Dawley rats were gonadectomized and adrenalectomized. Animals were then given either [3H]T, [3H]E2, or [3H]DHT through an indwelling jugular cannula. One hour later, animals were decapitated and brain sections processed for thaw mount autoradiography. The autoradiograms which contained the SDN-POA and an adjacent area of the medial preoptic area (MPOA) were quantitatively analyzed using the 3 times background, 5 times background, and Poisson criteria for labeled cells. In general, cells in the SDN-POA and the MPOA accumulate T, E2, or DHT. For both sexes, there is a greater percentage of labeled cells in the SDN-POA than in the MPOA, and a greater percentage of labeled cells following E2 exposure than following T or DHT exposure. In addition, there is a sex difference (male greater than female) in the percentage of labeled cells following T exposure. In summary, these data indicate that adult SDN-POA neurons do accumulate gonadal steroids.  相似文献   

5.
The sexually dimorphic nucleus of the preoptic area (SDN-POA) of Sprague-Dawley rats is larger in volume in the male and hormone-dependent early in postnatal life. In the present study, we compared for each sex the time course of neuroblast proliferation which forms SDN-POA or adjacent medial preoptic area (MPOA) neurons. Additionally, we investigated whether there is a temporal gradient of production of neurons in relation to their final position within the SDN-POA. On day 14, 15, 16, 17, or 18 postfertilization (pf) pregnant rats were given a single injection of 3H-thymidine (*thy). At 30 postnatal days of age the pups were sacrificed and brain sections were prepared and processed for autoradiography. Three sections of the SDN-POA and an adjacent area just lateral to it in the MPOA wer also analyzed. In the MPOA and the SDN-POA the percentage (%) of labeled neurons decreases as the day of injection of *thy approaches the end of gestation, but the time period in which neuroblast divisions occurred is markedly different for the SDN-POA as compared to that for the MPOA. DNA synthesis occurs as late as day 18pf for neurons which form the SDN-POA but ceases on day 16pf for those destined for the MPOA. There is a sex difference in neuronal production on both day 14 and 17pf for neurons destined for the SDN-POA. After injection on day 14pf the % labeled neurons is larger in the female than in the male but after injection on day 17pf this is reversed. There are also significant sex differences as well as a temporal gradient associated with the % labeled neurons in the SDN-POA in relation to their final anterior-posterior position. In addition, this study confirms our previous results which justify labeling the SDN-POA a nucleus, since neuronal density in this region in the male and female is significantly greater than that in the surrounding MPOA. These data illustrate that the specific neurons which comprise the SDN-POA in both the male and female are being produced as late as day 18pf, whereas neurons located in the MPOA but not in the SDN-POA have all been born by day 16pf. Neuroblast division which produces the neurons of the SDN-POA may begin earlier and terminate sooner in the female than in the male. These differences in neuronal production may partially account for the sexual dimorphism seen in the volume and neuronal number of the SDN-POA of the adult rat.  相似文献   

6.
L A Lumley  E M Hull 《Brain research》1999,829(1-2):55-68
The medial preoptic nucleus (MPN) of the medial preoptic area (MPOA) and the medial amygdala are two brain regions in which male rat sexual behavior increased Fos-like immunoreactivity (Fos-Li). Dopamine is released in the MPOA during male rat sexual behavior and facilitates copulation. Psychostimulants, which increase dopamine levels, induce Fos-Li in the striatum through D1 receptors. We examined whether copulation-induced Fos-Li in the MPN was also mediated through D1 receptors. In Experiment 1, sexually inexperienced male rats that received the D1 antagonist Schering 39166 prior to their first sexual experience had fewer Fos-Li cells in the MPN than did those that received vehicle. In Experiment 2, no significant effect of the D1 antagonist was observed on copulation-induced Fos-Li in male rats that had received repeated sexual experiences prior to the drug test day. Sexual experience increases copulatory efficiency; the mechanisms by which this improvement occurs are unclear. In Experiment 3, copulation by highly experienced male rats led to greater Fos-Li in the MPN than did copulation by sexually naive males. Although there were no differences between groups in amygdala Fos-Li in these studies, in several groups Fos-Li in the medial amygdala was positively correlated with the post-ejaculatory interval. These experiments indicate that (1) stimulation of D1 receptors may contribute to the transient copulation-induced increase in Fos-Li in the MPN, and (2) repeated sexual experiences enhanced copulation-induced Fos-Li in the MPN, which may represent a marker of altered responsiveness of neurons in the MPN to sexual or conditioned stimuli.  相似文献   

7.
To analyze the behavioral effects of an unphysiological manipulation of the medial preoptic area (MPOA), sexually experienced male rats received small bilateral electrolytic lesions within this area. Thirty-five percent of the lesioned animals showed a drastic facilitation of sexual behavior when tested 3 h after lesion. The number of intromissions, ejaculation latency, and postejaculatory interval were drastically reduced. The mean number of ejaculations was significantly higher in lesioned animals that displayed the behavior in comparison both to an intact group and a sham-lesioned group. Neither the size of the lesion nor its exact location could be correlated with the facilitation of sexual behavior. However, animals that showed facilitation tended to have the lesion located in the ventral part of the MPOA. Lesions rostral or dorsal to the MPOA were ineffective. It is suggested that the small electrolytic lesions in the MPOA produced iron deposits that stimulated the remaining intact preoptic region, resulting in the drastic facilitation of sexual behavior. The results of the present study support the hypothesis suggesting that the MPOA is involved in the mechanisms related to the initiation and execution of sexual behavior.  相似文献   

8.
Lesions of the SDN-POA inhibit sexual behavior of male Wistar rats   总被引:3,自引:0,他引:3  
Discrete bilateral lesions in the SDN-POA of sexually naive adult male rats were found to decrease the number of animals ejaculating and/or to increase latencies to the first mount, intromission and ejaculation. The deleterious effects of the lesions disappeared after 4 tests for sexual behavior but were reinstated when the males were tested under suboptimal conditions, i.e., when they were tested with a marginally receptive female or when they had only limited access to the stimulus female. It was subsequently shown that males with a bilaterally lesioned SDN-POA still showed an increase in plasma testosterone. LH and prolactin levels in response to sexual stimulation. Effects of the lesions on scent marking were not found. Together with previous data indicating that SDN-POA-lesions disrupt masculine sexual behavior in females, these data are taken as evidence that the SDN-POA plays a role in the regulation of masculine sexual behavior. The data further suggest that previously reported negative results of SDN-POA-lesions on masculine sexual behavior in male rats might be attributed to the use of sexually experienced instead of sexually inexperienced animals.  相似文献   

9.
The medial preoptic nucleus (MPN) of the medial preoptic area (MPOA) and the medial amygdala are two brain regions in which male rat sexual behavior increased Fos-like immunoreactivity (Fos-Li). Dopamine is released in the MPOA during male rat sexual behavior and facilitates copulation. Psychostimulants, which increase dopamine levels, induce Fos-Li in the striatum through D1 receptors. We examined whether copulation-induced Fos-Li in the MPN was also mediated through D1 receptors. In Experiment 1, sexually inexperienced male rats that received the D1 antagonist Schering 39166 prior to their first sexual experience had fewer Fos-Li cells in the MPN than did those that received vehicle. In Experiment 2, no significant effect of the D1 antagonist was observed on copulation-induced Fos-Li in male rats that had received repeated sexual experiences prior to the drug test day. Sexual experience increases copulatory efficiency; the mechanisms by which this improvement occurs are unclear. In Experiment 3, copulation by highly experienced male rats led to greater Fos-Li in the MPN than did copulation by sexually naive males. Although there were no differences between groups in amygdala Fos-Li in these studies, in several groups Fos-Li in the medial amygdala was positively correlated with the post-ejaculatory interval. These experiments indicate that (1) stimulation of D1 receptors may contribute to the transient copulation-induced increase in Fos-Li in the MPN, and (2) repeated sexual experiences enhanced copulation-induced Fos-Li in the MPN, which may represent a marker of altered responsiveness of neurons in the MPN to sexual or conditioned stimuli.  相似文献   

10.
Discrete bilateral lesions were placed into the sexually dimorphic nucleus (SDN) of the medial preoptic area (MPOA) of ovariectomized female Wistar rats, chronically treated with testosterone (T). Effects of these lesions upon masculine and feminine sexual behavior were studied by comparing the results of pre- and postoperative tests, using sham-operated and unoperated females as controls. Bilaterally-lesioned and, to a lesser extent, unilaterally-lesioned females, showed a marked and significant reduction of masculine sexual behavior (i.e., mounting), especially in the first postoperative tests. Feminine sexual responses, i.e., receptive and proceptive behavior, although slightly lower in bilaterally-lesioned females, did not change significantly. Sexual partner preference, operationalized as the choice between a receptive female and a sexually active male, remained unaffected by the lesions. Plasma levels of testosterone were similar in the various groups. It is concluded that the SDN may be functionally implicated in the control of masculine sexual behavior in T-treated females.  相似文献   

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