Aromatase immunoreactivity in the rat brain: Gonadectomy-sensitive hypothalamic neurons and an unresponsive “limbic ring” of the lateral septum-bed nucleus-amygdala complex

The aromatase (estrogen synthetase) enzyme catalyzes the conversion of androgens to estrogens in peripheral tissues, as well as in the brain. Our study aimed at comparing the brain distribution of aromatase-immunoreactive neurons in male and female, normal and gonadectomized rats. Light microscopic immunostaining was employed using a purified polyclonal antiserum raised against human placental aromatase. Two anatomically separate aromatase-immunoreactive neuronal systems were detected in the rat brain: A “limbic telencephalic” aromatase system was composed by a large population of labeled neurons in the lateral septal area, and by a continuous “ring” of neurons of the laterodorsal division of the bed nucleus of stria terminalis, central amygdaloid nucleus, stria terminalis, and the substantia inominata-ventral pallidum-fundus striati region. The other, “hypothalamic” aromatase system consisted of neurons scattered in a dorsolateral hypothalamic area including the paraventricular, lateral and dorsomedial hypothalamic nuclei, the subincertal nucleus as well as the zona incerta. In addition, a few axon-like processes (unresponsive to gonadectomy) were present in the preoptic-anterior hypothalamic complex, the ventral striatum, and midline thalamic regions. No sexual dimorphism was observed in the distribution or intensity of aromatase-immunostaining. However, 3 days, 2, 3, 8, 16, or 32 weeks after gonadectomy, aromatase-immunoreactive neurons disappeared from the hypothalamus, whereas they were still present in the limbic areas of both sexes. The results indicate the existence of two distinct estrogen-producing neuron systems in the rat brain: (1) a “limbic ring” of aromatase-labeled neurons of the lateral septum-bed nucleus-amygdala complex unresponsive to gonadectomy; and (2) a sex hormone-sensitive “hypothalamic” aromatase neuron system.     

刺激家兔杏仁基底核对外膝体“ON”神经元感受野反应特性的影响

利用细胞外记录,在乌拉坦麻醉和三碘委按酚麻痹的３７只新西兰兔上,考察刺激杏仁基底核对外膝体神经元感受野反应特性的影响。实验观察到,在１１７个具有“ＯＮ”反应外膝体神经元中,４７个单位在电刺激杏仁基底核时不同程度地受到抑制或易化性影响,即细胞反应强度和／或感受野范围均有改变。产生这些影响的潜伏期为７－４１ｍｓ,最大时程约２８ｍｓ。撤除电刺激３ｍｉｎ后,感受野反应特性即告恢复。单独刺激杏仁核不能引起外     

Supratrigeminal neurons mediate the shortest, disynaptic pathway from the central amygdaloid nucleus to the contralateral trigeminal motoneurons in the rat

Stimulation of the supratrigeminal area (STA) of the rat induced a monosynaptic EPSP in most mylohyoid-digastric motoneurons and a monosynaptic IPSP or EPSP in the majority of masseteric ones, contralaterally. Stimulation of the central amygdaloid nucleus induced the ipsilateral STA activity immediately followed by the contralateral mylohyoid nerve activities. The same amygdaloid stimulated excited 19 of 46 STA neurons, which were antidromically identified to project to the contralateral trigeminal motor nucleus. Nine of these were monosynaptically excited. The mean of the antidromic and monosynaptic latencies of these neurons explains the mean onset latencies of the amygdaloid influences on the contralateral trigeminal motoneurons. Therefore, the shortest crossing amygdalo-motoneuronal pathway is probably disynaptic and mediated by commissural STA neurons.     

Guanylin-immunoreactive cells in the female and male rat adenohypophysis and their changes under various physiological and experimental conditions

The peptide guanylin, first isolated from rat small intestine, is involved in the regulation of water–electrolyte transport between the intracellular and extracellular compartments of the epithelia. The main sites of guanylin expression are the intestinal, airway, or exocrine gland ductal epithelia where guanylin acts in a paracrine/luminocrine fashion. Because guanylin also circulates in the blood, sources of this peptide were sought in endocrine glands. Our group has already demonstrated the presence of guanylin-immunoreactive cells in the pars tuberalis of male rat adenohypophysis. In this study, we investigated whether guanylin-immunoreactive cells exist also in the adenohypophysial pars distalis and whether their appearance or distribution correlates with various physiological conditions in female rats or alters after gonadectomy in both sexes. These studies revealed that the rat pars distalis contains two guanylin-immunoreactive cell types, gonadotrophic cells, whose number varied notably during the estrous cycle, reached a peak in the proestrous phase, and increased consistently during pregnancy, in lactating animals, and after gonadectomy, and folliculo-stellate cells, a discrete number of which were found only in female rats at the estrous phase. These findings suggest that guanylin is involved in regulating gonadotrophic cell function. They also add important information on the controversially discussed functions of folliculo-stellate cells.     

Post-castration retention of reproductive behavior and olfactory preferences in male Siberian hamsters: role of prior experience

Reproductive behavior of virtually all adult male rodents is dependent on concurrent availability of gonadal steroids. The ejaculatory reflex is incompatible with long-term absence of testicular steroids and typically disappears within 3 weeks after castration. Male Siberian hamsters are an exception to this rule; mating culminating in the ejaculatory reflex occurs as many as 6 months after castration (persistent copulation). The emergence of persistent copulation many weeks after gonadectomy is here shown not to require repeated post-castration sexual experience. Preoperative sexual experience, on the other hand, significantly increases the percent of males that copulate after gonadectomy, but is not required for the emergence of this trait in 25% of males. Castration prior to puberty prevents persistent copulation in all individuals in adulthood. Persistent copulators, unlike males that cease mating activity after castration, prefer the odors of estrous over non-estrous females when tested 4 months after castration and 7 weeks after the last mating test. Neural circuits of persistent copulators retain the ability to mediate male sex behavior and preferences for female odors in the complete absence of gonadal steroids; they are influenced by preoperative sexual experience and organizational effects of gonadal hormones at the time of puberty.     

Dynamic alterations in luteinizing hormone-releasing hormone (LHRH) neuronal cell bodies and terminals of adult rats

Summary 1. The decapeptide lueteinizing hormone-releasing hormone (LHRH) is synthesized in neuronal cell bodies diffusely distributed across the basal forebrain and is secreted from neuronal terminals in the median eminence. Once secreted, LHRH enters the portal vessels and is then transported to the anterior pituitary, where it modulates the synthesis and secretion of gonadotropins, which are essential to gonadal function and reproduction.2. Because of the difficulties encountered in studying these diffusely distributed neurons, we have developed strategies which combine immunocytochemistry and computer-assisted techniques to examine individual LHRH neuronal cell bodies, as well as the entire population of LHRH neurons from the diagonal band of Broca to the mammillary bodies. In addition, we have examined LHRH neuronal terminals in the median eminence using computer-assisted imaging techniques to examine individual terminals by electron microscopy or across all rostral-caudal regions of the median eminence by light microscopy. In our most recent studies using confocal microscopy, we have examined the relationships of LHRH terminals to glial processes.3. These studies reveal a very dynamic system of LHRH neuronal cell bodies and terminals. The population of neurons in which LHRH can be detected varies as a function of time after gonadectomy, during the estrous cycle, and during the preovulatory surge of LH during the afternoon of proestrus. Dynamic changes are also observed in LHRH terminals in the median eminence as a function of time after gonadectomy and in specific rostral-caudal regions of the median eminence during the preovulatory surge of LH. Finally, confocal microscopy reveals that LHRH terminals are prevented from contacting the basal lamina of the brain by glial end-feet.4. We are currently examining the hypothesis that these relationships change as a function of endocrine milieu and, therefore, participate in the modulation of LHRH secretion. Ongoing studies focus on defining the sites of action and synergy of multiple sources of regulation of LHRH secretion and their relative importance to ensuring reproductive success.     

Medial Preoptic/Anterior Hypothalamic Lesions Induce a Female-Typical Profile of Sexual Partner Preference in Male Ferrets

In T-maze tests given to gonadectomized ferrets treated daily with estradiol benzoate (EB), females consistently prefer to approach and interact sexually with a stud male whereas male subjects, on average, prefer an estrous female. In the present experiment this sexually allomorphic pattern of partner preference was changed in males given lesions of the medial preoptic area/anterior hypothalamus (mPOA/AH). Electrolytic lesions, which caused extensive bilateral damage to the mPOA/AH, including the sexually dimorphic male nucleus (MN) of the POA/AH, led males to shift their mean preference away from the estrous female to the stud male. Their postoperative profile of partner preference more closely resembled that of sham-operated females than that of sham-operated males or of males which sustained either partial or minimal bilateral damage to the mPOA/AH so as to spare the MN-POA/AH in one or both hemispheres. Males with extensive bilateral mPOA/AH lesions, like sham-operated females, showed an even stronger preference to approach the stud male during T-maze tests in which the subjects could smell, see, and hear the stimulus animals without physically interacting with them. After receiving testosterone propionate, male ferrets with either extensive or partial lesions of the mPOA/AH showed significant deficits in neck gripping and mounting performance in tests with either female or male stimulus animals which were sexually receptive after gonadectomy and EB treatment. The present results, coupled with those of a previous study using excitotoxic mPOA/AH lesions, suggest that the male-typical profile of preference for an estrous female depends on the functional integrity of sexually dimorphic mPOA/AH neurons and the reward engendered by coital interaction with such a female. When these neurons either are destroyed experimentally (as in male ferrets with extensive bilateral mPOA/AH lesions) or are absent (as in sham-operated females), subjects are attracted by distal (possibly chemosensory) incentive cues from a stud male.     

Effects of gonadal steroids on tuberoinfundibular and tuberohypophysial dopaminergic neuronal activity in male and female rats

The activities of tuberoinfundibular and tuberohypophysial dopamine (DA) neurons were estimated by measuring the turnover of DA in terminals of these neurons in the median eminence and in the neural and intermediate lobes of the pituitary, respectively. The rate of DA turnover (alpha-methyltyrosine-induced decline of DA) in the median eminence was two to three times faster in females than in males, but no sexual differences in DA turnover rates were noted in the neural and intermediate lobes. Two weeks following gonadectomy the rate of DA turnover in the median eminence was increased in the male but decreased in the female. These effects were reversed by testosterone and estrogen replacement in gonadectomized males and females, respectively. Neither gonadectomy nor steroid replacement altered DA turnover in the neural or intermediate lobes of either males or females. These results indicate that estrogen stimulates and testosterone inhibits tuberoinfundibular DA neuronal activity while neither steroid affects tuberohypophysial DA neuronal activity.     

Time-studies of the changes in the sex-dependent activities of enzymes of hepatic steroid metabolism in the rat following gonadectomy.

The activities of cytoplasmic 3 alpha- and 17 beta-hydroxysteroid dehydrogenase, microsomal 3 alpha- and 3 beta-hydroxysteroid dehydrogenase and microsomal 5 alpha-reductase of rat liver were determined at different time points after gonadectomy on day 75 of life. Following testectomy the activities in male rats assume female values. However this change is relatively slow, 10--14 days being necessary for significant trends in individual activities to develop, and 40--60 days before the final level of activity is reached. The changes in enzyme activities after ovariectomy are only slight. The change in microsomal 5 alpha-reductase activity following gonadectomy of male rats is biphasic, the activity increasing initially to the normal female level before falling to the intermediate "neonatally androgen-imprinted" level. The reaction of 17 beta-hydroxysteroid dehydrogenase activity to testectomy and ovariectomy indicates that in the course of several years, during which we have investigated the behaviour of this enzyme in Chbb/THOM rats, the regulation of its activity has changed from one of oestrogen dependency to one of androgen dependency.     

The action of sodium glutamate and acetylcholine on neurons of the basal amygdaloid nucleus after degeneration of hypothalamo-amygdaloid pathways

The chemoreactive properties of neurons of the rabbit basal amygdaloid nucleus were investigated at various times after unilateral division of all the direct hypothalamo-amygdaloid pathways (stria terminalis, ventroamygdalofugal pathway) and the anterior commissure. After immobilization with diplacin, the activity of the absolute majority of neurons of the partially deafferented basal nucleus (by contrast with responses of neurons of the intact amygdala) were inhibited by acetylcholine. Sodium glutamate caused facilitation of activity during electrophoresis, followed by inhibition. The results are compared with those obtained on neurons of long-isolated cortical slabs.     

Adrenergic mechanisms in the control of myometrial activity in mice. Changes on estrous cycle

Correlation between contractile activity and norepinephrine (NE) release induced by electrical stimulation or by high K+ depolarization has been analyzed in isolated preparations of mouse uterus throughout the different stages of the estrous cycle. Both the contractile activity induced by electrical stimulation and the capacity to maintain contracture, after changing the physiological bathing solution by high K+ solution, followed the same pattern: estrous greater than proestrous greater than diestrous greater than metestrous. High-K+ induced 3H-NE release was also different according to the stage of the estrous cycle. 3H-NE release was significantly less in estrous than in diestrous uterine horns. EC50 values for inhibiting contractile response, for isoprenaline, norepinephrine and phenylephrine were significantly greater in metestrous than in other stages of the estrous cycle. On the other hand, reserpinized mouse uteri showed an increase in EC50 values in the stages tested. The data support the hypothesis that in a mouse uterus, sex steroid hormones could affect beta-adrenergic receptor function indirectly, perhaps through an action on adrenergic neurons by a mechanism affecting NE release from sympathetic terminals.     

Changes in rhythmicity of ambulatory and drinking activities in immature female rats

Adult female rats showed increase in ambulatory activity and marked decrease in drinking behavior at early dark period (18:00-24:00) of proestrus stage before ovulation. In this study, we observed the changes in patterns of ambulatory and drinking activities of immature rats associated with estrous cycle during growing period. Immature female rats of the Wistar-Imamichi strain were used, and both behavioral activities were measured continuously, using Gundai type Ambulodrinkometer. From these observations, it was found that the typical patterns of ambulatory and drinking activities which were observed in adult female rats appeared at the sixth (51-60 days old) and the third (39-49 days old) estrous cycle, respectively.     

Estrous cycle stage-independent treatment of PMSG and hCG can induce superovulation in adult Wistar-Imamichi rats.

The estrous cycle influence on the number of ovulated eggs after injection of pregnant mare serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG) was investigated in 12, 18, and 24 weeks old adult female Wistar-Imamichi (WI) rats. PMSG (150 IU/kg) was injected at metestrus, diestrus, proestrus, or estrus, followed by hCG (75 IU/kg) 55 h later. Ovulation was induced at all ages and stages of the estrous cycle. The number of ovulated eggs was not affected by stage for similarly aged rats, however, the number of ovulated eggs obtained after treatment decreased with age. These results demonstrate that the PMSG/hCG treatment can induce ovulation at any stage of estrous cycle in WI rats and efficient superovulation at 12 weeks of age.     

Sexual differences in the activity of periventricular-hypophysial dopaminergic neurons in rats.

The activities of periventricular-hypophysial dopaminergic (DA) neurons were compared in male and female rats by measuring dopamine synthesis (accumulation of 3,4-dihydroxyphenylalanine [DOPA] after inhibition of L-aromatic amino acid decarboxylase) and metabolism (concentrations of 3,4-dihydroxyphenylacetic acid [DOPAC]) in terminals of these neurons in the intermediate lobe of the pituitary. For comparison, the synthesis and metabolism of dopamine in the neural lobe of the pituitary and median eminence were also determined. The concentrations of DOPAC and accumulation of DOPA were higher in females than in males in both the intermediate lobe and median eminence, revealing a sexual difference in the basal activity of periventricular-hypophysial and tuberoinfundibular DA neurons. In contrast, there were no differences between male and female rats in activity of DA neurons terminating in the neural lobe. One week following gonadectomy, DOPA accumulation in the median eminence was decreased in females and increased in males, but remained unchanged in the intermediate lobe. These results indicate that sexual differences in the activity of periventricular-hypophysial DA neurons terminating in the intermediate lobe are not dependent upon the presence of circulating gonadal steroids, and in this respect, these neurons differ from tuberoinfundibular DA neurons.     

Anterior dorsal ventricular ridge in the lizard: Embryonic development

In lacertids the telencephalic vesicle starts its development at stage E = 30, at which time it is lined by a homogeneous nucleated zone in which particular ventricular zone territories or sulci cannot be distinguished. At stage E = 32 coinciding with the initial development of the anterior dorsal ventricular ridge (ADVR), one may distinguish the ventricular zone b in the dorsolateral wall of the ventricle adjacent to the sulcus lateralis. The ADVR continues growing by incorporation of cells produced in two proliferative zones (zone b and wall of the sulcus lateralis) and appears fully developed in postnatal lizards. Ultrastructural characteristics of young ADVR neurons between stages E-32 and E-33 are typical of those in immature cells. Beginning at stage E-34, some of these neurons appear to be degenerating (pycnotic). Thereafter, neurons of the ADVR develop abundant cytoplasmic organelles and the neuropile grows quickly. Myelination starts in the ADVR between stages E-38 and E-40, but is not observed in other striatal masses in the same period. Vascularization begins and is well developed at E-40. The first synaptic contacts were observed in embryos of stage E=38; they are chiefly axo-dendritic, although some are axo-somatic. Degenerating neurons were found in the ADVR up to hatching. From stage E-40 onward, the ADVR shows a greater and more rapid differentiation than all other striatal nuclei, including the ventral and amygdaloid complex.     

The influence of oestradiol on androgen- and oestrogen-dependent enzyme activities of hepatic steroid metabolism in rats.

Five sexually differentiated enzyme activities of hepatic steroid metabolism (cytoplasmic 17 beta-hydroxysteroid dehydrogenase, 5 beta-reductase; microsomal 3 alpha- and 3 beta-hydroxysteroid dehydrogenase and 5 alpha-reductase) were investigated in intact, gonadectomized and hypophysectomized rats after administration of a single dose of oestradiol valerate. Oestradiol administration caused a partial or complete feminization of these activities in intact male rats. The influence of oestradiol on these activities in gonadectomized rats was determined by the mode of sex hormone-dependent regulation of the individual activity: the most prominent effects were seen in the oestrogen-dependent activities (17 beta-hydroxysteroid dehydrogenase, 5 beta-reductase); no effect was seen in the completely androgen-dependent 3 alpha-hydroxysteroid dehydrogenase because gonadectomy alone was sufficient to cause complete feminization of the activity. Oestradiol administration had no effect on the activities of hypophysectomized rats. The fact that oestrogen administration to intact male rats caused greater changes than prepuberal gonadectomy demonstrates that oestrogen action is more than simple suppression of testicular function.     

人胎杏仁核基底外侧核群含一氧化氮合酶神经元的发育

用组织化学方法研究了人胎杏仁核基底外侧核群含一氧化氮合酶（ＮＯＳ）神经元的发育。胎龄分别为１６,２１,２３,２８,３１,３８周。ＮＯＳ阳性神经元在基底外侧核群存在有两种不同的发育模式。１．在外侧核和基底核,单位面积内的阳性细胞数分别在２１周,２３周时较多,随后渐减,从３１～３８周又开始增多。２．在付基底核,２１周时阳性细胞数较多,２３周时减少,随后渐增多。从３１～３８周又渐减少。ＮＯＳ阳性神经元在整个基底外侧核群内的均面积的变化,从１６～２８周ＮＯＳ阳性神经元的均面积是渐增大的,从２８～３１周有所减少。从３１～３８周又渐增大。结果提示,ＮＯＳ阳性神经元出现于人胎基底外侧核群的发育早期,在此核的发育过程中起着很重要的作用     

Choline Acetyltransferase Activities in Single Spinal Motor Neurons from Patients with Amyotrophic Lateral Sclerosis

Activities of choline acetyltransferase (ChAT) were microassayed in individual cell bodies of motor neurons, isolated from freeze-dried sections after autopsy of lumbar spinal cords from four patients with sporadic amyotrophic lateral sclerosis (ALS) and four control patients with nonneurological diseases. Numerous large neurons were found in the anterior horn at the early degeneration stage of ALS, but the cell bodies atrophied and decreased in number at the late advanced stage. The small, atrophied neurons were very fragile and were easily destroyed during the isolation procedure with a microknife. The average activity, expressed on a dry weight basis, of 58 ALS neurons was lower than that of 67 control neurons. The large, well-preserved neurons at the early nonadvanced stage had markedly lower ChAT activities than control neurons. The specific activity gradually increased with the progress of atrophy but did not return to the control level.     

Effects of canine serum collected from dogs at different estrous cycle stages on in vitro nuclear maturation of canine oocytes

Canine oocytes are ovulated at prophase of the first meiotic division and undergo maturation in the distal part of the oviduct for at least 48-72 h. Because of these differences from other domestic mammals, the efficiency of in vitro maturation (IVM) of canine oocyte is very low. The present study was conducted to evaluate the effects of canine serum on IVM of canine oocytes recovered from ovaries in various reproductive states (follicular, luteal or anestrous stages). Oocytes were recovered by mincing ovaries from bitches presented for ovariohysterectomy at various stages of the estrous cycle. Heat-inactivated canine serum was prepared with blood taken from dogs at the anestrous, estrous or diestrous stage of the estrous cycle as determined by progesterone concentration and vaginal cytology. Oocytes were cultured for 72 h in tissue culture medium (TCM)-199 supplemented with 10% canine anestrous, estrous or diestrous serum or fetal bovine serum (FBS) (experiment 1), or supplemented with 0 (control), 5%, 10% or 20% canine estrous serum (experiment 2). In experiment 1, IVM of oocytes collected at the follicular stage of the estrous cycle to metaphase II (MII) stage was higher (p < 0.05) with canine estrous serum (14.2%) than with canine anestrous (5.2%) or diestrous serum (6.3%), FBS (2.2%) or in the control (2.2%). In experiment 2, oocytes collected at the follicular stage of the estrous cycle cultured in TCM-199 with 10% canine estrous serum showed a higher maturation rate to MII stage (13.5%, p < 0.05) compared with those cultured with 5% (1.3% MII) or 20% canine estrous serum (5.1% MII) or the control (2.7% MII). In conclusion, our results demonstrate that supplementing culture medium with 10% canine estrous serum improves IVM of canine follicular stage oocytes.