Localization and mechanism of stimulatory feedback action of estrogen: effect of limbic forebrain implantation of estradiol benzoate on advancement of ovulation.

The sites and mechanism of the ovulation-inducing action of estradiol benzoate (EB) were studied by brain implantation of the crystalline steroid through chronically implanted outer cannula at 12:00 on diestrus day 2 in the 5-day cyclic rat. EB implantation in the medial amygdala or the bed nucleus of stria terminalis advanced cyclic changes in vaginal smears, timing of ovulatory LH release, and ovulation by 1 day, resulting in 4-day cycle. When implants in the bed nucleus of stria terminalis were placed for a shorter period of time on diestrus day 2, from 12:00 to 20:00, advancement of these parameters were similarly observed. Serum concentration of FSH and that of prolactin were significantly elevated at 20:00 on the same day in the rats implanted with EB in the medial amygdala or the bed nucleus of stria terminalis, compared with those in the non-treated controls. LH was not affected. The implantation in the arcuate nucleus was also effective to advance ovulation, but the anterior deafferentation prevented the effect. In contrast, EB implantation in the medial septal nucleus, the medial preoptic area, or the medial basal prechiasmatic area was consistently ineffective to advance vaginal cycle and ovulation. Multiunit activity in the arcuate nucleus showed an afternoon elevation on the day of implantation in these areas and as well on the day following, while it did not show such elevation on the day of implantation in the medial preoptic area. It is concluded that EB acts on the medial amygdala and the bed nucleus of stria terminalis in the mid-diestrus in 5-day cycle to stimulate FSH and prolactin release without affecting LH, which changes trigger a chain of reproductive events inducing early release of ovarian steroid responsible for early ovulatory gonadotropin release. The arcuate nucleus in one of the sites of stimulatory action of estrogen, but it requires the neural influence presumably from the medial amygdala and the bed nucleus of stria terminalis via the preoptic area for stimulating the ovulatory hormone release. EB exposure is considered to be endowed with the increase of its responsibility to this neural influence.     

Studies on the time and localization of the puberal desensitization to oestrogen in female rats

Immature and postpuberal female rats were ovariectomized at 20 or 27 days of age or on the day of the first vaginal oestrus and chronically implanted with oestradiol benzoate (OB) and cholesterol at the ratios of 1 : 60, 1 : 120 or 1 : 240 on the day following castration. Autopsy was performed on day 6 after implantation and the plasma LH concentration determined by radioimmunoassay. Whereas 1 : 60 and 1 : 120 implants of OB and cholesterol placed into the hypothalamic ventromedial-arcuate region depressed the castration-induced elevation of the LH level before and after puberty, the 1 : 240 mixture was effective only in immature rats, but not after vaginal opening and the first ovulation had occurred. A similar trend was recorded after implantation of OB into the cortical amygdaloid nucleus (CAN). However, the oestrogen dose had to be doubled to get comparable results. Bilateral lesioning of the CAN or deefferentation of the mediocortical amygdala by transection of the stria terminalis did not distinctively influence the LH-suppressing effect of daily s.c. injections of 0.1 or 0.05 microgram OB/100 g b. w. in prepuberal rats. The findings demonstrate a sudden change in the hypothalamic threshold to the gonadotrophin-inhibiting effect of oestrogen over a narrow range of time near the onset of puberty. They furthermore suggest that the mediocortical amygdala is not involved in possible extra-hypothalamic control of the puberal desensitization process.     

Effects of third ventricular injection of beta-endorphin on luteinizing hormone surges in female rat: sites and mechanisms of opioid actions in the brain

The effects of third ventricular injection of beta-endorphin (beta-EP) on spontaneous, brain stimulation-induced and estrogen-induced LH surges were studied in the adult female rat. It was found that beta-EP blocked the preovulatory surge of LH release and ovulation, while it did not affect LH release in response to LH-RH injection. The site of the beta-EP blockade of ovulation was proved to be in the brain. Beta-EP completely blocked ovulatory LH release induced by the electrochemical stimulation of the medial amygdaloid nucleus and medial septum-diagonal band of Broca, but failed to block ovulation due to the stimulation of the medial preoptic area (MPO) or median eminence, though serum LH levels after the MPO stimulation were inhibited by beta-EP. In the spayed rats treated with estradiol benzoate (EB) on Day 1 and 4 of experiment, beta-EP given on Day 5 blocked the LH surge that normally occurred on that day and led to a compensatory surge of LH on the following day. Moreover, the LH surge on Day 5 was inhibited by beta-EP given either on Day 1 or Day 4. Present data suggest that beta-EP may act in inhibiting the preovulatory LH surges not only by suppressing the preoptic-tuberal LH-RH activities but also by affecting the initiation and development of stimulatory feedback of estrogen in the central nervous system.     

Implantation of dihydrotestosterone propionate into the lateral septum or medial amygdala facilitates copulation in castrated male rats given estradiol systemically

Two experiments were conducted to determine whether unilateral implantation of dihydrotestosterone propionate (DHTP) into different brain regions of castrated rats, bearing silastic capsules containing estradiol, could augment sexual behavior without appreciable leakage of androgen into the peripheral circulation. In Experiment 1 implanation of pulverized crystalline DHTP (via 25-gauge, 1-mm-long pellets) facilitated mating significantly without stimulating penile spine growth, provided the pellets were positioned in the lateral septum or medial amygdala. Insertion of DHTP pellets into the preoptic area-anterior hypothalamus, caudate-putamen, or the border of the substantia nigra and ventral tegmental nucleus or of cholesterol pellets into lateral septum or medial amygdala had no behavioral effects. Implanation of DHTP into the lateral septum also failed to activate penile erections in rats restrained in a supine position. In Experiment 2 implantation of different bone wax dilutions of DHTP (via 25-gauge, 1-mm-long pellets) into the preoptic area-anterior hypothalamus augmented males' sexual performance only in that group in which penile spine growth was also significantly stimulated. The results sugggst that 5α-reduced androgen is capable of activating mating in the male rat by acting locally in the lateral septum and/ or medial amygdala.     

Projection from the ventral bed nucleus of the stria terminalis to the retrorubral field in rats and the effects of cells in these areas on mating in male rats versus gerbils

This research identified the rat counterpart of the lateral cell group of the sexually dimorphic area (SDA) found in medial preoptic area (MPOA) gerbil of gerbils. The lateral SDA (lSDA) is critical for mating in male gerbils and contains most of the SDA cells projecting to the retrorubral field (RRF), a projection that is also important for mating. Therefore, to locate the counterpart of the lateral SDA, we traced the inputs to the rat RRF, which were dense in the ventral part of the bed nucleus of the stria terminalis (BST). To determine if the ventral BST or its projection to the RRF affects mating in male rats, we disrupted them bilaterally by placing cell-body lesions bilaterally in the ventral BST or unilaterally there and in the contralateral RRF. We also studied the effects of RRF lesions in both rats and gerbils. Bilateral ventral BST lesions, which left the medial preoptic nucleus intact, produced persistent and severe mating deficits. Disconnecting the ventral BST from the RRF also had long-lasting, but less severe, consequences. RRF lesions produced only temporary mating deficits in rats, but virtually eliminated mating in gerbils. The recovery of mating in rats after RRF, but not ventral BST, lesions, and the intermediate effects of disconnecting these areas from each other suggest that the ventral BST may contain mating-related projection neurons other than those projecting to the RRF or that its RRF-projecting cells send collaterals to another site. In either case, the pedunculopontine tegmental nucleus or raphe nuclei may be involved.     

Histological characterization of gonadotropin-releasing hormone (GnRH) in the hypothalamus of the South American plains vizcacha (Lagostomus maximus)

In contrast to most mammalian species, females of the South American plains vizcacha, Lagostomus maximus, show an extensive suppression of apoptosis-dependent follicular atresia, continuous folliculogenesis, and massive polyovulation. These unusual reproductive features pinpoint to an eventual peculiar modulation of the hypothalamo-hypophyseal-gonadal axis through its main regulator, the gonadotropin-releasing hormone (GnRH). We explored the hypothalamic histological landscape and cellular and subcellular localization of GnRH in adult non-pregnant L. maximus females. Comparison to brain atlases from mouse, rat, guinea pig and chinchilla enabled us to histologically define and locate the preoptic area (POA), the ventromedial nucleus, the median eminence (ME), and the arcuate nucleus (Arc) of the hypothalamus in vizcacha's brain. Specific immunolocalization of GnRH was detected in soma of neurons at medial POA (MPA), ventrolateral preoptic nucleus, septohypothalamic nucleus (SHy) and Arc, and in beaded fibers of MPA, SHy, ventromedial hypothalamic nucleus, anterior hypothalamic area and ME. Electron microscopy examination revealed GnRH associated to cytoplasmic vesicles of the ME and POA neurons, organized both in core and non-core vesicles within varicosities, and in neurosecretory vesicles within the myelinated axons of the MPA. Besides the peculiar and unusual features of folliculogenesis and ovulation in the vizcacha, these results show that hypothalamus histology and GnRH immune-detection and localization are comparable to those found in other mammals. This fact leads to the possibility that specific regulatory mechanisms should be in action to maintain continuous folliculogenesis and massive polyovulation.     

Effects of ventromedial nucleus lesions on estradiol induced ovulation in the rat

Small bilateral stereotaxic lesions were made in the hypothalamic ventromedial nucleus (SVMN) to determine: (i) whether estrogen would restore early receptivity in unreceptive SVMN lesioned female rats and (ii) whether SVMN lesions would suppress estrogen induced ovulation in the rat. SVMN lesions were shown to completely suppress spontaneous early receptivity and seriously impair estrous receptivity in 5-day cyclic female Wistar rats. A loss of early receptivity in response to 10 μg estradiol benzoate (EB) was also observed in SVMN lesioned females, in comparison to unoperated, sham VMN and dorsomedial nucleus (DMN) lesioned animals. Isolated SVMN lesioned females exhibited a weak ovulatory response to 10 μg EB, but, where shown to be unreceptive prior to estrogen injection, they never ovulated. On the contrary, ovulation occured in about 50% of cases in isolated unoperated and in sham VMN and DMN lesioned females following estrogen administration. The mechanisms whereby EB brought about precocious ovulation in 5-day cyclic female rats were therefore concluded to be dependent on VMN functional integrity and thereby on the degree of early sexual receptivity in the rat.     

Progesterone inhibition of maternal behavior in the rat

The present series of experiments investigated the role of progesterone in inhibiting the onset of maternal behavior in the rat. Female rats hysterectomized and ovariectomized on Day 16 of pregnancy and injected subcutaneously with 20 μg/kg of estradiol benzoate (EB) show a short latency to onset of maternal behavior when presented with test pups 48 hr later. A subcutaneous injection of either 1 or 5 mg of progesterone on Day 16 of pregnancy and again 24 hr later inhibited this EB-induced short-latency onset of maternal behavior. The central neural site at which progesterone might act to produce this inhibitory effect was explored. Famale rats, hysterectomized and ovariectomized on Day 16 of pregnancy and injected subcutaneously with EB, received implants of crystalline progesterone on Day 16 of pregnancy into either the medial preoptic area, ventromedial hypothalamus, midbrain tegmentum, dorsal raphe nucleus, or median raphe nucleus. No inhibitory effects were found and all females showed a short-latency onset of maternal behavior. Several possible explanations for this lack of inhibitory effect of intracerebral implantation of progesterone are discussed.     

Sterilization of female rats by neonatal placement of estradiol micropellets in anterior hypothalamus.

A pair of micropellets of a 1% or 10% estradiol (E2)-paraffin mixture (containing 0.2 or 2 mug E2, respectively) or paraffin alone were implanted subcutaneously or intracerebrally in 5-day-old female rats. Animals given 10% E2 pellets became sterilized regardless of loci of the pellets. Of those which had received 1% E2 pellets, only animals with micropellets in the anterior hypothalamus became sterilized. It is suggested that neuronal components which are affected irreversibly by neonatal estrogen treatment are localized in the anterior hypothalamus.     

Effects of castration on aggression and levels of serum sex hormones and their central receptors in mandarin voles (Microtus mandarinus)

Aggression in socially monogamous mandarin vole (Microtus mandarinus) was observed after castration. Levels of serum sex hormones and their central receptors were also measured using enzyme-linked immunosorbent assay and immunohistochemistry methods. The data indicate that adult males showed higher levels of aggression after castration. However, castration significantly reduced levels of serum testosterone, and the number of androgen receptor immunoreactive neurons in the anterior hypothalamus, bed nucleus of the stria terminalis, medial amygdaloid nucleus (P < 0.01) and lateral septal nucleus (P < 0.05). In addition, levels of estrogen receptor β in the anterior hypothalamus and medial amygdaloid nucleus (P < 0.05), bed nucleus of the stria terminalis and lateral septal nucleus (P < 0.01) declined to varying degrees at weekly intervals. In contrast, serum 17β-estradiol concentrations were up-regulated by castration and castration did not change levels of estrogen receptor α in the medial amygdaloid nucleus and lateral septal nucleus, but increased it in the anterior hypothalamus 3 weeks after castration (P < 0.05). We suggest that higher levels of aggression induced by castration may be independent of serum testosterone and androgen receptors, and may be associated with high serum 17β-estradiol concentrations, stable estrogen receptor α immunoreactive neurons in some brain regions and the relative ratio of the two estrogen receptors.     

交配行为对雄性棕色田鼠雌激素及雌激素β受体在相关脑区的影响

应用行为观察、放射免疫分析和免疫组织化学相结合的方法,研究了雄性棕色田鼠在交配后血清中的雌二醇(E)、与交配行为有关的脑区E免疫阳性细胞数目(E-IRs)、雌激素β受体(ERβ)免疫阳性细胞数目(ERβ-IRs)的变化.将睾丸下降的成年雄性棕色出鼠分成3组:(1)对照组:嗅闻24h新鲜锯木.(2)暴露组:嗅闻24h动情期雌鼠底物.(3)交配组:与动情期雌鼠交配24h.放射免疫榆测血清中的E浓度,交配组比暴露组、对照组显著增高,暴露组和对照组无显著差异.通过免疫组化检测与性行为有关的脑区:弓状核(ARC)、终纹床核(BST)、隔外侧核(LS)、杏仁内侧核(ME)、内侧视前区(MPO)、下丘脑腹内侧核(VMH)E-IRs和ERβ-IRs,E-IRs在交配组比对照组和暴露组各区域都显著增多,暴露组比对照组在隔外侧核显著增多外,其他区域无显著差异.     

Immunohistochemical localization of cholecystokinin in the medial preoptic area and anterior hypothalamus of the Brazilian gray short-tailed opossum: a sex difference

We have studied the anatomical localization of cholecystokinin-like immunoreactivity (CCK IR) in somata and fibers in the medial preoptic area (MPA) and anterior hypothalamus (AH) of the Brazilian gray short-tailed opossum, (Monodelphis domestica). With the aid of an avidin-biotin, nickel-enhanced, immunohistochemical technique, CCK IR neuronal elements were found within the MPA and AH. A large number of CCK IR cell bodies were located in the MPA of colchicine-treated opossums. The MPA also contained a CCK IR fiber plexus. Quantitative image analysis revealed that the periventricular preoptic area of noncolchicine-treated male opossums had a significantly higher percent of blocked light measurements than that of the noncolchicine-treated females, indicating a higher density of CCK IR neuronal elements in the males. Neuronal fibers and somata containing CCK IR were also found within the periventricular hypothalamic nucleus (Pe), and the suprachiasmatic nucleus (SCh). These results show that CCK IR neuronal elements are found within the MPA and AH of the Brazilian short-tailed opossum. Furthermore, there is a sexually dimorphic distribution of CCK IR elements within the MPA of this small marsupial.     

Progesterone-Facilitated Lordosis in Medial Preoptic Area-Lesioned, Juvenile Guinea Pigs

Juvenile female guinea pigs rarely display lordosis in response to estradiol and progesterone treatments that elicit sexual receptivity in adults. To test the hypothesis that the medial preoptic area (MPOA) tonically inhibits the display of steroid-induced lordosis in juveniles, 11-day-old guinea pigs were ovariectomized (OVX) and received bilateral, sham, or electrolytic lesions aimed at the MPOA 3–4 days later. At 20–22 days of age, these females were tested for the expression of sexual receptivity following injections of estradiol benzoate (EB, 10 μg sc) and progesterone (0.5 mg sc, 40 h after EB). The lesions damaged portions of the MPOA, the nucleus of the diagonal band of Broca, the lateral aspect of the medial preoptic nucleus, the medial part of the preventricular portion of the periventricular nucleus, and the anterior commissure. The lesions did not alter the display of estradiol-induced lordosis. However, after treatment with EB plus progesterone, 20% of the sham-lesioned females displayed lordosis, as compared to 80% of the MPOA-lesioned animals. These data are consistent with the hypothesis that neurons originating in and/or traversing the MPOA tonically suppress the display of progesterone-facilitated lordosis in juvenile guinea pigs. Removal of this inhibitory input allows prepubertal females to respond behaviorally to estradiol and progesterone in an adult-typical fashion.     

Sex difference and response to testosterone in gabaergic cells of the medial preoptic nucleus and ventral bed nuclei of the stria terminalis in gerbils

The medial preoptic nucleus (MPN) and ventral bed nuclei of the stria terminalis (BST) are needed to maintain mating in sexually experienced male gerbils and rats. The gerbil ventral BST is also activated with mating, as assessed by Fos expression, as is the medial MPN (MPNm) of both species. In gerbils, many of those mating-activated cells contain glutamic acid decarboxylase (GAD), the enzyme that synthesizes γ-aminobutyric acid (GABA). Some of those cells are projection neurons, but others may release GABA locally. Through actions in the medial preoptic area, GABA inhibits and testosterone (T) promotes male sex behavior. Thus, T may promote mating, in part, by decreasing GAD in MPNm or ventral BST cells. In rats, T increases GAD mRNA in the central MPN (MPNc), where MPN GABAergic cells are densest, but mating behavior does not change in sexually experienced males when the MPNc is ablated. Therefore, this study focused on the MPNm and ventral BST to ask whether their GABAergic cells respond to T or are sexually dimorphic. This was done by visualizing cells immunoreactive (IR) for GAD₆₇, an isoform found primarily in cell bodies, in male and female gerbils and in castrated males with and without T. At both sites, males had more GAD₆₇-IR cells than females, and T decreased GAD₆₇-IR cell numbers in males. Thus, the MPNm and ventral BST have GABAergic cells that are sexually dimorphic and in which T decreases GAD, consistent with local effects of T and GABA on mating.     

Sex differences in hormonal responses of vasopressin pathways in the rat brain

Vasopressin (AVP) immunoreactivity in cells and projections of the bed nucleus of the stria terminalis (BST) and medial amygdaloid nucleus (MA) depends on gonadal steroids. In addition, the AVP projections from the BST show denser fiber staining in males than in females. To study whether these differences depend on different hormone levels in adulthood, male and female rats were gonadectomized and similarly treated with testosterone for 4 weeks prior to sacrifice. Immunocytochemistry showed that males had significantly more AVP-immunoreactive (AVP-IR) cells in the BST and significantly denser AVP-IR projections from this nucleus to the lateral septum, lateral habenular nucleus, and periaqueductal central gray than did females. The number of AVP-IR cells in the MA nucleus was not statistically different, but denser AVP-IR fiber networks were found in the MA and ventral hippocampus, which receives its input from the MA. No differences were found in the anteroventral portion of the periventricular nucleus and the dorsomedial nucleus of the hypothalamus that receive their AVP innervation from the suprachiasmatic nucleus. These results indicate that the sex difference in the steroid-sensitive AVP pathways depends on other factors besides circulating hormone levels in adulthood.     

Evidence for an absence of estrogen-concentration by CCK-immunoreactive neurons in the hypothalamus of the female rat

It is becoming increasingly clear that the neuropeptide cholecystokinin (CCK), widely distributed in the rat hypothalamus and limbic system, is subject to both organizational and activational influences of steroid hormones. Sex differences in numbers of CCK-immunoreactive elements have been demonstrated in sexually dimorphic structures such as the bed nucleus of the stria terminalis, medial preoptic nucleus, and ventromedial nucleus of the hypothalamus. Steroid activation of CCK has been indicated by findings that hypothalamic CCK levels and binding capacity vary over the estrous cycle. These studies, in combination with evidence of CCK mediation of sexually differentiated functions, prompted us to test for estrogen concentration among CCK-containing cells of the female rat hypothalamus by combining the techniques of immunohistochemistry and autoradiography. A method employing 2-week ovariectomies and perfusion fixation with 4% paraformaldehyde was compatible with the localization of both estrogen-accumulating and CCK-immunoreactive cell bodies. The maintenance of numbers of CCK-positive cells after gonadectomy suggested that expression of this peptide may not be directly regulated by ovarian steroids in female rats. This suggestion was substantiated by the finding that, with rare exceptions, CCK-immunoreactive cells did not concentrate estrogen in tissues collected from the anterior-posterior extent of the bed nucleus of the stria terminalis, medial preoptic nucleus, anterior hypothalamic area, and paraventricular nucleus.     

Tamoxifen and ICI 182,780 activate hypothalamic G protein-coupled estrogen receptor 1 to rapidly facilitate lordosis in female rats

In the female rat, sexual receptivity (lordosis) can be facilitated by sequential activation of estrogen receptor (ER) α and G protein-coupled estrogen receptor 1 (GPER) by estradiol. In the estradiol benzoate (EB) primed ovariectomized (OVX) rat, EB initially binds to ERα in the plasma membrane that complexes with and transactivates metabotropic glutamate receptor 1a to activate β-endorphin neurons in the arcuate nucleus of the hypothalamus (ARH) that project to the medial preoptic nucleus (MPN). This activates MPN μ-opioid receptors (MOP), inhibiting lordosis. Infusion of non-esterified 17β-estradiol into the ARH rapidly reduces MPN MOP activation and facilitates lordosis via GPER. Tamoxifen (TAM) and ICI 182,780 (ICI) are selective estrogen receptor modulators that activate GPER. Therefore, we tested the hypothesis that TAM and ICI rapidly facilitate lordosis via activation of GPER in the ARH. Our first experiment demonstrated that injection of TAM intraperitoneal, or ICI into the lateral ventricle, deactivated MPN MOP and facilitated lordosis in EB-primed rats. We then tested whether TAM and ICI were acting rapidly through a GPER dependent pathway in the ARH. In EB-primed rats, ARH infusion of either TAM or ICI facilitated lordosis and reduced MPN MOP activation within 30 min compared to controls. These effects were blocked by pretreatment with the GPER antagonist, G15. Our findings demonstrate that TAM and ICI deactivate MPN MOP and facilitate lordosis in a GPER dependent manner. Thus, TAM and ICI may activate GPER in the CNS to produce estrogenic actions in neural circuits that modulate physiology and behavior.     

Androgen receptors are required for full masculinization of nitric oxide synthase system in rat limbic-hypothalamic region

The neuronal nitric oxide synthase (nNOS) is involved in the control of male and female sexual behavior and its distribution in several regions of the limbic–hypothalamic system, as well as its coexistence with gonadal hormones' receptors, suggests that these hormones may play a significant role in controlling its expression. However, data illustrating the role of gonadal hormones in controlling the nNOS expression are, at present, contradictory, even if they strongly suggest an involvement of testosterone (T) in the regulation of nNOS. The action of T may be mediated through androgen (AR) or, after aromatization to estradiol (E₂), through estrogen receptors.To elucidate the role of AR on nNOS expression, we compared male and female rats with a non-functional mutation of AR (Tfm, testicular feminization mutation) to their control littermates. We investigated some hypothalamic and limbic nuclei involved in the control of sexual behavior [medial preoptic area (MPA), paraventricular (PVN), arcuate (ARC), ventromedial (VMH) and stria terminalis (BST) nuclei]. In BST (posterior subdivision), VMH (ventral subdivision), and MPA we detected a significant sexual dimorphism in control animals and a decrease of nNOS positive elements in Tfm males compared to their littermate. In addition, we observed a significant increase of nNOS positive elements in BST (posterior) of Tfm females. No significant changes were observed in the other nuclei. These data indicate that, contrary to current opinions, androgens, through the action of AR may have a relevant role in the organization and modulation of the nNOS hypothalamic system.     

The inhibition of steroid-induced sexual behavior by intrahypothalamic actinomycin-D

Lordosis behavior can be elicited in the ovariectomized rat after treatment with estradiol benzoate (EB) and progesterone (P) injections, but the EB must act for an extended period before P can facilitate this behavior. The possibility that this action of EB involves the stimulation of RNA or protein synthesis was tested by implanting actinomycin D (Act-D) directly into the preoptic area, one probable site of estrogen action. A total dose of 0.18 μg Act-D in bilateral cocoa butter pellets significantly inhibited lordosis behavior when implanted 12 hr after the injection of 3 μg. but not 15 μg EB. Implantation of this dose of Act-D subcutaneously, or intrahypothalamically 32 hr after EB injection, was without effect. Act-D placed in the ventromedial hypothalamus also suppressed lordosis, but implants in the caudate nucleus were without effect. At the time of the behavioral tests the animals were in excellent condition as determined by calculation of a health score, and no physical lesions were evident at the site of the implants. However, it was impossible to test the reversibility of this suppression of lordosis behavior since the animals became ill and many died within 1–2 weeks of implantation. The present results are consistent with, but not proof of, the concept that RNA synthesis may be essential for steroidinduced sexual behavior.     

杏仁内侧核注射AVP和AVPMcAb对家兔ET性发热效应的影响

目的和方法：在大脑杏仁内侧核微量注射精氨酸加压素（ＡＶＰ）和精氨酸加压素单克隆抗体（ＡＶＰＭｃＡｂ）,观察其对家兔内毒素（ＥＴ）性发热效应以及视前区一下丘脑前部（ＰＯＡＨ）温敏神经元放电活动的影响。结果：①杏仁内侧核微量注射ＡＶＰ能明显抑制家兔ＥＴ性发热效应,注射ＡＶＰＭｃＡｂ能明显易化家兔ＥＴ性发热效应;②杏仁外侧核分别注射ＡＶＰ和ＡＶＰＭｃＡｂ则对家兔ＥＴ性发热效应无明显影响;③杏仁内侧核分别注射ＡＶＰ和ＡＶＰＭｃＡｂ后ＰＯＡＨ热敏神经元和冷敏神经元放电活动均无明显变化。结论：家兔杏仁内侧核也是ＡＶＰ抗热效应的一个重要的作用部位,杏仁内侧核注射ＡＶＰ的抗热作用途径与隔区注射ＡＶＰ的抗热途径可能不同