Homo- and hypersexuality in rats with hypothalamic lesions

Sexual differentiation of childhood play: a contemporary psychoanalytic perspective

Freud (1905/1953) anchored his theories of unconscious psychological functioning in observations and inferences about childhood sexuality. These ideas remain influential among psychoanalysts today. Much progress subsequently occurred in extra-psychoanalytic research in human sexuality. This included the discovery in 1959 of an entirely new area of psychology: the sexual differentiation of behavior (Phoenix, Goy, Gerall, & Young, 1959; Wallen, 2009). The observations that led to this new field originally concerned the effects of androgen administered prenatally to non-human animals. This early research was compatible with later studies of humans as well. Prenatal androgen influences both erotic and non-erotic behavior, including childhood rough-and-tumble play (RTP). We have previously emphasized the need to integrate this psychoneuroendocrine knowledge with psychoanalytic theory and practice (Friedman, 1988; Friedman & Downey, 2002, 2008a, 2008b). In this article, we discuss additional aspects of the relationship between sexually differentiated childhood play, particularly RTP, and gender differences in psychosexual development and functioning. These topics and other aspects of the sexual differentiation of behavior have been under-emphasized in psychoanalytic thought.

Modelling facets of mania--new directions related to the notion of endophenotypes

The lack of appropriate animal models is a major limitation in research of bipolar disorder (BPD): at this time there are very few models for this devastating disease. Whereas limited attempts have been made to develop comprehensive models for BPD, the new notion of endophenotypes encourages us to explore the possibility of developing separate models for separate facets of the disorder. Since more models are available for depression, there is a dire need for models for mania that will be relatively easy and simple to induce and test and will therefore be practical for purposes of screening possible new drugs or mutant mice that are developed based on novel molecular theories. Such models may already be tentatively available as they were developed in the context of other disorders, but there is a need to validate them for mania. The present paper proposes such models for most of the facets of mania including: increased energy, activity or restlessness; extreme irritability; reduced sleep; provocative, intrusive or aggressive behaviour; increased sexual drive; abuse of drugs; distractibility, reduced ability to concentrate; and unrealistic beliefs in one's abilities and powers resulting in poor judgement. Validating these models may demand a major research effort but it may be worthy as validated models for the different facets of mania could then be used efficiently and may be utilized to construct a standard battery of tests that can serve to explore the various components of manic-like behaviour in rodents.

Hormonal-neural integration in the female rat ventromedial hypothalamus: triple labeling for estrogen receptor-alpha, retrograde tract tracing from the periaqueductal gray, and mating-induced Fos expression

The lordosis reflex, a stereotypic posture adopted by female rats during sexual behavior, requires the convergence of a hormonal signal, estrogen, with a descending neural pathway from the ventromedial hypothalamic nucleus (VMH). The VMH contains at least three lordosis-relevant neural populations: estrogen receptor-alpha immunoreactive (ERalpha-IR) neurons, VMH neurons that project to the periaqueductal gray (PAG), and neurons that are ERalpha-IR and project to the PAG. Expression of Fos, a marker for neuronal activation, is increased in the VMH after mating. However, it is unknown which, if any, of these lordosis-relevant populations is activated. The majority of ERalpha-IR and projection neurons were not colocalized. Of the Fos-positive neurons, 41% neither contained ERalpha nor projected to the PAG, and 35% contained ERalpha but did not project to the PAG. Only 25% of Fos-positive neurons projected to the PAG, including projection neurons that expressed ERalpha. Our results suggest that mating activates several distinct VMH neuron types. However, ERalpha-IR neurons are activated to a greater extent compared with the PAG-projecting neurons.

Oestrogen-induced vigorous mounting in female rats carrying hypothalamic knife cuts

In ovariectomized Wistar rats, 1- or 2-mm wide knife cuts were placed in a coronal plane from the surface of the cortex to the floor of the cranial cavity to interrupt posterior efferents of the ventromedial nucleus of the hypothalamus (VMN). Sham-operated females had the same knife lowered to a depth of 7 mm. Ovariectomized nonoperated females were also used. After recovery, all rats received a single injection of 2 microg oestradiol benzoate, and were tested 48 h later for male and female sexual behaviour and partner preference. When placed with highly receptive stimulus females, the rats with the 2-mm cut showed a significantly higher incidence of mounting with ejaculatory thrusts than any other groups. When placed with stud males, 1-mm cut, as well as sham-operated females, had increased lordosis quotients. Similarly, both 1-mm and 2-mm cuts and sham operation enhanced the incidence of ear wiggling. Despite the display of a transsexual behaviour (i.e. vigorous mounting), all females with the cut showed heterosexual partner preference. Thus, the cut in the present study removed the inhibitory neural effect on mounting, which presumably descends from the VMN. In the absence of this inhibition, minute amounts of oestrogen sufficed to induce vigorous mounting. Sham operation in the present study appeared to interfere with certain inhibitory neural circuitry for lordosis.

Acceleration of mounting behaviors in female rats by ibotenic acid lesions in the ventromedial hypothalamic nucleus

To clarify the role of the ventromedial (VMH) or dorsomedial (DMH) hypothalamic nucleus in regulating male sexual behavior in female rats, radiofrequency or ibotenic acid lesions were made in ovariectomized rats, and three behavioral tests in total were carried out after implantation of Silastic tubes containing testosterone. As a result, females with radiofrequency or ibotenic acid lesions in the VMH showed higher levels of mounting behavior than those in females with no brain surgery or with sham-operation. The incidence of intromissive pattern in females with ibotenic acid lesions but not in females with radiofrequency lesions was higher than those in other female control groups. In the group of radiofrequency lesions in the DMH, both frequencies of mounting and intromissive pattern were lower than those in control and sham groups. No ejaculatory pattern was seen in any of the female groups. These results indicate that neuronal cell bodies in the VMH, but not in the DMH, exert an inhibitory influence on mounting activity in female rats.

Dissociation of hypothalamic effects on ultrasound production and copulation

Two studies were conducted to compare the brain mechanisms for copulation with those controlling other sexual behaviors, such as the ultrasonic calls that help hamsters and other rodents attract potential mates. Specifically, male and female golden hamsters were castrated and hormone-primed prior to being observed for rates of ultrasound production and levels of sex-typical copulatory behavior (mounts, intromissions and ejaculations in males; lordosis in females). Such tests were conducted before and after subjects received sham operations or bilateral lesions of the preoptic area (POA), anterior hypothalamus (AH) or ventromedial hypothalamus (VMN). The results confirmed previous work in showing the POA lesions decrease rates of intromission, ejaculation and ultrasound production, while VMH lesions decrease lordosis duration. More surprising was the tendency of VMN lesions to increase rates of ultrasonic calling by both males and females. For males, these effects identify differences between the neural circuits controlling copulatory and noncopulatory sexual behaviors. For females, they suggest a mechanism for the behavioral incompatibility of ultrasound production and lordosis. In particular, they raise the possibility that the suspension of ultrasonic calling that normally accompanies lordosis reflects an increase in VMN activity that simultaneously provokes lordosis and inhibits vocalization.

Developmental and hormonal factors in the sexually dimorphic, asymmetrical response to focal cortical lesions

The developmental and hormonal determinants of the lateralized response to focal cortical suction lesions were examined in a series of experiments. In an initial study, Sprague-Dawley male rats 25, 30, 55 or 90 days of age, received right unilateral focal frontocortical suction lesions. Only 90-day-old rats developed hyperactivity, suggesting a specific role for maturational factors in the production of this response. Prepubertally castrated adult male rats receiving right frontocortical suction lesions at 90 days also failed to develop hyperactivity, suggesting that sexual maturational factors and/or the presence of testosterone are necessary for the expression of this response. Testosterone implants, producing physiological relevant levels of circulating testosterone reinstated the hyperactivity response to adult cortical lesions in prepubertally castrated male rats. Similar lesions in the left hemisphere, however, did not produce hyperactivity in castrated male rats with testosterone replacement. Finally, in ovariectomized adult female rats, testosterone did not allow the expression of a hyperactivity response to right frontocortical suction lesions. Together, these results demonstrate both an organizational and permissive role for sex steroids in the sexually dimorphic asymmetrical response to cortical injury.

Effects of septal lesion on lordosis response induced by estradiol in middle-aged and old female rats

Long-Evans female rats were divided into three age groups: 10 young rats (5 months of age), 7 middle-aged rats (10-13 months of age) and 6 old rats (21-27 months of age). The rats were ovariectomized and immediately implanted subcutaneously with a silastic capsule filled with estradiol benzoate (E2). Lordosis response was compared in each animal before and after the septal lesion. Serum E2 levels were 197 +/- 27 pg/ml (mean +/- SEM), 192 +/- 81 pg/ml and 405 +/- 83 pg/ml in young, middle-aged and old rats respectively. When serum E2 levels were adjusted by analysis of covariance, LQ (lordosis quotient) was 42, 36 and 61 in young, middle-aged and old rats respectively before the septal lesion and 98, 68 and 88 respectively after the septal lesion. The extent of potentiation of lordosis after the septal lesion was less in middle-aged and old rats than young rats. These results indicate that an enhanced lordosis response in aged rats is partly due to high circulating E2 levels and partly due to disinhibition of the septal region on lordosis.

Physiology of sexual behavior. Embryologic organization and adult activation

Recent studies suggest that sexual behavioral function should be integrated into the framework of sexual physiology as a neuroendocrine phenomenon. Evidence of embryonic neuronal induction and subsequent adult activation and functioning of sex specific circuitry is reviewed.

The effect of medial preoptic--anterior hypothalamic lesions on bisexual behavior of the male rat

The effects of bilateral radiofrequency lesions in various parts of the medial preoptic area (mPOA) and anterior hypothalamus (AH) on masculine and hormone induced feminine sexual behavior was studied in male rats. Anatomical as well as statistical analysis of the extent and location of the lesions and the consequent behavioral changes indicated that different parts of the mPOA-AH continuum are involved in masculine and feminine sexual behavior in different ways. Bilateral destruction at the transition of the mPOA and AH resulted in a large reduction of masculine sexual activity while lesions concentrated in the AH slightly facilitated feminine sexual behavior in males. These results are consistent with the notion that the mPOA-AH continuum is divided into anatomically and functionally different parts.

Independent masculinization of neuroendocrine systems by intracerebral implants of testosterone or estradiol in the neonatal female rat

Small pellets of testosterone (T) or estradiol (E2), but not cholesterol (CH), when implanted into the brain of neonatal female rats on day 2 or day 5 of life, produce masculinization of the adult regulation of gonadotropic hormone (GTH) release, female sexual behavior or masculine sexual behavior, specific to the site and time of implantation and the hormone implanted. Site specificity: There appear to be specific neuronal sites where implantation of T or E2 produces independent masculinization of GTH, female sexual behavior or masculine sexual behavior patterns. Implants of T or E2 placed in the dorsal preoptic area (POA) perinatally increase the amount of masculine sexual behavior displayed by adults. On the other hand, the ventromedial hypothalamus (VMH) is the only area in which neonatal implants of T or E2 produce GTH acyclicity in adults. Female sexual behavior is affected in opposite directions by hormonal implants in two different areas. Neonatal implants of T or E2 in the POA increase adult behavioral responsiveness to estradiol benzoate (EB) alone, whereas implants in the VMH decrease adult responsiveness to EB plus progesterone therapy. Temporal specificity: The most effective time for augmenting masculine sexual behavior is before day 5, since hormone implants on that day produce marginal effects on male sexual behavior, whereas day 2 implants in POA results in substantial increases in both mount and intromission patterns. GTH release in masculinized equally well by implants of hormones on either day 2 or day 5. Female sexual behavior is affected only by neonatal implants on day 2. Hormone specificity: Estradiol is as effective as T in masculinizing all three neuroendocrine parameters. In any particular neural site in which T implants produce an alteration in the neuroendocrine response, a similar effect is produced by E2 implants in the same site. It is suggested that independent masculinization of GTH, female sexual behavior and masculine sexual behavior patterns is produced by the action of T and/or E2 on separate neural areas, and that these neural areas may be susceptible to the action of hormones at different times.

Modifications in gonadotropin control and reproductive behavior in the female rat by hypothalamic and preoptic lesions

Effects of small hypothalamic and preoptic area lesions on vaginal cyclicity, ovulation and ovarian weights of female rats were examined. Animals were then gonadectomized and tested for lordosis behavior following injections of estrogen alone and estrogen plus progesterone. Male sex behavior was also measured during daily treatment with testosterone. Relative to sham operated rats, lesions in the dorsal preoptic area produced a significant increase in lordosis behavior, virtual elimination of male sex behavior, and only marginal effects on ovarian function. Animals with lesions in the ventral preoptic area showed constant vaginal cornification, lack of ovulation and significantly smaller ovaries than the other groups. These rats also tended to show more female sex behavior and less male sex behavior than sham operated rats. Animals with lesions in the anterior hypothalamus and dorsomedial hypothalamus showed normal ovarian function and levels of female and male sex behavior comparable to the ventral preoptic lesioned rats. Animals with lesions in the ventromedial hypothalamus tended to show lower levels of lordosis behavior than sham animals but displayed a dramatic and significant increase in male copulatory behavior relative to the other groups. These data indicate a clear dissociation between the neural control of cyclic gonadotropin activity and sex specific reproductive behavior.

Effects of hypothalamic and preoptic lesions on reproductive behavior in male rats

Adult male rats, which were selected on the basis of showing complete patterns of male copulatory behavior on two prior tests, were castrated six weeks prior to brain surgery. Animals were divided into three groups and given small bilateral lesions in the dorsomedial preoptic area (POA), ventromedial hypothalamus (VMH), or sham operations. Starting 10 days postsurgery, all animals were injected with estrogen alone and estrogen plus progesterone, and tested twice for lordosis behavior. Ten days following the female behavior tests, animals were injected daily with testosterone propionate for 13 days and tested for masculine sexual behavior on injection 5, 9 and 13. Low levels of lordotic behavior were observed for POA and VMH animals on both tests for female sex behavior and were comparable to sham operated animals. However, in terms of all dependent measures of male copulatory behavior, animals with VMH lesions showed significantly higher levels of male sex behavior with shorter latencies than sham animals across all three behavior tests. In contrast, POA lesioned rats showed little or no male sex behavior on any test and were significantly inferior to sham operated animals. Thus, the POA and VMH appear to exert excitatory and inhibitory control, respectively, over male copulatory behavior in male rats.

Efferents from medial basal forebrain and hypothalamus in the rat. II. An autoradiographic study of the anterior hypothalamus

Using tritiated amino acid autoradiography, the efferent projections of the anterior hypothalamic area (AHA) were studied in albino rats. Axons from AHA neurons were not confined to local projections in the hypothalamus. Ascending AHA axons ran through the preoptic region, joined the diagonal band and distributed in the lateral septum. Descending AHA efferents within the hypothalamus coursed in a bundle ventromedial to the fornix. Projections were observed to the dorsomedial, ventromedial, arcuate and dorsal premammillary nuclei, and to the median eminence. Sweeping dorsomedially in the posterior hypothalamus, some AHA axons distributed in the central grey. AHA axons staying ventral projected to the supramammillary region, ventral tegmental area, raphe nuclei and midbrain reticular formation. Other AHA efferents distributed to the periventricular thalamus, to the medial amygdala via the stria terminalis or supraoptic commissure, and to the lateral habenula through the stria medullaris. For comparison with the AHA, efferent projections from the paraventricular nucleus (PVN) and from the ventromedial nucleus and adjacent basal hypothalamus (VMR) were studied. Projections from PVN neurons were not restricted to the median eminence and neurohypophysis. PVN efferents also distributed to many of the same regions as did those of the AHA but had somewhat different fiber trajectories and longer descending projections. VMR efferents were more widespread than those of the AHA, with projections extending into the lateral zona incerta and pontine reticular formation. Projections from the AHA were distinct from those of the medial preoptic area (mPOA). For example, while AHA axons descended in a bundle ventromedial to the fornix, mPOA axons ran in the medial forebrain bundle. Such anatomical differences may underlie experimentally demonstrated functional differences between the mPOA and AHA, for instance, in mediation of male and female sex behaviors.

[Value of cytogenetic study in transsexualism]

By reviewing the syndromic manifestation, transsexualism in characterized as a psychiatric entity, apart from homossexualism and transvestism. The two main feasible etiologic causes of transsexualism are discussed: the psychoanalytical hypothesis based upon psycossexual regression with imprinting of maternal figure and the neuroendocrine model which assumes alterations of the gender role identity centers in the hypothalamus. On the grounds of the latter explanation and after the scheme that seems to occure in the Morris syndrome whose cells (XY) do not respond to the masculinizing effect of plasma testosterone, it is proposed that transsexuals should possess detectable or cryptic sex-chromosome mosaicism affecting hypothalamic centers of gender role identity which do not respond to the androgenic secretion produced by primitive gonad. This possibliity explains the excessive prevalence of the syndrome among men, its typical features in the male as well as its sporadic occurrence. Cytogenetic investigation reveals that the frequency (32%) of sex-chromosome mosaicism among 25 transsexuals and 40 normal control people, both groups presenting the proportion of the mosaicism practically null. The karyotypic criterion as a valuable aid in the syndrome diagnosis is considered.

Single unit recording in hypothalamus and preoptic area of estrogen-treated and untreated ovariectomized female rats

Single unit activity was recorded with micropipettes in the medial hypothalamus and preoptic area of urethane-anesthetized ovariectomized female rats. Some females had received long-term estradiol treatment, while others had been left untreated. In the medial preoptic region and bed nucleus of the stria terminalis, estrogen-treated rats had fewer cells (compared to untreated rats) with recordable spontaneous activity, due primarily to a loss of cells with very slow firing rates. In the basomedial hypothalamus, estrogen-treated rats had more cells (than untreated rats) with recordable spontaneous activity, due primarily to an increase in the number of cells with slow firing rates. Responsiveness of neurons to somatosensory stimulation was generally low. If present it was depressed by estrogen treatment in medial preoptic area and bed nucleus of stria terminalis, while it tended to be elevated by estrogen treatment in medial anterior hypothalamus and basomedial hypothalamus. Differences in the effects of long-term systemic estrogen treatment on medial preoptic neurons compared to basomedial hypothalamus are paralledled by differences in the control of lordosis by these neurons in female rats.

Axonal projections of medial preoptic and anterior hypothalamic neurons

Projections from medial preoptic area (mPOA) and medial anterior hypothalamic area (mAHA) neurons were investigated in albino rats with the use of tritiated amino acid autoradiography. Both the mPOA and the mAHA gave long-axon projections to structures in limbic forebrain and midbrain as well as short-axon projections to other hypothalamic regions. Differences between mPOA and mAHA neurons were observed in projections to the mid-septal region, ventromedial hypothalamus, premammillary region, and central gray. Further, while axons from the mPOA traveled within the medial forebrain bundle, those from the mAHA remained in a band ventromedial to the fornix. These anatomical differences may underlie functional differences between the mPOA and mAHA which have been demonstrated with other experimental techniques.