Sex differences in behavioral and corticosterone responses to mild stressors in ICR mice are altered by ovariectomy in peripubertal period

Among rodents, females are generally considered to be highly responsive in terms of emotionality under stressful conditions, and have higher corticosterone levels and activity. In this study, we examined sex differences in mice by evaluating anxiety behaviors and corticosterone responses to mild stressors. In our first experiment, we analyzed the behavioral and corticosterone responses to the elevated plus-maze test and open-field test in male and female mice, and compared sex differences. Principal component analysis (PCA) was used to investigate the correlation of these responses between males and females. The corticosterone level was higher in females under both basal and stressed conditions. In the behavioral response, higher locomotor activity was seen in females in the elevated plus-maze test. PCA showed little association among anxiety behavior, locomotor activity, and corticosterone secretion. In our second experiment, we examined the activational effects of sex steroids on the corticosterone response to the elevated plus-maze test by gonadectomizing male and female mice and using testosterone or estrogen capsules as hormonal replacements. Sex differences at the basal corticosterone level were not altered by the hormonal milieu in adults, however the higher corticosterone level of females in response to stress was diminished by ovariectomy, although replacement with neither testosterone nor estrogen had any effect. These results suggest that the sex difference in novelty exposure observed in the form of a greater hypothalamic-pituitary-adrenal (HPA) axis response in female ICR mice is controlled by ovary-derived factors in adults.     

Behavior of female and male mice submitted to action of p-chlorophenylalanine in prenatal ontogenesis

Effect of serotonin (5-HT) deficit produced by administration ofp-chlorophenylalanine at a dose of 400 mg/kg to pregnant female mice on the day 8 of gestation and on the subsequent behavior of their offspring (hybrids F1 (C57BL/CBA)) was studied. The 5-HT deficit in prenatal ontogenesis leads to the following changes of behavior: 1) females and males of the experimental group show a higher level of the explorative activity in the "open field" than control animals; 2) in females of the experimental group at the age of 90 days, unlike control females and males of experimental and control groups, the explorative activity is extinguished at the threefold testing in the "open field"; 3) females of the experimental group have a decreased level of anxiety in tests "elevated plus-maze" and the "dark-light chamber". Males of the experimental group, on the contrary, have an elevated level of anxiety. The obtained data show that the 5-HT deficit at the prenatal period affects various aspects of behavior. The degree of the changes produced by the prenatal 5-HT deficit can have different manifestation depending on sex of the animals.     

Participation of progesterone receptors in plus-maze behavior in female mice

The current study tested delayed effect pf progesterone on the anxiety level of female mice. The elevated plus maze (EPM) behavior was assessed in ovariectomized mice injected for 7 days with estradiol benzoate and progesterone or progesterone alone after 6 hrs of the last treatment. One group of ovariectomized mice was injected with progesterone receptor blocker Mifepristone before 2 hrs of the last treatment. The immunocytochemistry method was used to visualize cells in different brain areas having immunoreactivity (ir) for progesterone receptors. In the EPM, progesterone administration significantly increased the anxiety levels of ovariectomized mice as compared with estradiol benzoate and progesterone administration. The participation of nuclear progesterone receptors in anxiety levels regulation is confirmed by high correlation of the change of progesterone receptor-ir cell number in some brain areas and anxiety levels. Mifepristone decreased anxiety levels and progesterone receptor-ir cell number in both groups of mice that suggests involvement of genomic mechanisms in anxiety regulation in female mice.     

Behavior of male and female mice submitted to action of <Emphasis Type="Italic">p</Emphasis>-chlorophenylalanine in prenatal ontogenesis

Effect of serotonin (5-HT) deficit produced by administration of p-chlorophenylalanine at a dose of 400 mg/kg to pregnant female mice at the 8th day of gestation on the subsequent behavior of their offspring (hybrids F1(C57BL/CBA)) was studied. The 5-HT deficit in prenatal ontogenesis leads to the following behavioral changes: (1) females and males of the experimental group have a higher level of the explorative activity in the “open field” than control animals; (2) in females of the experimental group at the age of 90 days, unlike control females and males of experimental and control groups, the explorative activity is extinguished at the threefold testing in the “open field”; (3) females of the experimental group have a decreased level of anxiety in tests “elevated plus-maze” and the “dark-light” chamber. Males of the experimental group, on the contrary, have an elevated level of anxiety. The obtained data show that the 5-HT deficit at the prenatal period affects various aspects of behavior. The degree of the changes produced by the prenatal 5-HT deficit can have different manifestations depending on sex of the animals.     

Influence of melatonin on mammary gland growth: in vivo and in vitro studies

Our objective was to determine whether melatonin influenced mammary growth in response to mammogenic hormones. Prepubertal female BALB/c mice were injected for 9 days with 1 microgram of 17 beta-estradiol and 1 mg of progesterone or 17 beta-estradiol/progesterone plus 50, 100, or 200 micrograms of melatonin. Area of the parenchyma and total DNA content of the second thoracic gland were similar between controls and melatonin-injected mice. However, micrograms of DNA/100 mg of mammary tissue were lower in animals treated with 17 beta-estradiol/progesterone plus 200 micrograms of melatonin than in controls. Triglyceride content of mammary glands from animals treated with 100 or 200 micrograms of melatonin/day increased relative to controls. In an in vitro experiment, thoracic mammary glands of 21-day-old mice were cultured for 6 days in a mammogenic milieu of hormones (17 beta-estradiol/progesterone, aldosterone, bovine prolactin, growth hormone, and insulin) with 0 (control), 10(-6), 10(-9), or 10(-12) M melatonin. Relative to controls, 10(-12) M melatonin increased and 10(-6) M melatonin decreased mammary DNA and uptake of [methyl-3H]thymidine. We conclude that high doses of melatonin reduce mammary development in normal mice and that some of this effect may be mediated directly at the mammary tissue.     

Bovine placental lactogen stimulates DNA synthesis of bovine mammary tissue maintained in athymic nude mice

Mammary tissue from five midpregnant heifers was transplanted subcutaneously into ovariectomized athymic mice (eight pieces/mouse). After a recovery period of 19 days, mice were injected daily for 5 days with buffer (50 mM NH4HCO3, pH 7.8) as control, 17 beta-estradiol (1 micrograms) plus progesterone (1 mg). Concurrently with the buffer or steroid hormone injections, mice were injected with bovine placental lactogen (0, 5, or 25 micrograms), bovine prolactin (0, 3.4, or 17.2 micrograms), or bovine growth hormone (0, 3.4, or 17.2 micrograms). All mice were injected with 2-bromo-alpha-ergocryptine (0.1 mg/day). Transplanted bovine mammary tissue was incubated for 4 hr in minimum essential medium containing 1 mu Ci/ml [3H]TdR. Two pieces were processed for autoradiography and the others were used for DNA assay and total [3H]TdR uptake. Bovine placental lactogen, prolactin, and growth hormone each increased [3H]TdR incorporation into DNA in a linear, dose-response manner. Addition of ovarian steroids to bPL resulted in a significant increase over protein hormones alone. Autoradiographic analysis indicated that the observed differences in DNA synthesis were due to hormonal effects on epithelial, rather than stromal, DNA synthesis. These results provide the first evidence of a mammogenic role of bovine placental lactogen.     

Effects of sexual steroid hormones on the functionality of murine peritoneal macrophages.

In the present work, we studied the possible effect of steroid hormones, estradiol, progesterone, and 5 alpha-dihydrotestosterone, on different phenotypic and functional characteristics of peritoneal adherent mononuclear cells. We used female and male mice of Balb/c strain, normal, gonadectomized, and gonadectomized with hormonal replacement. We found that gonadectomy in both sexes produced a significant decrease in the functionality of membrane receptors for the complement and in phagocytic activity of Candida albicans-anti-C albicans system. In addition, the percentages of cells that reduced nitroblue tetrazolium were diminished in castrated animals. Ovariectomized females injected with estradiol presented normal levels of phagocytic and metabolic capacities, but the expression of membrane receptors for complement remained decreased. In contrast, progesterone treatment of ovariectomized animals had the opposite effect. Simultaneous treatment with estradiol plus progesterone gave results similar to those observed with estradiol only. Dihydrotestosterone per se did not affect any of the parameters measured in the conditions used here. These results suggest that female steroids affect macrophage functionality, probably by regulating surface receptors that are involved in phagocytic activity.     

Influence of sex steroid hormones on cerebrovascular function.

The cerebral vasculature is a target tissue for sex steroid hormones. Estrogens, androgens, and progestins all influence the function and pathophysiology of the cerebral circulation. Estrogen decreases cerebral vascular tone and increases cerebral blood flow by enhancing endothelial-derived nitric oxide and prostacyclin pathways. Testosterone has opposite effects, increasing cerebral artery tone. Cerebrovascular inflammation is suppressed by estrogen but increased by testosterone and progesterone. Evidence suggests that sex steroids also modulate blood-brain barrier permeability. Estrogen has important protective effects on cerebral endothelial cells by increasing mitochondrial efficiency, decreasing free radical production, promoting cell survival, and stimulating angiogenesis. Although much has been learned regarding hormonal effects on brain blood vessels, most studies involve young, healthy animals. It is becoming apparent that hormonal effects may be modified by aging or disease states such as diabetes. Furthermore, effects of testosterone are complicated because this steroid is also converted to estrogen, systemically and possibly within the vessels themselves. Elucidating the impact of sex steroids on the cerebral vasculature is important for understanding male-female differences in stroke and conditions such as menstrual migraine and preeclampsia-related cerebral edema in pregnancy. Cerebrovascular effects of sex steroids also need to be considered in untangling current controversies regarding consequences of hormone replacement therapies and steroid abuse.     

Dissociation of copulation from ovulation in pregnant rabbits

Experiments were designed to determine why copulation in the pregnant rabbit does not terminate pregnancy while treatment with ovulatory doses of luteinizing hormone (LH) human chorionic gonadotropin (hCG) or luteinizing hormone-releasing hormone (LHRH) is known to do so. Pregnant rabbits (Day 8) were mated or were injected with hCG (25 IU/doe) or LHRH (1, 10 micrograms/kg). Serial blood samples were collected over the next 72 h and analyzed for content of LH, follicle-stimulating hormone (FSH) and progesterone. At sacrifice, uteri and ovaries from these animals were examined for viability of the embryos and for signs of recent ovulation. Injection of hCG or LHRH into pregnant animals led to ovulation and to patterns of LH, FSH and progesterone secretion like those which precede ovulation in estrous rabbits. However, mating the pregnant does did not lead to ovulation or to any changes in the circulating hormones. To investigate whether the elevated levels of progesterone during pregnancy were responsible for the dissociation of coitus from ovulation, nonpregnant rabbits were injected with progesterone (2 mg/kg) and then mated or injected with hCG or LHRH. In virtually every respect, the numbers of ovulations and the patterns of hormone secretion in the progesterone-treated, nonpregnant rabbits mimicked those observed in the 8-day pregnant animals; injection of hCG or LHRH caused ovulation and hormonal surges while hCG caused ovulation only. Mating did not lead to ovulation or any change in blood levels of LH, FSH or progesterone. Taken together, the results show that the elevated circulating levels of progesterone, characteristic of pregnancy, are probably responsible for the dissociation of copulation from gonadotropin release in pregnant rabbits.     

Maintenance of functional corpora lutea in androgenized female rats treated with OMSG

Rats were androgenized by injection of 50 micrograms testosterone propionate on the 5th day after birth and when adult were treated with 5 i.u. PMSG; some of the animals were mated. Serum was obtained daily and the concentrations of progesterone, 20 alpha-dihydroprogesterone and prolactin, estimated by radioimmunoassays, were compared to values found for mated, but not ovulating, androgenized females and those for normal pregnant females. Ovulation and luteinization of follicles occurred. The concentration of progesterone increased after the injection of PMSG and remained elevated for at least 10 days; mating did not alter the progesterone levels. The concentration of 20 alpha-dihydroprogesterone was also elevated but the ratio of the level of progesterone to this steroid was generally greater than unity. Prolatin levels were elevated in the rats which ovulated. It is concluded that the corpora lutea induced in androgenized females by PMSG are functional and maintained.     

Long-term ovariectomy enhances anxiety and depressive-like behaviors in mice submitted to chronic unpredictable stress

Ovarian hormones exert anti-depressive and anxiolytic actions. In this study we have analyzed the effects of ovariectomy on the development of anxiety and depression-like behaviors and on cell proliferation in the hippocampus of mice submitted to chronic unpredictable stress. Animals submitted to stress 4 months after ovariectomy showed a significant increase in immobility behavior in the forced swimming test compared to animals submitted to stress 2 weeks after ovariectomy. In addition, long-term ovariectomy resulted in a significant decrease on the time spent in the open arms in the elevated plus-maze test compared to control animals. Stress did not significantly affect cell proliferation in the hilus of the dentate gyrus. However, ovariectomy resulted in a significant decrease in cell proliferation. These results indicate that long-term deprivation of ovarian hormones enhances the effect of chronic unpredictable stress on depressive- and anxiety-like behaviors in mice. Therefore, a prolonged deprivation of ovarian hormones may represent a risk factor for the development of depressive and anxiety symptoms after the exposure to stressful experiences.     

Modulation of anxiety-related behaviors by mu- and kappa-opioid receptor agonists depends on the social status of mice

This study was aimed to determine the effects of mu- and kappa-opioid receptor activation in relation to the social status of mice, being a winner with repeated experience of victories or a loser with repeated experience of social defeats. The behaviors of the animals were assessed in a social encounter test measuring the communicative behavior towards a familiar and an unfamiliar partner behind a perforated transparent partition (partition test) and in an elevated plus-maze test estimating the anxiety level of mice. Placebo and graded doses of the mu-opioid receptor agonist DAMGO (0.5 and 2 mg/kg s.c.) and the kappa-opioid receptor agonist U-50,488H (0.6, 1.25, and 2.5 mg/kg s.c.) were administered to the control mice, winners and losers in two experiments. In the partition test, the winners spent somewhat more time and the losers less time than the controls in the vicinity of their partner probably related to a lower and higher level of anxiety respectively. In the plus-maze test the losers appeared to have a somewhat higher anxiety level than the controls and winners. In both tests DAMGO produced anxiogenic-like effects in the winners and the controls, but not in the losers. Winners hardly responded to treatment with U-50,488H, while the losers responded dose dependently with an anxiolytic-like effect in both tests. It is concluded that anxiety-like responses in mice are differentially affected by stimulation of mu- and kappa-opioid receptors and that the effects depend on the social status of the animals.     

Deletion of the mouse P450c17 gene causes early embryonic lethality

Dehydroepiandrosterone (DHEA), a 19-carbon precursor of sex steroids, is abundantly produced in the human but not the mouse adrenal. However, mice produce DHEA and DHEA-sulfate (DHEAS) in the fetal brain. DHEA stimulates axonal growth from specific populations of mouse neocortical neurons in vitro, while DHEAS stimulates dendritic growth from those cells. The synthesis of DHEA and sex steroids, but not mouse glucocorticoids and mineralocorticoids, requires P450c17, which catalyzes both 17 alpha-hydroxylase and 17,20-lyase activities. We hypothesized that P450c17-knockout mice would have disordered sex steroid synthesis and disordered brain DHEA production and thus provide phenotypic clues about the functions of DHEA in mouse brain development. We deleted the mouse P450c17 gene in 127/SvJ mice and obtained several lines of mice from two lines of targeted embryonic stem cells. Heterozygotes were phenotypically and reproductively normal, but in all mouse lines, P450c17(-/-) zygotes died by embryonic day 7, prior to gastrulation. The cause of this early lethality is unknown, as there is no known function of fetal steroids at embryonic day 7. Immunocytochemistry identified P450c17 in embryonic endoderm in E7 wild-type and heterozygous embryos, but its function in these cells is unknown. Enzyme assays of wild-type embryos showed a rapid rise in 17-hydroxylase activity between E6 and E7 and the presence of C(17,20)-lyase activity at E7. Treatment of pregnant females with subcutaneous pellets releasing DHEA or 17-OH pregnenolone at a constant rate failed to rescue P450c17(-/-) fetuses. Treatment of normal pregnant females with pellets releasing pregnenolone or progesterone did not cause fetal demise. These data suggest that steroid products of P450c17 have heretofore-unknown essential functions in early embryonic mouse development.     

Augmentation of the NO-cGMP cascade induces anxiogenic-like effect in mice.

Several studies have reported the anxiolytic-like effects of various nitric oxide synthase inhibitors in distinct animal models. However, in the context of anxiety, the possible involvement of cyclic GMP, believed to be one of the main targets of NO, remains obscure. Cyclic GMP is degraded by the specific phosphodiesterases in the brain. Therefore, we studied the effect of the selective phosphodiesterase type 5 inhibitor sildenafil in the mouse elevated plus-maze test of anxiety and in the open field test of locomotion. We found that sildenafil (0.05-10 mg/kg i.p.) alone did not affect the behavior of animals in the plus-maze or open field tests, but the anxiogenic beta-carboline DMCM given in a subconvulsive dose (2 mg/kg i.p.) decreased the time spent on open arms in the elevated plus-maze. Treatment with the NO precursor L-arginine (200 mg/kg i.p.) did not modify the behavior of animals in the plus-maze, however, when sildenafil (1 mg/kg i.p.) was administered in combination with L-arginine (200 mg/kg i.p.), both the time spent on the open arms and the percentage of open arm visits were significantly decreased. We conclude that augmentation of the NO-cGMP cascade induces anxiogenic-like effect in mice.     

Steroid-induced hippocampal synaptic plasticity: sex differences and similarities

Early in development, steroid hormones structurally organize various regions of the CNS. However, steroid hormones continue to affect the structure and function of the CNS throughout the life of the individual. In this review, we discuss sex differences and similarities in steroid-induced synaptic plasticity in the adult brain. Particular emphasis is placed on steroid-induced plasticity in the hippocampus, a brain region important in learning and memory. This topic is relevant to the growing evidence for the actions of sex hormones outside of the reproductive neuroendocrine axis. It also tells an important and emerging story about non-genomic and genomic actions of steroids at the cellular and molecular levels. Specifically, the effects of estrogen and progesterone as well as the androgens and glucocorticoids are discussed. The influence of steroids on hippocampal structure and function can differ vastly between the sexes. However, there are certain similarities that might aid in our understanding of how steroids affect CNS plasticity in general. Although future studies will undoubtedly lead us to a greater understanding of these phenomena, the data reviewed indicate that when studying synaptic plasticity, the sex and hormonal milieu of the individual might significantly influence the outcome and interpretation of the research.     

The dehydroepiandrosterone sulfate influence on anxiety and depressive behaviour: participation of mu-opioid receptors

The dehydroepiandrosterone sulfate (DHEAS) influence on anxiety and depressive behaviour was studied in animals after chronic stress exposures. It is shown that DHEAS (30 mg/kg) reduced anxiety in submission (with increased level of stress-induced anxiety resulting from chronic (20-days) defeats in aggressive interactions) of male mice of CBA/Lac strain in the "partition" test and in the plus-maze test, whereas in the control--only in the plus-maze test. DHEAS injection (30 mg/kg) in male Wistar rats decreased depressive behaviour in the Porsolt test in control and multiple (shuttling on the laboratory scrambler for 18 days by 1 hour in day) stressed animals. NaItrexone (0.25 mg/kg in mice and 0.1 mg/kg in rats) blocked anxiolytic and antidepressant-like effects of DHEAS. The findings suggest that these DHEAS effects are mediated by mu-opioid receptors.     

Gender differences in steroid modulation of angiotensin II-induced protein kinase C activity in anterior pituitary of the rat

To investigate whether the various steroid hormones can modulate the basal and angiotensin II-induced protein kinase C (PKC) activity in the anterior pituitary of the rat, female and male intact and ovariectomized female Wistar rats were treated in vivo with estradiol (E2), progesterone (P), dehydroepiandrostendione sulfate (DHEA-S), and pregnenolone sulfate (PREG-S). Estradiol caused the increase of basal PKC activity in intact and ovariectomized females, but did not change the enzyme activity in males. In ovariectomized animals the increase of PKC activity was lower than in intact females. Progesterone decreased PKC activity only in intact animals. DHEA-S strongly enhanced activity of PKC in ovariectomized females. Pregnenolone sulfate did not significantly change PKC function of all studied groups. Incubation with AngII enhanced the PKC activity in intact (without steroid treatment) animals of both genders. In females, AngII and estradiol together rise the PKC-stimulated phosphorylation in greater degree than used separately. Treatment with other investigated steroids reduced the effect of AngII. In intact males every examined hormone turned back the stimulatory effect of AngII on PKC activity. These data suggest that gender differences in PKC activity are likely related to hormonal milieu of experimental animals and may depend in part on the basic plasma level of estrogens.     

Behavioral analysis of consequences of chronic blockade of NMDA-type glutamate receptors in the early postnatal period in rats

In view of the hypothesis that glutamatergic dysfunction of brain can underlie the negative symptoms of schizophrenia (including cognitive deficit), the aim of this study was to develop a model of cognitive impairment in Wistar male rats after administration of a noncompetitive NMDA-receptor antagonist in early postnatal period. Rat pups were daily subcutaneously injected with 0.05 mg/kg MK-801 on postnatal days 7-49. On the 27th and 28th days 24 h after the last previous injection, the MK-801-treated rats demonstrated lower spontaneous locomotor and exploratory activity in comparison with saline control, however, they retained the reaction of hyperlocomotion which developed immediately after the MK-801 administration. In these rats, the anxiety level in the elevated plus-maze (on the 40th postnatal day) was found to be decreased, and the spatial learning in food rewarded task was negatively affected (on the 50th-54th days). It is suggested that impairment of the input of sensory information and its correct assessment by the animals can be associated with the early neonatal blockade of NMDA glutamate receptors.     

Photoperiodic control of gonadal endocrine function in silver-gray foxes and its alteration during domestication

Studies have been made on the level of estradiol and progesterone in domesticated and nondomesticated female silver foxes under different photoperiodic regime. The duration of the "light--darkness" cycle was equal to 24 h. Total duration of the light period was equal to 9 1/2 h; illumination was natural for 7 h, being artificial for the rest 2 1/2 h in a dark part of a day. It was demonstrated that additional illumination affects the hormonal level and sexual activity, the effect being dependent on the particular time of illumination. Nocturnal illumination significantly increased the level of sex hormones in the blood, domesticated animals being more sensitive as compared to nondomesticated ones.