ABSTRACT
The volume of the anteroventral periventricular nucleus (AVPv) of the rat hypothalamus is larger in females than in males. A preliminary study from this laboratory found that this sexual dimorphism develops between days 30 and 91. The present study was designed to confirm and extend these findings and to determine the role of endogenous gonadal steroids in the development of the AVPv postnatally. The results indicate that the sexual dimorphism in AVPv volume arises between days 30 and 40 and that the length of the nucleus becomes sexually dimorphic between days 60 and 80. Additionally, both AVPv volume and length increased between days 30 and 80 in females. Castration of male rats on the day of birth sex-reversed AVPv volume in adulthood and AVPv length was sex-reversed by castration of males 5 days after birth; ovariectomy of females at these ages had no effect on either parameter. Moreover, in both males and females, AVPv volume and length were unaffected by gonadectomy at later ages. That the AVPv appears to be influenced by testicular hormones neonatally, but changes structurally around the time of puberty in females, clearly challenges current concepts of sexual differentiation that limit the process to the early postnatal period.
Subject(s)
Aging/physiology , Gonadal Steroid Hormones/pharmacology , Paraventricular Hypothalamic Nucleus/anatomy & histology , Paraventricular Hypothalamic Nucleus/drug effects , Sex Characteristics , Animals , Animals, Newborn , Female , Male , Orchiectomy , Ovariectomy , Paraventricular Hypothalamic Nucleus/growth & development , Rats , Rats, Sprague-Dawley , Sexual Maturation/physiologyABSTRACT
The volume of the sexually dimorphic nucleus of the preoptic area (SDN-POA) of the rat is several times larger in males than in females. Several studies have established the importance of gonadal steroids perinatally in the sexual differentiation of the SDN-POA as well as a critical period for the permanent influences of exogenous androgen on the volume of the nucleus. Recent preliminary evidence from this laboratory had suggested, however, that the critical period for the effects of the removal of endogenous gonadal steroids on SDN-POA volume may not match that for the administration of exogenous gonadal steroids. A series of experiments was designed to examine further the effects of the removal of endogenous gonadal steroids on adult SDN-POA volume by castrating male rats at various ages. In spite of a rather clear definition of a postnatal critical period for the effects of exogenous steroid administration, the results of this study indicate that the volume of the SDN-POA is sensitive to the removal of endogenous gonadal steroids for a prolonged period of time, extending through at least day 29 postnatally. The data suggest that there may be multiple critical periods for the sexual differentiation of the SDN-POA and reinforce the concept that these critical periods are distinct from those for other sexually differentiated parameters.
Subject(s)
Preoptic Area/physiology , Sex Characteristics , Sex Differentiation/physiology , Animals , Female , Luteinizing Hormone/pharmacology , Male , Posture , Rats , Rats, Sprague-Dawley , Sexual Behavior, Animal/physiology , Time FactorsABSTRACT
The volume of the sexually dimorphic nucleus of the preoptic area of the hypothalamus (SDN-POA) was determined in 14-31-day-old male and female rats whose mothers received a liquid diet containing 5% w/v ethanol from day 8 of gestation to parturition. Pair-fed dams received as a nutritional control an equal volume of an isocaloric liquid diet with maltose-dextrin in place of ethanol. Normal controls had laboratory rat chow and water available ad lib. The SDN-POA volume of ethanol-exposed males was significantly reduced compared to the pair-fed and normal males, and became indistinguishable from the SDN-POA volumes of the pair-fed and normal females. Ethanol-treated females also had a markedly reduced SDN-POA volume compared to the pair-fed and normal females. Our findings indicate that the SDN-POA of prepubertal rats of both sexes is sensitive to the effects of in utero ethanol exposure. While plasma testosterone, progesterone and estradiol titers, which we measured in fetuses on gestation day 22, were differentially affected by maternal ethanol consumption, the alterations by themselves cannot adequately explain the effects of prenatal ethanol exposure on the developing SDN-POA.
Subject(s)
Fetal Alcohol Spectrum Disorders/pathology , Preoptic Area/drug effects , Sex Differentiation/drug effects , Sexual Maturation/drug effects , Animals , Body Weight/drug effects , Body Weight/physiology , Estradiol/blood , Ethanol/toxicity , Female , Male , Maternal-Fetal Exchange/drug effects , Maternal-Fetal Exchange/physiology , Organ Size/drug effects , Organ Size/physiology , Pregnancy , Preoptic Area/pathology , Progesterone/blood , Rats , Rats, Inbred Strains , Sex Differentiation/physiology , Sexual Maturation/physiology , Testosterone/bloodABSTRACT
The volume of the sexually dimorphic nucleus of the preoptic area (SDN-POA) of the rat brain is severalfold larger in males than in females. The volume of the SDN-POA can be influenced significantly by the hormonal milieu during the perinatal "critical period" of sexual differentiation of the brain. The purpose of the present study was to determine the onset of this period of sexual differentiation of the SDN-POA. Pregnant rats received no treatment or were injected subcutaneously with oil on day 17, 18, or 20, or testosterone (T;5 mg) on days 16-22 of gestation. On postnatal day 15, unilateral SDN-POA volumes from female offspring prenatally exposed to testosterone on day 16 or 17 were not different from values of control (untreated or oil-injected) offspring. Female offspring from mothers treated with testosterone on day 18, 19, or 20 of gestation showed a significant and similar increase in SDN-POA volume over values from control animals. SDN-POA volumes from female offspring exposed to testosterone on day 21 or 22, although larger than those of controls, were not different statistically. We conclude that with the specific paradigm used in this study SDN-POA development is insensitive prior to day 18 of gestation, the day on which the onset of the hormone-sensitive period occurs.
Subject(s)
Fetus/physiology , Gonadal Steroid Hormones/physiology , Preoptic Area/embryology , Sex Characteristics , Animals , Animals, Newborn , Female , Gestational Age , Male , Preoptic Area/growth & development , Preoptic Area/physiology , Rats , Testosterone/pharmacologyABSTRACT
The volume of the sexually dimorphic nucleus of the preoptic area (SDN-POA) in the rat brain is several-fold larger in males than in females. The volume of the SDN-POA can be influenced significantly by the hormone milieu during early postnatal life. The purpose of the present study was to identify when termination of the sensitive period occurs during which exogenous androgen administration influences SDN-POA volume in males gonadectomized on the first day of postnatal life (fales) or intact females. Analysis of the SDN-POA in fales showed that testosterone propionate (TP, 500 micrograms) treatment on days 2, 3, 4, or 5, significantly increased its volume over values from oil-treated fales. In contrast, TP treatment in fales on days 6, 7, or 8, failed to increase SDN-POA volume. A similar pattern was observed in females treated with TP. Females treated with TP (500 micrograms) on days 2, 3, 4, or 5, showed a significant increase in SDN-POA volume compared to the values from oil-injected animals, while the same TP treatment in females on days 6, 7, or 8, resulted in no such enhancement. The absolute and relative change in SDN-POA volume following postnatal androgen treatment is greater in males than in females. We conclude that (1) SDN-POA development is sensitive to hormone action through postnatal day 5 and then abruptly becomes insensitive to this dosage of TP, and (2) although the temporal pattern of the response is similar in males and females, androgen exposure postnatally results in a consistently greater increase in the male SDN-POA volume than in the female's. This greater response may be due to exposure prenatally to endogenous androgen in males.
Subject(s)
Aging/physiology , Preoptic Area/growth & development , Sex Characteristics , Testosterone/physiology , Animals , Female , Male , Preoptic Area/drug effects , Preoptic Area/physiology , Rats , Rats, Inbred Strains , Testosterone/pharmacologyABSTRACT
A quantitative analysis of the volume of 4 cell groups in the preoptic-anterior hypothalamic area (PO-AHA) and of the supraoptic nucleus (SON) of the human brain was performed in 22 age-matched male and female individuals. We suggest the term Interstitial Nuclei of the Anterior Hypothalamus (INAH 1-4) to identify these 4 previously undescribed cell groups in the PO-AHA. While 2 INAH and the SON were not sexually dimorphic, gender-related differences were found in the other 2 cell groups. One nucleus (INAH-3) was 2.8 times larger in the male brain than in the female brain irrespective of age. The other cell group (INAH-2) was twice as large in the male brain, but also appeared to be related in women to circulating steroid hormone levels. Since the PO-AHA influences gonadotropin secretion, maternal behavior, and sexual behavior in several mammalian species, these results suggest that functional sex differences in the hypothalamus may be related to sex differences in neural structure.
Subject(s)
Brain/cytology , Neurons/cytology , Sex Characteristics , Adolescent , Adult , Aged , Aged, 80 and over , Aging/physiology , Cell Nucleus/ultrastructure , Child , Child, Preschool , Female , Humans , Hypothalamus, Anterior/cytology , Male , Middle Aged , Neurons/ultrastructure , Preoptic Area/cytology , Supraoptic Nucleus/cytologyABSTRACT
The sexually dimorphic nucleus of the preoptic area (SDN-POA) is larger in volume in males, is responsive to steroids developmentally, and contains a subpopulation of late-arising neurons that can be specifically labeled with 3H-thymidine on embryonic day 18 (E18). The cytoarchitecture of this region has been described, and one component, the central part of the medial preoptic nucleus (MPNc), shows considerable overlap with the SDN-POA. One goal of the present study was to relate the two by determining if testosterone propionate (TP) exposure perinatally increases MPNc volume and neuronal number, and by characterizing the distribution of the late arising neurons of the SDN-POA with respect to the MPNc. A second goal was to determine if these late-arising neurons are a representative, hormone-sensitive population. Finally, TP exposure was delayed past the time of the endogenous testosterone surge in males and after the neurons have become postmitotic, to determine if female brain structure could still be sex-reversed under these conditions. Pregnant rats were injected on E18 with 3H-thymidine. Daily injections of 2.0 mg TP were given to the mothers starting on either E16 or E20 and continued through birth. The pups were injected daily with 100 micrograms TP from birth through postnatal day 10. Control rats, from mothers given oil from E16 until birth, were injected with oil from birth through postnatal day 10. Rats were sacrificed at 30 days of age and their brains processed for autoradiography.(ABSTRACT TRUNCATED AT 250 WORDS)
Subject(s)
Aging/physiology , Embryonic and Fetal Development/drug effects , Preoptic Area/growth & development , Testosterone/pharmacology , Animals , Cell Count , Female , Male , Organ Size , Preoptic Area/embryology , Preoptic Area/metabolism , Rats , Rats, Inbred Strains , ThymidineABSTRACT
To investigate the possibility that serotonin plays a role in the sexually dimorphic development of a nucleus in the medial preoptic area of the rat brain, p-chlorophenylalanine, an inhibitor of serotonin biosynthesis, was administered to pregnant dams from day 8 of gestation until parturition. This treatment did not alter plasma steroid levels but increased the volume of the sexually dimorphic nucleus in female neonates to that of control males. Thus, serotonin is implicated as a neurochemical which may be involved in the sexually dimorphic development of the preoptic area.
Subject(s)
Preoptic Area/embryology , Serotonin/physiology , Sex Characteristics , Animals , Animals, Newborn , Estradiol/blood , Female , Fenclonine/pharmacology , Male , Rats , Rats, Inbred Strains , Testosterone/bloodABSTRACT
The volume of the sexually dimorphic nucleus in the preoptic area (SDN-POA) of the rat brain is severalfold larger in adult male rats than in adult females. This sex difference in brain structure was previously shown to develop under the influence of androgenic and estrogenic hormones during the perinatal period. We tried to clarify the differential role played by androgens and estrogens during development and differentiation of the SDN-POA by treating male and female rats during an extended pre- and postnatal period either with the estrogen antagonist tamoxifen or with the androgen antagonist cyproterone acetate. Treatment with tamoxifen did not alter serum levels of testosterone in male rats during the perinatal period, but it inhibited development and differentiation of the SDN-POA. Pre- and postnatal treatment of male rats with cyproterone acetate resulted in female phenotypic appearance, but it had no influence on differentiation of the SDN-POA. Perinatal treatment of female rats with tamoxifen resulted in permanent anovulatory sterility, but did not influence SDN-POA differentiation. Treatment of female rats with cyproterone acetate had no influence on SDN-POA differentiation or on the capacity to ovulate. Since pre- and postnatal treatment of male rats with cyproterone acetate is known from previous studies to femenize sexual behavior patterns and to retain the mode for cyclic gonadotropin release, and since the same treatment did not influence differentiation of the SDN-POA in the present study, it may be concluded that the SDN-POA is not directly involved in the control of female sexual behavior and in the control of the gonadotropic hormone release pattern.(ABSTRACT TRUNCATED AT 250 WORDS)
Subject(s)
Cyproterone/analogs & derivatives , Preoptic Area/drug effects , Sex Differentiation/drug effects , Tamoxifen/pharmacology , Animals , Cyproterone/pharmacology , Cyproterone Acetate , Female , Male , Organ Size/drug effects , Phenotype , Pregnancy , Preoptic Area/anatomy & histology , Preoptic Area/growth & development , Rats , Rats, Inbred Strains , Testosterone/bloodABSTRACT
Gonadectomy of male rats was performed at 0, 6-7 (6h), 12-13 (12h), or 24 h postnatally in order to examine the influence of testosterone exposure on sexual differentiation of the brain. The indices examined were: the volume of the sexually dimorphic nucleus of the preoptic area (SDN-POA) and luteinizing hormone (LH) and follicle-stimulating hormone (FSH) titers following estradiol benzoate (EB) and progesterone (P) administration. Control animals were sham-operated at 0 h and gonadectomized at 29 days of age (sham). A decrease in the percentage of males with elevated plasma LH levels following P was found with increasing delay before gonadectomy. Significant (P less than 0.001) differences existed in the amplitude of plasma LH titers 5 h following P administration between sham, 0 h, and 6 h groups. Follicle-stimulating hormone was also elevated in all neonatally gonadectomized male groups following P administration, but there was no difference between the groups. Volume of the SDN-POA was significantly (P less than 0.001) smaller in all gonadectomized males when compared to that of sham-operated males, but no differences existed between males gonadectomized at the different hours postpartum. In female rats gonadectomized at 0 h (F0h), LH levels were elevated 5 h following P, but only to a magnitude of 36% of that of sham-operated controls (P less than 0.001). Volume of the SDN-POA of the F0h group was significantly reduced (P less than 0.05) when compared to that of sham females. Thus, in males, the presence of the tests prenatally may be responsible for the initiation of masculinization of LH release mechanisms and the SDN-POA, but both require further androgen exposure for their completion. In addition, the LH and FSH regulating systems show a differential sensitivity to the steroid hormone environment during development that shapes the animal's response to steroid as an adult.
Subject(s)
Animals, Newborn/physiology , Brain/physiology , Castration , Sex Differentiation , Testosterone/physiology , Animals , Brain/drug effects , Estradiol/pharmacology , Feedback , Female , Follicle Stimulating Hormone/metabolism , Luteinizing Hormone/metabolism , Male , Preoptic Area/anatomy & histology , Progesterone/pharmacology , Rats , Sex Differentiation/drug effectsABSTRACT
The volume of the sexually dimorphic nucleus in the preoptic area (SDN-POA) of the rat brain is several fold larger in males than in females. When female rats were treated pre- and postnatally with testosterone propionate (TP) or with diethylstilbestrol (DES) they became anovulatory and their SDN-POA developed equivalent in size to that of normal males. Identical treatment of male rats resulted in deficient testicular development, but had no influence on SDN-POA volume. The results indicate that the gross morphological sex difference in SDN-POA volume can exclusively be controlled by the hormonal environment during the critical period of sexual brain differentiation, and that non-steroidal estrogens are just as effective as convertible androgens in stimulating SDN-POA differentiation.
Subject(s)
Diethylstilbestrol/pharmacology , Preoptic Area/drug effects , Sex Differentiation/drug effects , Testosterone/pharmacology , Animals , Female , Male , Ovulation/drug effects , Pregnancy , Rats , Rats, Inbred Strains , Spermatogenesis/drug effectsABSTRACT
The volume of the sexually dimorphic nucleus in the preoptic area (SDN-POA) of the rat brain is several fold larger in adult male rats that in adult females. This sex difference in brain structure was previously shown to develop under the influence of androgenic and estrogenic hormones during the perinatal period. We here report that treatment of newborn male and female rats with the estrogen antagonist tamoxifen significantly inhibited growth and differentiation of the SDN-POA in both sexes and it resulted in permanent anovulatory sterility in females. The findings suggest (a) that testicular androgens exert their growth promoting activity on SDN-POA development only after being converted into estrogens, and (b) that also in the female rat structural and possibly functional brain differentiation is under estrogenic control.
Subject(s)
Preoptic Area/drug effects , Sex Differentiation/drug effects , Tamoxifen/pharmacology , Animals , Female , Male , Organ Size/drug effects , Ovary/drug effects , Rats , Rats, Inbred Lew , Sexual Maturation/drug effects , Testis/drug effects , Testosterone/bloodSubject(s)
Brain/growth & development , Embryonic and Fetal Development , Estrogens/physiology , Sex Differentiation , Androgens/physiology , Animals , Animals, Newborn/physiology , Brain/anatomy & histology , Brain/drug effects , Brain/embryology , Brain/physiology , Castration , Estrogen Antagonists/pharmacology , Female , Fetus/physiology , Infertility/chemically induced , Male , Preoptic Area/growth & development , Reproduction , Sex Differentiation/drug effects , Sexual Behavior, Animal/physiology , Tamoxifen/pharmacology , alpha-Fetoproteins/physiologySubject(s)
Brain/anatomy & histology , Gonadal Steroid Hormones/physiology , Rats/anatomy & histology , Sex Characteristics , Animals , Diethylstilbestrol/pharmacology , Female , Male , Preoptic Area/drug effects , Preoptic Area/growth & development , Rats/physiology , Rats, Inbred Strains , Sex Differentiation , Tamoxifen/pharmacology , Testosterone/pharmacologyABSTRACT
The volume of a sexually dimorphic nucleus in the preoptic area (SDN-POA) of the rat brain is several fold larger in males than in females. When female rats were treated pre- and postnatally with testosterone propionate (TP) their SDN-POA developed equivalent in size to that of normal males. The results indicate that the gross morphological sex difference in SDN-POA volume is exclusively controlled by the hormonal environment during the critical period of sexual brain differentiation.
Subject(s)
Preoptic Area/drug effects , Sex Differentiation/drug effects , Testosterone/pharmacology , Animals , Body Weight/drug effects , Female , Male , Organ Size/drug effects , Pregnancy , Rats , Rats, Inbred StrainsSubject(s)
Conditioning, Operant/physiology , Hypothalamo-Hypophyseal System/physiology , Hypothalamus, Middle/physiology , Afferent Pathways/physiology , Animals , Appetitive Behavior/physiology , Avoidance Learning/physiology , Body Weight , Discrimination Learning/physiology , Escape Reaction/physiology , Extinction, Psychological/physiology , Habituation, Psychophysiologic/physiology , Male , Mental Recall/physiology , Motor Activity/physiology , Pituitary Gland/innervation , Rats , Rats, Inbred StrainsABSTRACT
Although the volume of the sexually dimorphic nucleus of the preoptic area (SDN-POA) of the adult rat has been shown to be modified by the hormone environment early in postnatal life, the present study was performed to clarify several fundamental questions related to this process. This study was designed to evaluate the ability of exogenous testosterone propionate (TP), or a gonadal graft, to influence SDN-POA volume in rats which were gonadectomized as neonates. Orchidectomy on day 1 resulted in an approximately 50% decrease in adult SDN-POA volume; however, the influence of the testes on their resulting SDN-POA volume was replaced affectively by the administration of 100 micrograms or 1 mg of TP on postnatal day 2 or by a testicular (but not ovarian) graft on the day of castration. In the female, ovariectomy on postnatal day 1 failed to alter SDN-POA volume relative to that of sham-operated females. Exogenous TP, but neither testicular nor ovarian grafts, resulted in a larger SDN-POA volume when observed in the adult female. Thus, the development of the SDN-POA of the neonatal male is significantly influenced by the hormonal activity of the testes at this time period. While the SDN-POA of the neonatal female is potentially responsive to androgen, the role played by the ovaries in the development of the SDN-POA remains unclear. In addition, the different response of the developing male and female SDN-POA to a testicular graft suggests that the hormonal sensitivity of this nucleus may differ in the two sexes.
Subject(s)
Hypothalamus/physiology , Ovary/transplantation , Preoptic Area/physiology , Sex Differentiation , Testis/transplantation , Testosterone/pharmacology , Animals , Castration , Female , Male , Posture , Preoptic Area/drug effects , Rats , Sex Differentiation/drug effects , Sexual Behavior/drug effectsABSTRACT
The volume of an intensely staining component of the preoptic area of the male rat is markedly larger than that of the female. Moreover, its volume in both sexes is altered by perinatal hormone exposure consistent with the view that this brain region undergoes hormone dependent sexual differentiation. The present study was carried out to determine if this sexually dimorphic area of the brain has a greater cell density than that of the surround, and if a unique population or distribution of cells, either within one sex or between males and females, characterized this region. A single coronal paraffin section (10 micrometer) through the approximate center of this sexually dimorphic area in four adult gonadectomized rats of each sex was evaluated systematically. Each cell was labelled as being inside or outside of the sexually dimorphic area. In addition to cell density per unit area the following parameters were evaluated through a closed-circuit video system: cell size, staining intensity, shape, and the presence of processes and of a nucleolus. The presence of a nucleolus was further used to identify neurons within the total population of almost 5000 cells that was evaluated. In both sexes, the sexually dimorphic area was characterized by a significantly increased cell density per unit area compared to that of the surround. On this basis, the term, the Sexually Dimorphic Nucleus of the Preoptic Area (SDN-POA) is proposed, for this region. Moreover, the SDN-POA of the male was characterized by increased neuronal density per unit area. The SDN-POA in the male was also found to contain larger cells and neurons, as determined by direct measurement of their greatest diameter, as well as a greater percentage of cells and neurons rated large on a three-point scale (small, medium, and large). No consistent differences in frequency distribution by stain intensity, shape, or the presence of cell processes were found to characterize the SDN-POA or contribute to the sexual dimorphism. It is concluded that the marked sex difference in the volume of the SDN-POA is due principally to an increase in the male of the total area of higher cell and neuronal density. However, the present results do not eliminate the possibility that more subtle differences in neuronal characteristics may exist in the SDN-POA.
