Gonadal hormone effects on entrained and free-running circadian activity rhythms in the developing diurnal rodent Octodon degus

The slowly maturing, long-lived rodent Octodon degus (degu) provides a unique opportunity to examine the development of the circadian system during adolescence. These studies characterize entrained and free-running activity rhythms in gonadally intact and prepubertally gonadectomized male and female degus across the first year of life to clarify the impact of sex and gonadal hormones on the circadian system during adolescence. Gonadally intact degus exhibited a delay in the phase angle of activity onset (Psi(on)) during puberty, which reversed as animals became reproductively competent. Gonadectomy before puberty prevented this phase delay. However, the effect of gonadal hormones during puberty on Psi(on) does not result from changes in the period of the underlying circadian pacemaker. A sex difference in Psi(on) and free-running period (tau) emerged several months after puberty; these developmental changes are not likely to be related, since the sex difference in Psi(on) emerged before the sex difference in tau. Changes in the levels of circulating hormones cannot explain the emergence of these sex differences, since there is a rather lengthy delay between the age at which degus reach sexual maturity and the age at which Psi(on) and tau become sexually dimorphic. However, postnatal exposure to gonadal hormones is required for sexual differentiation of Psi(on) and tau, since these sex differences were absent in prepubertally gonadectomized degus. These data suggest that gonadal hormones modulate the circadian system during adolescent development and provide a new model for postpubertal sexual differentiation of a central nervous system structure.     

Response of the developing thyroid gland of rats to a single gamma-irradiation in the period of intrauterine development

A single external exposure of pregnant rats to 2 Gy gamma-radiation caused changes in the functional status of the thyroid gland in offsprings at varying times of the postnatal development. The disturbance of the thyroid hormones balance in the blood, destruction of the thyroid gland combined with high functional tension of secretory elements, and activation of the thyrotropic function of hypophysis were revealed at remote times after irradiation.     

Differentiation of the thyroid in the hypophysectomized chick embryo

The influence of hypophyseal hormones on the normal development of the thyroid gland was investigated by decapitating chick embryos at a time before the hypophysis has begun to form. Thyroids from decapitated embryos were compared with thyroids of normal embryos from shortly after decapitation to the time when the embryo should hatch. The thyroids were examined for ultrastructural differences and for accumulation of thyroglobulin. Thyroxine levels in the blood were also examined. It was concluded that the thyroids in decapitated embryos develop normally up to about 12 days of development, by which time morphogenesis and differentiation of the gland is essentially complete. The rates of thyroid growth and accumulation of thyroglobulin are diminished after 12 days of development. The amount of thyroxine in the blood is decreased by about one-half. Thyroxine was found in the yolk of unincubated eggs at levels sufficient to sustain blood thyroxine levels throughout embryonic development. We conclude that hormones that are synthesized by the embryonic hypophysis affect thyroid development only through their influence on generalized growth and metabolic activity.     

Influence of season of birth on growth and reproductive development of Brahman bulls

Seasonal effects on reproduction are more dramatic in Bos indicus than Bos taurus cattle. This experiment evaluated reproductive development of fall- (n=7) versus spring- (n = 10) born Brahman bulls to determine if season of birth affects reproductive development. Measurements of growth and reproductive development began after weaning and continued at bi-weekly intervals until each bull reached sexual maturity. Different stages of sexual development were classified according to characteristics of the ejaculate and included first sperm in the ejaculate, puberty (> 50 x 10(6) sperm/ejaculate), and sexual maturity (two ejaculates with > 500 = 10(6) sperm/ejaculate). Average daily increases in all measured traits were similar in fall- and spring-born bulls and there were no differences in age, body weight, scrotal circumference, or paired testis volume between groups at first sperm or puberty. However, fall-born bulls were older (P < 0.05) than spring-born bulls at sexual maturity (553 days versus 481 days, respectively) as the interval between puberty and sexual maturity was longer (P < 0.05) in fall- than in spring-born bulls (82 days versus 54 days, respectively). The prolonged interval between puberty and sexual maturity in fall-born calves coincided with a short photoperiod (winter) whereas the short interval between puberty and sexual maturity in spring-born calves coincided with a long photoperiod (summer). In conclusion, season of birth affected sexual development; photoperiod might be involved in regulating testicular function immediately after puberty in Brahman bulls.     

Simultaneous determination of plasma ovarian and thyroid hormones during sexual maturation of the hen (Gallus domesticus)

The concentrations of ovarian steroids (estradiol--E2, progesterone--P4 and testosterone--T) and thyroid hormones (thyroxine--T4 and triiodothyronine--T3) were determined in blood plasma of the domestic hen during sexual maturation and the initial period of egg lay. Blood samples were collected from Hy-Line pullets at 3 day intervals from days 87 to 144 day of life, i.e. 42 days before and 14 days after the onset of egg lay (OEL). Ovarian and thyroid hormones were measured by RIA methods. During sexual maturation an increase in ovarian steroids in the blood plasma was observed. The maximum E2 and P4 levels were recorded on day 6 and day 3 prior to OEL, respectively. In the case of plasma T level, an increase from 42 to 18 days before OEL followed by a decrease and a renewed increase from day 9 till OEL was observed. The relatively unchanged plasma level of T4 until day 9 before OEL decreased significantly just before the first oviposition while the T3 level gradually decreased between day 42 and day 9 before OEL, and then increased and again decreased from day 3 before till day 3 after OEL. During sexual maturation the following statistically significant coefficients of correlation between ovarian steroids and T3 were found: E2 vs. T3-->r = -0.551 and P4 vs. T3-->r = -0.373. There was no significant correlation between T and T3 or between the examined steroids and T4. The data obtained indicate that during sexual maturation of the domestic hen there is a negative relationship between the ovary and the thyroid gland.     

Growth and reproductive development in the male tree shrew (Tupaia belangeri) from birth to sexual maturity

The growth and reproductive development of the male tree shrew were studied from birth to sexual maturity. An infantile phase from birth to Day 30 was characterized by the rapid involution of the testis and adrenal gland from a fetal condition followed by a nadir in testosterone levels and slow growth and differentiation of the testis and accessory sex organs. The initiation of puberty occurred collaterally with the emergence of the young from the nest and was marked by a sharp rise in testosterone levels from Days 30 to 35 to maximum levels at Days 40-55. Peak testosterone levels were temporally correlated with the onset of maximum growth and differentiation of the testis and accessory sex organs, descent of the testis, development of the scrotum, and a pronounced peak in the weight-velocity curve. The rapid growth of males at puberty contributed to a moderate degree of sexual dimorphism in this species. Puberty was attained at about Day 90 with the completion of spermatogenesis and the functional differentiation of the accessory sex organs. The postnatal development of the tree shrew conforms with the general primate pattern. The precise endocrine correlates established during puberty make Tupaia belangeri a useful small animal model for the study of puberty in primates.     

Developmental profiles of TSH, sex steroids, and their receptors in the thyroid and their relevance to thyroid growth in immature rats.

Sex steroids are reported to influence thyroid pathogenesis in human and experimental animals. However, there is no report on this phenomenon during the early developmental period. The mitotic activity of thyrocytes in rats reaches its peak by day 10 postpartum. Thyrocytes actively proliferate in immature rats during the first three postnatal weeks, during which the pre-pubertal rise in serum titers of testosterone and estradiol has been recorded. The aim of the present study was to analyze whether there is a physiological relevance between thyroid growth and sex steroids during the postnatal period. Serum and thyroid tissue hormones (TSH, testosterone, and estradiol) were assayed by liquid phase RIA, and receptors for these hormones were also quantified. The peak rate of thyrocyte proliferation was observed during the second postnatal week in rats. Since the concentrations of sex steroids and their receptors also reached a peak around this period, it is suggested that elevated sex steroids and their receptors in the thyroid might enhance thyrocyte proliferation. A positive correlation between thyroid growth indices and sex steroids and their receptors further strengthens this suggestion. This is a preliminary study, and further experimental study may strengthen this proposal. This is the first report to show the availability of sex steroids and their receptors in the thyroid glands of immature rats under normal conditions.     

Age-dependent changes in the concentration of active sex steroids,precursors, metabolites,and regulatory agents in blood serum of male subjects

We measured blood concentration of active and non-active sex steroids, metabolites, and precursors and compared to changes in protein and peptide hormones controlling the reproductive axis (total 14 hormones and hormone-like substances) in male subjects aged 18 to 72 y.o. We found a significant decrease in serum concentration of precursors for active sex steroids (pregnenolone, progesterone, dehydroepiandrosterone, and DHEA-sulfate), free testosterone, androstenedione (non-active metabolite of testosterone) as well as 5α-dihydrotestone after the age of 35. However, the level of total testosterone and estradiol (another active testosterone metabolite) remained steady. The systems regulated production of active sex steroids resisted a higher load associated with age and caused the increase in luteinizing and follicle-stimulating hormones in hypophysis and activin in steroidogenic glands directly correlating with age; negative correlation for these hormones was confirmed with certain sex steroids explaining the negative feedback. Decrease in level of hypopheseal adrenocorticotropic hormone with age demonstrated a more substantial role for adrenal glands compared to that of testicles in reduction of blood concentration of active sex steroids. In general, despite the reduced activity of steroidogenic glands in 60-to 70-year old male subjects the level of testosterone and estradiol remained unchanged due to associated growth of level of luteinizing and follicle-stimulating hypopheseal hormones as well as activin in steroidogenic glands that stimulated biosynthesis of sex steroids. Also androgen effects were inhibited due to the reduced level of free (unbound) testosterone and 5α-dihydrotestone.     

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

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

Testosterone and estradiol up-regulate androgen and estrogen receptors in immature and adult rat thyroid glands in vivo

Thyroid gland is one of the non-classical target organs for sex steroids. Presence of androgen and estrogen receptors in the neoplastic and non-neoplastic thyroid glands of mammalian species is well documented. The aim of the present study is to elucidate the changes in serum and thyroidal sex steroids, and their receptors in the thyroid gland of rats from immature to adult age under gonadectomized (GDX) and sex steroids replaced conditions. Normal Wistar male and female rats from immature to adult age (day 21, 30, 45, 60 and 160 post-partum (pp)) were used in the present study. One group (I) of rats was GDX at an early age (day 10 pp) and the other group (II) at the adult age (day 120 pp). Group I rats were sacrificed at different experimental periods such as 21, 30, 45 and 60 days pp, and group II rats were sacrificed at day 160 pp. Another group of GDX rats from group I and II were replaced with physiological doses of testosterone or estradiol. Serum and thyroidal concentrations of sex steroids were estimated by RIA method and the concentrations of receptors by radioreceptor assay. Gonadectomy significantly decreased serum and thyroidal testosterone and estradiol and concentrations of androgen receptor (AR) and estrogen receptor (ER) in the thyroid. Replacement of sex steroids to GDX rats restored the normal level of sex steroids, AR and ER. Therefore, it is suggested from the present study that (i). sex steroids up-regulate their own receptors in the thyroid, (ii). sex steroids may influence thyroid growth and the proliferation of thyrocytes by modulating their receptor concentrations in the thyroid.     

Effect of thyroid hormone and sex status on epidermal growth factor concentrations in the submandibular gland of a congenitally hypothyroid mouse model

Studies were performed to explore the role of thyroid hormone and sex status on epidermal growth factor concentrations in the submandibular gland of a congenitally hypothyroid mouse model designated hyt/hyt. The animals were studied at 20, 30 and 40 days of postnatal age. The euthyroid animals were homozygous or heterozygous for the hypothyroid gene. The homozygous euthyroid animals displayed a pattern of submandibular gland epidermal growth factor concentrations similar to those previously described in other mouse species and showed the expected sex differences. The hypothyroid animals had measurable but very low submandibular gland epidermal growth factor concentrations without sexual dimorphism. Serum thyroxine concentrations in the heterozygotes were comparable to those in the homozygous euthyroid animals, yet the animals had a delayed increase in epidermal growth factor concentrations combined with a later expression of female-male differences. The timing of the sex differences in submandibular gland epidermal growth factor concentrations followed a pattern similar to that seen for the timing of the first litter in these three genetically distinct groups. This infers the timing of the onset of puberty and suggests a role of androgens in the changes seen in epidermal growth factor concentrations. We conclude that thyroid hormone and sex status in this mouse model influence the pattern and concentrations of submandibular gland epidermal growth factor concentrations.     

Sex-specific changes in platelet aggregation and secretion with sexual maturity in pigs.

Cardiovascular disease may begin early in adolescence. Platelets release factors contributing to vascular disease. Experiments were designed to test the hypothesis that hormonal transitions associated with sexual maturity differentially affect platelet aggregation and secretion in males and females. Platelets were collected from juvenile (2-3 mo) and sexually mature (adult; 5-6 mo) male and female pigs (n=8/group). Maturation was evidenced by increased weight of reproductive tissue and changes in circulating levels of gonadal hormones. Aggregation to ADP (10 microM) and collagen (6 microg/ml) and ATP secretion to 50 nM thrombin were determined by turbidimetric analysis and bioluminescence, respectively. Total platelet counts, platelet turnover, and mean platelet volume did not change with maturity. Platelet aggregation and ATP secretion decreased in females but increased in males with maturity, whereas total ATP content remained unchanged in platelets from females but increased in platelets from males. Platelet fibrinogen receptor, P-selectin expression, and receptors for sex steroids did not change with sexual maturation. Plasma C-reactive protein and brain-type natriuretic peptide also did not change. Results indicate that changes in platelet aggregation and secretion change with sexual maturity differently in females and males. These observations provide evidence on which clinical studies could be designed to examine platelet characteristics in human children and young adults.     

On the regulation of sex-hormone-binding globulin--a challenge of an old dogma and outlines of an alternative mechanism

In this review, the different factors known to affect SHBG levels are discussed with respect to their possible significance in the physiological regulation of this protein: Sex steroids, puberty, nutritional status, thyroid hormones and liver disease. It is concluded that the serum levels of SHBG are related to general metabolic factors, nutritional status, growth and ageing than to the estrogen/androgen balance. The authors suggest that SHBG is regulated primarily by growth hormone, somatomedin-C and possibly other growth factors. Growth hormone may promote SHBG synthesis in the liver while somatomedin-C may stimulate its extravasation and uptake in target tissues. It is suggested that sex steroids merely have an indirect, modulating influence.     

Role of Some Hormones in Protein Sparing Action of Dietary Fat

Feeding rats with a fat meal caused marked reduction in the level of plasma urea and urinary output of urea and total nitrogen. Experiments were carried out to examine the possible intervention of some hormones in these phenomena. Protein sparing action of fat was exerted even in the alloxan-diabetic, adrenalectomized, hypophysectomized and thyroidectomized rats. Feeding rats with a fat meal caused no appreciable change in the level of cyclic AMP in liver and gastrocnemius muscle. The overall results obtained here are through! to suggest that the action of fat may be exerted independently of any hormones examined; insulin, glucocorticoids, cyclic AMP and other hormones excreted from adrenal, hypophysis and thyroid gland.     

Steroid hormones in the regulation of migration in fishes (study of the Russian sturgeon)

Serum steroids profiles were determined at different stages of the migratory cycle of Russian sturgeon. In the sea period, before gonads maturation cortisol and sex steroids levels were comparatively low. Elevation of cortisol and testosterone concentrations occurred at the stage of preparation to migration. Significant increase of cortisol and testosterone levels happened at the beginning of the river period of anadromous migration in spring both in the spring forms near to maturity in this period and in the winter forms which were far from maturity. By exception of the river period of anadromous migration of the winter form and sexual cycle completion in the fish farm in the mouth of river (10-11 months), serum cortisol and testosterone concentrations dropped sharply. The data obtained as well as the data on other diadromous fishes indicate a possible role of steroids, especially cortisol and testosterone, in metabolism and migration regulation in sturgeons.     

Sex differences in the development of the thyroid gland in human prenatal ontogeny

A comparative study of the thyroid gland development in the human male and female embryos and prefoetuses was carried out. The development of incretory part of the testicles was shown to occur earlier than the differentiation of follicles in the thyroid gland and the appearance of colloid in it. Sexual differences were noted in the appearance of follicles, connective tissue, nerve fibres in the thyroid gland (earlier in the male foetuses). The processes of organ differentiation in the male foetuses were more active than in the female ones during the whole prenatal period of development. A suggestion is put forward that the sexual hormones of embryonic testicles influence the thyroid gland differentiation.     

Role of ovarian secretions in mammary gland development and function in ruminants

The mammary gland is a dynamic organ that undergoes cyclic developmental and regressive changes during the lifetime of a female mammal. Mammogenesis begins during embryonic life with the development of the first mammary gland rudiments and ductal system. After birth, during the pre-pubertal period, the ductal growth of the mammary parenchyma occurs through the fat pad. In most of the ruminant species allometric mammary parenchyma development begins with the onset of cyclic ovarian secretions activity. The two main hormones secreted during an ovarian cycle are estradiol and progesterone. These steroid hormones are derived from cholesterol and are synthesized by theca and granulosa cells in ovaries. During puberty, the mammary parenchyma develops in a compact, highly arborescent parenchymal mass surrounded by a dense connective matrix. Ductal elongation and lobulo-alveolar development are accomplished during growth and pregnancy to prepare for future milk production. At the end of lactation, the mammary gland undergoes involution, which corresponds to a regression of the secretory tissue, a reduction in the alveolar size and a loss of mammary epithelial cells (MECs). Ovarian steroids (estradiol and progesterone) appear to be key regulators of the different stages of mammogenesis and mammary function. Through this review, the role and the importance of ovarian steroids on mammary gland and on MECs is described.     

Effects of sex hormones and gender on attraction thresholds for volatile anal scent gland odors in ferrets

Body odors contribute to mate recognition and sexual partner preference in many mammals, including ferrets. We used a habituation/dishabituation procedure to test whether sex steroid hormones influence whether ferrets will approach and investigate different concentrations of volatile anal scent gland odors from male and female conspecifics. When tested with high concentrations of anal scent gland secretions in oil vehicle, gonadectomized male and female ferrets that received no sex steroids reliably discriminated anal scents from male and female conspecifics. This discrimination most likely reflects gender recognition rather than individual recognition because gonadectomized, sex steroid-treated ferrets discriminated between anal scents of males and females but not between anal scents of individual males or females. Treatment with either the estrogen receptor agonist, estradiol benzoate (EB), or the androgen receptor agonist, 5-alpha dihydrotestosterone proprionate (DHTP), increased investigation of low concentrations of anal scent by gonadectomized ferrets. These data suggest that ferrets could use anal scent gland secretions in mate recognition and that seasonal increases in circulating sex steroid hormones increase ferrets' responsiveness to low concentrations of these odors.     

Changes in thyroid function and gonadotrophin activity during sexual development in ducks Anas sp. (Aves: Anatidae)

Age-related changes in plasma iodohormone concentrations in male and female Aylesbury and Khaki Campbell ducklings were determined between the second week after hatching and sexual maturity.
In both sexes and strains the concentration of total thyroxine (T₄) and the free thyroxine index (FT₄1) were low during the first 6–8 weeks after hatching. A marked increase in the T₄ and FT₄1 occurred when the ducklings were nine weeks old; T₄ progressively increased over the following four weeks and remained high thereafter. The T₄ concentration in both sexes was directly related to age.
Concentrations of total tri-iodothyronine (T₃) were more variable than T₄ but were highest before sexual maturation and inversely age-related. An age-related decline in free tri-iodothyronine index (FT₃1) was observed during the first nine weeks.
The possibility that these maturational changes in thyroid function may reflect changes in gonadal activity was assessed by measuring the concentration of luteinizing hormone (LH) in the same plasma samples. Although plasma LH increased with age, in all cases the increase occurred after changes in the thyroid hormones were observed. Moreover, the maturational pattern of LH was related to sex and strain whereas thyroid function was unaffected by sex or strain.
These results demonstrate reciprocal changes in plasma T₃ and T₄ levels in ducks during sexual development, although the stimuli responsible and physiological significance are uncertain.