The role of estrogens in the regulation of lactate dehydrogenase activity and its submolecular organization in rat anterior pituitary

Estrogens increase LDH activity and decrease H/M subunit ratio in rat anterior pituitary in both the experimental circumstances and the physiological conditions. The cellular messengers mediating estrogenic effect are structure- and stereospecific. The activity increasing and subunit ratio decreasing potency of the three tested estrogens was of following decreasing order: 17 beta-estradiol, estrone, and estriol. 17 alpha-estradiol did not affect activity parameters and submolecular organisation of the enzyme. The estrogen induced activity increase is consequence of the enhanced de novo enzyme protein synthesis which could be inhibited by Actinomycin-D. The lack of adrenocorticoids did not involve the alteration of LDH activity and H/M ratio in female rat anterior pituitary. Accordingly, these steroids do not mediate estrogenic action. 17 beta-estradiol had a substantial increasing effect on LDH activity in the subrenal implanted pituitary homografts and decreased H/M subunit ratio. Pituitary LDH activity in androgenized female rats decreased only after the removal of the polycystic ovaries. The two latter observations suggest that hypothalamic hormones are not involved in the regulation of pituitary LDH activity and its submolecular organization. De novo synthesis of LDH enzyme protein and the regulation its submolecular organization is induced by the direct action on anterior pituitary cells of the estrogens.     

Divergent changes in the concentrations of gonadotropin beta-subunit messenger ribonucleic acid during the estrous cycle of sheep

Cyclic changes in the production of the pituitary gonadotrophic hormones, LH and FSH are essential events in the maintenance of the reproductive system of female mammals. While studies have examined changes in the secretion of LH and FSH during the estrous cycle and demonstrated the importance of these hormones in regulation of ovarian development and gametogenesis, considerably less is known concerning the regulation of the biosynthesis of these hormones. Although initial studies have examined changes in LH subunit mRNA concentrations during the rat and ovine estrous cycles, no information concerning the physiological regulation of FSH beta mRNA concentrations has been available. In the present study we have examined the relationship between pituitary concentrations of LH and FSH subunit mRNAs and the serum concentrations of these gonadotropins. The results demonstrate a very different pattern of change for FSH beta subunit mRNA than that observed for alpha and LH beta subunit mRNAs. In fact, FSH beta mRNA concentration decline substantially during the preovulatory period, reaching minimal values at a time when alpha and LH beta mRNA levels are near maximal. Furthermore, this decline in FSH beta mRNA amounts occurs when serum FSH concentrations are maximal. Thus, FSH beta mRNA concentrations follow a very different pattern than that of serum FSH. In contrast, LH beta mRNA and serum LH concentrations tend to increase at the same time. These findings provide evidence that concentrations of LH beta and FSH beta mRNAs are likely regulated by different mechanisms.     

Influence of corticosterone acetate on the spleen in intact and ovariectomized rats.

Increasing evidence of the interaction of glucocorticoids and ovarian steroids prompted the current study. Effects of exogenously administered corticosterone acetate (3.5 mg/100 g b.w/day for one week) were examined on splenic nucleic acids, protein, lactate, and on lactate dehydrogenase (LDH) specific activity and its isozymes in ovariectomized and ovary-intact Wistar rats (65-75 days old). Ovariectomy resulted in no significant change in the parameters studied except DNA which increased significantly. The administration of corticosterone to these rats did not produce any remarkable change in the ovariectomy caused increase in splenic DNA content. Nevertheless, it decreased the ratio of heart type subunits (H)/muscle type subunits (M) [H/M] of LDH isozymes. In the case of ovary-intact rats, corticosterone produced an increase in the concentration of splenic lactate but a decrease in the H/M ratio. Exogenously administered corticosterone exerts selective synergistic interaction with ovarian hormones on splenic lactate. The specific activity of LDH and the concentrations of RNA and protein remained unchanged during the interaction between ovarian hormones and corticosterone.     

Glandular kallikrein levels in the rat anterior pituitary during the estrous cycle and pregnancy

Glandular kallikrein (a trypsin-like serine protease) is a major estrogen-induced protein in the rat anterior pituitary, which appears to be associated with lactotropes. The present study examined glandular kallikrein levels in the anterior pituitary during the rat estrous cycle and pregnancy. After trypsin treatment of anterior pituitary homogenates (to activate latent forms of the enzyme), glandular kallikrein activity was measured by using the chromogenic substrate D-val-leu-arg-p-nitroanilide: 98-95% of the enzymatic activity was immunoprecipitable with glandular kallikrein antiserum. Glandular kallikrein levels did not change significantly during the various phases of the rat estrous cycle. However, a sharp decrease was observed starting on Day 15 of pregnancy and lasting through parturition; levels had almost returned to control values by Day 5 of lactation.     

Change in concentrations of luteinizing hormone subunit messenger ribonucleic acids in the estrous cycle of beef cattle.

Changes in the concentrations of LH subunit messenger ribonucleic acids (mRNAs) and in the LH content of the anterior pituitary of beef cattle were studied during the estrous cycle. Japanese beef cows were classified according to the expected day of the estrous cycle: stage I (early-luteal phase, days 1-4; day 1=day of ovulation), stage II (early-mid-luteal phase, days 5-10), stage III (late-mid-luteal phase, days 11-17) and stage IV (follicular phase, days 18-20), according to the morphology of the ovaries. The anterior pituitaries of the cows were collected and the levels of alpha and LHbeta subunit mRNAs were determined by slot-blot analyses. The LH content of the anterior pituitary was measured by radioimmunoassay. The level of alpha subunit mRNA in the pituitary of cows was highest in stage I and decreased significantly by stage II (P<0.05); thereafter it tended to increase. The level of LHbeta subunit mRNA did not change significantly during the estrous cycle. The LH content of the pituitary of cows was low in stage I and tended to increase by stage II, then to decrease from stage II to III, and to increase significantly from stage III to IV (P<0.05). These results suggest that the highest levels of gene expressions of alpha subunit in the anterior pituitary occur in the early-luteal phase of beef cows, while the LH content is increased most in the follicular phase. The enhanced gene expressions of common alpha subunit in the early-luteal phase could be important in replenishing the bovine anterior pituitary with LH, which is depleted of hormone by the LH surge or the enhanced pulsatile release.     

Immunocytochemical studies of the gonadotropic cells in the pituitary gland of male mullet, Mugil cephalus, during the annual reproductive cycle in both natural habitat and captivity

Using antiserum specific for the β subunit of coho salmon gonadotropic hormone II (GTH II), an immunocytochemical study of Mugil cephalus (L.) pituitaries was conducted during the annual reproductive cycle of the male in both natural habitat and captivity. The gonadotropic potency of the pituitary gland in general underwent an obvious increase during testicular development, reaching a peak at the time of reproductive maturity. During the testicular cycle of M. cephalus, the GTH cells showed an increase in immunoreactive staining intensity, granulation, hypertrophy and hyperplasia during sexual maturation. However, degranulation, vacuolization, and weakened immunoreactivity of these cells occurred during spawning. The GTH cells in the pituitary gland of M. cephalus males reared in captivity appeared with high synthetic and secretory activity but the reproductive activity declined, as reflected in the form of low values of the gonadosomatic index (GSI) and earlier resorption of the testes.     

Differential regulation of gonadotropin subunit messenger ribonucleic acids by gonadotropin-releasing hormone pulse frequency in ewes

Changes in the frequency of GnRH and LH pulses have been shown to occur between the luteal and preovulatory periods in the ovine estrous cycle. We examined the effect of these different frequencies of GnRH pulses on pituitary concentrations of LH and FSH subunit mRNAs. Eighteen ovariectomized ewes were implanted with progesterone to eliminate endogenous GnRH release during the nonbreeding season. These animals then received 3 ng/kg body weight GnRH in frequencies of once every 4, 1, or 0.5 h for 4 days. These frequencies represent those observed during the luteal and follicular phases, and the preovulatory LH and FSH surge of the ovine estrous cycle, respectively. On day 4, the ewes were killed and their anterior pituitary glands were removed for measurements of pituitary LH, FSH, and their subunit mRNAs. Pituitary content of LH and FSH, as assessed by RIA, did not change (P greater than 0.10) in response to the three different GnRH pulse frequencies. However, subunit mRNA concentrations, assessed by solution hybridization assays and expressed as femtomoles per mg total RNA, did change as a result of different GnRH frequencies. alpha mRNA concentrations were higher (P less than 0.05) when the GnRH pulse frequency was 1/0.5 h and 1 h, whereas LH beta and FSH beta mRNA concentrations were maximal (P less than 0.05) only at a pulse frequency of 1/h. Additionally, pituitary LH and FSH secretory response to GnRH on day 4 was maximal (P = 0.05) when the pulse infusion was 1/h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Maternal-infant separation impedes changes in feeding behavior during estrous cycle of rats

Traumatic and stressful events during childhood are associated with the development of eating disorders. We conducted an animal study to test if association stress in childhood affects ingestive behavior later in life by using female rats that have an adjusted estrous cycle. First, electrical impedance of the vagina was conducted to test estrous cycle adjustment. Second, the effects of 6 h per day maternal separation from birth to weaning, which models a psychologically stressful experience in childhood, was used to test feeding behavior during an ovarian cycle in female adult rats with matched estrous cycles. Food and water intake in maternal separated and non-separated rats was measured in each estrous phase. Non-separated rats showed periodical changes, but maternal separated rats showed no significant changes in food and water intake during an estrous cycle. An opposing tendency for food and water intake was seen between maternal separated and non-separated rats. These observations suggest that electrical impedance of the vagina showed the highest value in the estrous phase of rats housed in a reversed light-dark cycle, and maternal separation was found to disturb changes in feeding behavior during the estrous cycle.     

The effect of training and detraining on lactate dehydrogenase isoenzymes in the horse

In the horse, total LDH activity increased with training and the H and M subunit activity parallelled this increase. It is suggested that these increases are in response to a stimulus from the type of training program utilised. The first half of a detraining program decreased the activity of the H and M subunits as might be expected. A sharp rise in the total LDH and the M subunit activity occurred during the latter half of the detraining program. This unexpected increase may be due to relatively more hypoxic conditions prevailing in the muscle during the detraining period.     

Cell proliferation in the principal target organs of the dog (beagle) ovary during various periods of the estrous cycle

Cell proliferation in the principal target organs of the ovary was studied in 7 beagle dogs during proestrus, early estrus, secretory and regressive metestrus. Pulse labelling with (3H)-thymidine and autoradiography were applied and labelling indices were determined. Organs with squamous and with glandular epithelium except the mammary gland showed a proliferation peak during early proestrus, the incidence of labelling being higher in organs with squamous epithelium. During early proestrus the intensity of labelling decreased in organs with squamous epithelium in the following order: vulva, vagina, portio vaginalis, and portio supravaginalis. At this time cell replication was higher in the superficial glands of the cervix and corpus uteri as well as the circular layer of the myometrium compared with values from the basal glands or the longitudinal layer. The steepest decline of the proliferative activity occurred between the proestrous period. While some labelled cells were observed during secretory metestrus, labelling was almost absent during regressive metestrus. By contrast, the mammary gland began to develop at the periovulatory period and was at the height of its proliferative activity during secretory metestrus. It is concluded for species with a long estrous cycle that: (1) the rate of cell replication in the vulva, vagina, uterus and oviduct is at its peak at the beginning of the estrous cycle and declines during proestrus; (2) as compared to observations in species with short estrous cycles, cell proliferation is very low during metestrus.     

Inhibin secretion during the rat estrous cycle: relationships to FSH secretion and FSH beta subunit mRNA concentrations

Serum inhibin and FSH and FSH beta subunit mRNA levels were measured at 3h intervals throughout the 4 day estrous cycle in female rats and hourly between 1000 and 2400 h of proestrus. On proestrus, serum inhibin concentrations fell during the late morning-early afternoon, then increased transiently during the late afternoon gonadotropin surges. Inhibin levels decreased during the late evening of proestrus, coincident with the FSH surge-related rise in FSH beta mRNA levels. Serum inhibin remained relatively stable during estrus and early metestrus, but rose during the late evening of metestrus and remained elevated until early diestrus. FSH beta mRNA levels were elevated on late estrus and early metestrus and declined during the evening of metestrus as serum inhibin levels increased. These data show that concentrations of serum inhibin change during the estrous cycle and that a general inverse relationship exists between serum inhibin and FSH levels and FSH beta mRNA concentrations in the pituitary. This suggests that inhibin may inhibit FSH beta gene expression and FSH secretion during the 4 day cycle in female rats.     

Pituitary adenylate cyclase activating polypeptide messenger RNA in the paraventricular nucleus and anterior pituitary during the rat estrous cycle

The neuropeptide pituitary adenylate cyclase activating polypeptide (ADCYAP 1, or PACAP) has been demonstrated to enhance gonadotropin-releasing hormone (GnRH)-induced gonadotropin secretion and regulate gonadotropin subunit gene expression in cultures of anterior pituitary cells. In the present study, we used in situ hybridization and real-time polymerase chain reaction to examine the expression of Pacap mRNA within the paraventricular nucleus (PVN) and anterior pituitary throughout the estrous cycle of the rat. Levels of luteinizing hormone in serum and pituitary gonadotropin subunit mRNAs were evaluated and displayed cyclic fluctuations similar to those reported previously. Pacap mRNA expression in the PVN and pituitary varied significantly during the estrous cycle, with the greatest changes occurring on the day of proestrus. Pacap mRNA levels in the PVN declined significantly on the morning of diestrus. During proestrus, PVN Pacap mRNA levels significantly increased 3 h before the gonadotropin surge and then declined. Pituitary expression of Pacap mRNA also varied on the afternoon of proestrus with a moderate decline at the time of the gonadotropin surge and a significant increase later in the evening. Expression of the mRNA species encoding the 288 amino acid form of follistatin increased significantly following the rise in pituitary Pacap mRNA, at the termination of the secondary surge in follicle-stimulating hormone beta (Fshb) gene expression. These results suggest that PACAP is involved in events before and following the gonadotropin surge, perhaps through increased gonadotroph sensitivity to GnRH and suppression of Fshb subunit expression through increased follistatin, as previously observed in vitro.     

Changes in the pituitary and hypothalamic content of methionine-enkephalin during the estrous cycle of rats

Met-Enkephalin content of the anterior hypothalamic-preoptic area, medial basal hypothalamus, anterior pituitary, intermediate and posterior pituitary was measured using a specific radioimmunoassay. Met-Enkephalin content of the anterior hypothalamic-preoptic area, medial basal hypothalamus and anterior pituitary was very high on the morning of proestrus but decreased on the afternoon of proestrus and on estrus. The content of met-Enkephalin was more variable in the anterior pituitary than in the anterior hypothalamic-preoptic area and medial basal hypothalamus during the estrous cycle. The results suggest that the met-Enkephalin may be involved in regulating the hypothalamo-hypophyseal function during estrous cycle in the rat.     

Effects of estrogens and progesterone on the catecholaminergic activity of the adrenal medulla in female rats

Some reports in the literature allow to suspect the existence of an effect of sexual steroids on the adrenal catecholamines. To test this possibility, we have examined the catecholaminergic activity in the adrenal medulla of normal cycling rats in three phases of estrous cycle and of ovariectomized (OVX) rats injected with pharmacological doses of estradiol (ES), 2-hydroxyestradiol (HE) and/or progesterone (P). Adrenomedullary content of norepinephrine (NE) was similar during the estrous cycle, while epinephrine (E) content was increased during diestrous. This increase was concomitant with an increased phenylethanolamine-N-methyltransferase (PNMT) activity. Moreover, the monoamine oxidase (MAO) activity was significantly increased during proestrous, while the catechol-O-methyltransferase (COMT) activity was significantly decreased during estrous. In addition to these observations, ovariectomy caused a significant reduction of the E/NE ratio and of COMT and MAO activities. Administration of ES to OVX rats increased the E content, the E/NE ratio and the COMT activity as compared to vehicle-treated OVX rats. Administration of P to OVX animals led also to a significant increase of the E/NE ratio and of the COMT activity but not of the E content, while the administration of this steroid to OVX rats previously treated with ES only increased the COMT activity. Finally, administration of HE caused non-significant changes in NE and E contents and in MAO, COMT and PNMT activities. We can conclude that sexual steroids seem to be able to modify the catecholamine metabolism in the adrenal medulla and, hence, they could alter the ability of this gland to store and release these amines.     

Pituitary alpha subunit mRNA amounts during the sheep estrous cycle. Assessment by cDNA hybridizations

Pituitary glycoprotein hormones exhibit a dimeric structure consisting of a common alpha subunit and similar beta subunits. In this study, alpha subunit mRNA amounts have been examined in sheep pituitaries during defined times of the normal estrous cycle. These times were designed to include events prior to, and including the beginning of, the preovulatory luteinizing hormone surge. Criteria such as serum and pituitary luteinizing hormone, serum progesterone, and ovarian morphology were used to classify the groups as: 1) Day 12 of the cycle; 2) 24 h before behavioral estrus (E-24); and 3) 5 h after estrus (E + 5). RNA was extracted from the pituitaries and amounts of alpha subunit mRNA quantitated using cell-free translations and cDNA hybridizations. Both Northern transfers and RNA dot blots were used. The amount of alpha subunit mRNA in the Day 12 group was the lowest of the three groups and was similar to that seen in the pituitary from an anestrous ewe. The amount observed in the E-24 animals was only slightly increased over the Day 12 (approximately 2-fold); however, a greater increase was observed when the E + 5 group was examined (approximately 4-8-fold). These results suggest that the amount of alpha subunit mRNA increases during the time of the preovulatory luteinizing hormone surge in the normal estrous cycle of the sheep and thus probably plays a role in the important physiological event.     

Dehydrogenase activity of the pineal gland during the estrous cycle

An investigation of the relationship of succinic dehydrogenase (SDH) and lactate dehydrogenase (LDH) in the pineal gland of the adult female albino rats was carried out during seven definitive stages of the estrous cycle: Early Estrus (E1), Late Estrus (E2), Metestrus (ME), Early Diestrus (D1), Late Diestrus (D2), Preproestrus (PPE) and Proestrus (PE). Controlled housing conditions were maintained on 7:00 A.M. to 7:00 P.M. light-dark cycle. The animals were necropsied at precise times after the onset of estrus and subsequent stages of the cycle. Comparative histochemical and biochemical analysis revealed the following for SDH activity: E2 greater than E1 greater than D2 greater than D1 greater than PPE greater than PE greater than ME; and for LDH activity: PE greater than E2 greater than ME greater than D1 greater than PPE greater than E1 greater than D2. Interrelationships are postulated between pineal SDH, GOT, GPT, and estrogen concentrations in the rat.     

3 Alpha-hydroxysteroid dehydrogenase and 3 beta-hydroxysteroid dehydrogenase in the ovary of young Mongolian gerbils

The ovaries of sexually mature, pregnant mare serum gonadotropin (PMSG) stimulated, 12 week old Mongolian gerbils were investigated morphologically and enzyme histochemically for the appearance of the 3 alpha-hydroxy-steroid and the 3 beta-hydroxysteroid dehydrogenase during the estrous cycle. Up to ovulation, on day 3 of the estrous cycle, the number of vesicular follicles increases continuously. Primarily atretic follicles can be seen on day 4. On day 5 corpora lutea appear, but they degenerate already by day 6. During the entire estrous cycle, 3 alpha-hydroxysteroid dehydrogenase and 3 beta-hydroxysteroid dehydrogenase activity can be found in the theca of tertiary follicles and in the interstitial cells, whereas the theca of secondary follicles and the granulosa of healthy follicles do not exhibit any enzyme activity. The activity decreases from day 1 till day 6. The granulosa of atretic follicles and the cells of corpora lutea show only weak activity. It may be significant that the intensity of enzyme activity in the ovary and the estrogen level in the plasma are differently correlated to the estrous cycle.     

Subpopulations of luteinizing hormone (LH) possessing various ratios of bioactivity to immunoreactivity in the female rat pituitary glands and their changes during the estrous cycle

Twenty-four adult female Sprague-Dawley rats (3 from each of 8 litters), showing 4-day cycles, were used in the present study. Aqueous extracts of pools of 6 pituitary glands in each cycle date were fractionated with a column isoelectrofocusing (IEF) technique, pH range of 3.5-10. Biological and immunological LH activities were determined by an in vitro bioassay and a radioimmunoassay, respectively, in the original aqueous extracts of the pituitary glands and in the fractions separated by IEF. Pituitary content of LH was the highest in the proestrus before the preovulatory LH surge (1243.7 +/- 67.8 micrograms NIAMDD rat LH-RP-1/pituitary gland for the biological activity). In the estrus, after the LH surge, it was reduced to 688.9 +/- 51.2 micrograms/pituitary gland. The decreased pituitary content was recovered to the level in the proestrus during the metestrus and the diestrus (1047.0 +/- 53.8 and 1173.0 +/- 58.5 micrograms/pituitary gland, respectively). Rat LH in the pituitary aqueous extracts was separated into multiple subpopulations in terms of pI values by IEF; i.e. Subpopulations A (pI = 10.3), B (9.3), C (9.0), D (8.7), E (8.3), F (neutral LH), and G (acidic LH). Among them the most predominant one was Subpopulation A throughout the estrous cycle. Subpopulations A, B and C exhibited statistically significant cyclic changes as was observed in the pituitary LH content, whereas the remaining ones stayed at constant levels during the cycle. The highest ratio of biological to immunological LH activities (B/I ratio) was obtained in Subpopulation A (6.41), followed by G, C and B (5.15, 4.24 and 3.99, respectively). Depressed B/I ratios were revealed in D, E and F (2.59, 1.86 and 3.07, respectively). High alkaline LH subpopulations, i.e. A, B and C, preserving high biological potency and showing cyclic changes during the estrous cycle, seem to be the releasable types of the hormone and to be mainly discharged for the preovulatory LH surge. Although characteristic features of other types of the hormone are not known, it is possible that one of them, presumably the acidic LH, might be the newly-synthesized type of the hormone, which might attain releasability by certain molecular modifications involving a shift in the pI value.     

Sex and hormonal cycle differences in rat brain levels of pain-related cannabimimetic lipid mediators

One important function of endocannabinoids and related lipid mediators in mammalian central nervous system is modulation of pain. Evidence obtained during the last decade shows that altered levels of these compounds in the brain accompany decreases in pain sensitivity. Such changes, if sexually dimorphic, could account for sex differences in pain and differences that occur during different phases of the hormonal cycle in females. To examine this possibility, we measured the levels of the pain-modulatory lipids anandamide, 2-arachidonoyl glycerol, N-arachidonoyl glycine, N-arachidonoyl gamma amino butyric acid, and N-arachidonoyl dopamine in seven different brain areas (pituitary, hypothalamus, thalamus, striatum, midbrain, hippocampus, and cerebellum) in male rats, and in female rats at five different points in the estrous cycle. The cerebellum did not demonstrate a change in endocannabinoid production across the estrous cycle, whereas all other areas tested showed significant differences in at least one of the compounds measured. These changes in levels occurred predominantly within the 36-h time period surrounding ovulation and behavioral estrus. Differences between males and females were measured as either estrous cycle-independent (all estrous cycles combined) or cycle-dependent (comparisons of males to each estrous cycle). In cycle-independent analyses, small sex differences were observed in the pituitary, hypothalamus, cerebellum, and striatum, whereas no differences were observed in the thalamus, midbrain, and hippocampus. In cycle-dependent analyses, the hypothalamus and pituitary showed largest sex differences followed by the striatum, midbrain, and hippocampus, whereas no sex differences were measured in thalamus and cerebellum. These data provide a basis for investigations into how differences in sex and hormonal status play a role in mechanisms regulating endocannabinoid production and pain.