LH release by Cu and Ni salts and metal-GnRH complexes, in vitro

The present studies were undertaken to examine the effect of copper and nickel salts and their complexes with GnRH on LH release from the pig anterior pituitary cells in vitro. The potency of Cu-GnRH and Ni-GnRH binding to GnRH receptors with iodinated GnRH as a radioactive tracer was also verified. The incubation of pig pituitary cells with Cu and Ni acetate salts showed no effect of the studied ions on LH release at any concentration used. However, nickel salt at a lower dose (10(-10) and 10(-9) M) tended to decrease LH output. By contrast, the native GnRH as well as its metal complexes significantly stimulated LH release after three hours of treatment and Cu-GnRH was found to be the most effective. The results showed that Cu and Ni complexes with GnRH but not their acetate salts are effective in LH release from pig pituitary cells collected from adult female pigs.     

Copper induces luteinizing hormone release and desensitization of pituitary gonadotropes

Copper stimulated LH release from cultured rat pituitary cells in a dose-and time-dependent manner. After 4 h of incubation with 10 mu M Cu2+, LH release was stimulated by 3-fold. The release of LH stimulated by Cu2+ was Ca2+ dependent, thus excluding the possibility that the releasing activity of this divalent cation was due to a toxic effect on pituitary cells. The stimulatory action of Cu2+ is substantially mediated via the GnRH-receptors since Cu2+ inhibited 125I-Buserelin binding and since GnRH-antagonist blocked most of the Cu2+-stimulated LH release (80%). Both GnRH (1 microM) and Cu2+ (10 microM) induced desensitization of pituitary cells to a subsequent stimulation of either GnRH (0.5 nM) or Cu2+ (10 microM). However, in contrast to GnRH, Cu2+ did not induce down regulation of GnRH receptors. These findings suggest that the Cu2+ effects are mainly mediated through the GnRH receptors.     

Different signaling in pig anterior pituitary cells by GnRH and its complexes with copper and nickel

Gonadotropin releasing hormone (GnRH) is an essential factor in the regulation of synthesis and release of pituitary gonadotropins. After binding to specific receptors and coupling with G proteins, it triggers the intracellular signaling involving the synthesis of inositol phosphates and diacylglycerol. Previously we have showed that certain metal complexes with GnRH, i.e. copper (Cu-GnRH) and nickel (Ni-GnRH) are able to bind to the GnRH receptors. The intracellular signalling of these complexes, however, has not been yet elucidated. In this experiment, the ability of the Cu-GnRH and Ni-GnRH complexes to modulate cAMP synthesis and phosphoinositols formation in the pig anterior pituitary cells in vitro was studied. The native GnRH and its metal complexes stimulated the luteinizing hormone (LH) release, but only the effect of Cu-GnRH was found to be a dose-dependent. The metal complexes did not significantly influence inositol phosphates accumulation, while their effect on cAMP synthesis was significantly more potent than that of GnRH alone. We conclude that the Cu-GnRH and Ni-GnRH complexes increase LH release in the porcine pituitary cells although their intracellular signaling is different from that of the native GnRH. It seems that metal complexes with GnRH deserve more attention in further studies.     

Increased LH and FSH release from the anterior pituitary of ovariectomized rat, in vivo, by copper-, nickel-, and zinc-LHRH complexes.

The effect of Cu2+, Ni2+, Zn2+ and their complexes with LHRH on the release of luteinizing hormone (LH) and follicle stimulating hormone (FSH) was estimated in in vivo experiments with the use of the method proposed by Ramirez and McCann. Ovariectomized, estradiol, and progesterone pretreated rats were injected intravenously either with LHRH alone, a metal ion alone, a mixture of metal and hormone, or a metal-LHRH complex. A metal alone or a mixture of it with LHRH did not affect gonadotropin release at all or no more than LHRH alone. However, the complex of Cu2+ with LHRH brought about a high release of LH and even higher release of FSH. This indicates that copper complex is more effective than metal-free LHRH. The nickel complex showed a similar although lesser effect. The zinc complex had similar potency to free LHRH though higher FSH-releasing ability was noticed. We conclude that copper-, nickel-, and zinc-LHRH complexes were more potent than the peptide hormone itself and promoted the FSH release in the ovariectomized, estradiol, and progesterone pretreated rats.     

Differential actions of GnRH and rat hypothalamic extracts in release of hypophysial FSH and LH in vitro.

A study was made of the separate patterns of luteinizing hormone (LH) and follicle stimulating hormone (FSH) release from isolated rat pituitary tissue evoked by synthetic gonadotropin releasing hormone (GnRH) or female hypothalamic extracts (HE), respectively, in a continuous perifusion system. Under defined conditions, gonadotropin release from hemipituitaries was relatively stable and reproducible. Absolute levels of LH and FSH release evoked by HE in terms of their GnRH content were always greater than those following exposure to synthetic GnRH at varying doses. Synthetic GnRH released more FSH than LH. In contrast, the HE released slightly higher levels of LH than FSH. The data suggest that the female rat hypothalamus contains substances other than GnRH, capable of releasing both LH and FSH. It is possible that such unidentified components can modify the hypophysial action of GnRH, resulting in particular circumstances in a differential release of LH and FSH.     

Estradiol-17beta triggers luteinizing hormone release in the protandrous black porgy (Acanthopagrus schlegeli Bleeker) through multiple interactions with gonadotropin-releasing hormone control.

We investigated the mechanism of estradiol-17beta (E2) action on stimulation of LH (=gonadotropin II) release in the black porgy fish (Acanthopagrus schlegeli Bleeker) using an in vivo approach and primary cultures of dispersed pituitary cells in vitro. In vivo, E2 but not androgens (testosterone [T] and 11-ketotestosterone [11-KT]) significantly stimulated plasma LH in a dose-dependent manner. Estradiol-17beta also increased brain content of seabream GnRH. GnRH antagonist prevented E2 stimulation of LH release in vivo, indicating that the effect of E2 on LH was mediated by GnRH. In vitro, sex steroids (E2, T, 11-KT) alone had no effect on basal LH release in the cultured pituitary cells, but GnRH significantly stimulated LH release. Estradiol-17beta potentiated GnRH stimulation of LH release, an effect that was inhibited by GnRH antagonist, and 11-KT, but not T, also potentiated GnRH stimulation of LH release. The potentiating effect of 11-KT on GnRH-induced LH release in vitro was stronger than that of E2. These data suggest that E2 triggers LH release in vivo by acting both on GnRH production at the hypothalamus and on GnRH action at the pituitary. In contrast, 11-KT may only stimulate GnRH action at the pituitary. The E2) induction of LH release, through multiple interactions with GnRH control, supports a possible central role of E2in the sex change observed in the protandrous black porgy.     

GnRH stimulates LH release directly via inositol phosphate and indirectly via cAMP in African catfish

In African catfish, two gonadotropin-releasing hormone (GnRH) peptides have been identified: chicken GnRH (cGnRH)-II and catfish GnRH (cfGnRH). The GnRH receptors on pituitary cells producing gonadotropic hormone signal through inositol phosphate (IP) elevation followed by increases in intracellular calcium concentration (?Ca(2+)(i)). In primary pituitary cell cultures of male African catfish, both cGnRH-II and cfGnRH dose dependently elevated IP accumulation, ?Ca(2+)(i), and the release of the luteinizing hormone (LH)-like gonadotropin. In all cases, cGnRH-II was more potent than cfGnRH. The GnRH-stimulated LH release was not associated with elevated cAMP levels, and forskolin-induced cAMP elevation had no effect on LH release. With the use of pituitary tissue fragments, however, cAMP was elevated by GnRH, and forskolin was able to stimulate LH secretion. Incubating these fragments with antibodies against cfGnRH abolished the forskolin-induced LH release but did not compromise the forskolin-induced cAMP elevation. This suggests that cfGnRH-containing nerve terminals are present in pituitary tissue fragments and release cfGnRH via cAMP signaling on GnRH stimulation, whereas the GnRH receptors on gonadotrophs use IP/?Ca(2+)(i) to stimulate the release of LH.     

Accumulation, subcellular localization and ecophysiological responses to copper stress in two Daucus carota L. populations

Copper accumulation, subcellular localization and ecophysiological responses to excess copper were investigated using pot culture experiments with two Daucus carota L. populations, from a copper mine and an uncontaminated field site, respectively. Significant differences of malondialdehyde (MDA) and hydrogen peroxide (H₂O₂) concentrations and antioxidant enzyme [superoxide dismutase (SOD), catalase (CAT) and ascorbate peroxidase (APX)] activities of leaves under Cu treatment were observed between the two populations. At high Cu concentrations (400 and 800 mg kg⁻¹), a significant increase in contents of MDA and H₂O₂ but a significant decrease in activities of SOD, CAT and APX were observed in uncontaminated population. Contrarily, the population from copper mine maintained a lower level of MDA and H₂O₂ but higher activities of SOD, CAT and APX. Copper accumulation in roots and shoots increased significantly with the increase of copper concentrations in soils in the two populations. No significant difference of the total Cu in roots and shoots was found between the two populations at same copper treatment. There were also no striking differences of cell wall-bound Cu and protoplasts Cu of leaves between the two populations. The difference was that Cu concentration in vacuoles of leaves was 1.5-fold higher in contaminated site (CS) population than in uncontaminated site population. Hence, more efficient vacuolar sequestration for Cu and maintaining high activities of SOD, CAT and APX in the CS population played an important role in maintaining high Cu tolerance.     

Complexes of salicylaldehyde acylhydrazones: cytotoxicity, QSAR and crystal structure of the sterically hindered t-butyl dimer

A series of acylhydrazones of salicylaldehyde and their transition metal complexes, predominantly copper(II), have been prepared and characterized. The crystal structure of the Cu(II) complex of the sterically hindered t-butyl derivative contains a phenolato bridged dimer with the ligand coordinated as a tridentate moiety. QSAR analyses of the cytotoxicity of the chelators and their Cu(II) complexes reveals that solubility is the dominant factor for activity. Compounds display a maximum with respect to lipophilicity, allowing optimization of the bioactivity for both the ligands and their complexes. Copper complexes are significantly more cytotoxic than the metal-free ligands and complexes of other metals: Cu > Ni > Zn = Mn > Fe = Cr > Cr > Co.     

Interrelationship between estrogen and thyroxine on the release of luteinizing hormone and gonadotropin-releasing hormone in vitro

The present experiments were designed to study the interaction between estradiol benzoate (EB) and thyroxine (T4) given in vivo on the responsiveness of pituitary luteinizing hormone (LH) to gonadotropin-releasing hormone (GnRH) and the release of GnRH in vitro. Ovariectomized-thyroidectomized (Ovx-Tx) rats were injected s.c. with saline or T4 (2 micrograms/100 g b.wt), and oil or EB (0.1 microgram) once daily for 40 days following a 2 x 2 factorial design. All animals were then decapitated and blood samples were collected. Anterior pituitaries (APs) were incubated in vitro with and without 0.1 ng GnRH at 37 degrees C for 4 h. Mediobasal hypothalami (MBHs) were excised and then incubated with and without APs from Ovx donor rats. Concentrations of LH and GnRH in the medium and that of LH in the serum were measured by radioimmunoassay. The LH level in media containing MBHs and donor APs was used as the index of bioactive GnRH release. In Ovx-Tx rats, T4 injections reduced the serum LH concentration, the pituitary LH response to GnRH, and the bioactive as well as the immunoreactive GnRH release. The serum LH levels and the spontaneous as well as the GnRH-stimulated release of LH in vitro were suppressed in Ovx-Tx rats following administration of EB. By contrast, the serum LH concentration, as well as pituitary LH response to GnRH and GnRH release in vitro, were higher in the group treated with both T4 and EB than in that treated with saline and EB. These results suggest that the differential changes in the LH secretion after thyroidectomy of Ovx versus non-Ovx rats are due to an antagonistic effect between T4 and estrogen on the response of pituitary LH to GnRH, and the release of GnRH.     

Gonadotropin-releasing hormone in third ventricular cerebrospinal fluid of the heifer during the estrous cycle

The release profile of GnRH in cerebrospinal fluid (CSF) and its correlation with LH in peripheral blood of ovary-intact heifers during the estrous cycle were investigated. A silicon catheter was placed into the third ventricle of six heifers using ultrasonography. During the mid-luteal phase, the heifers were injected with prostaglandin F(2alpha) to induce luteolysis. Surges of CSF GnRH (66.7 h after prostaglandin F(2alpha) administration) and peripheral LH (66.3 h) occurred simultaneously and were coincident with the onset of estrus (67.0 h). Duration of elevated GnRH concentration considerably overlapped with the estrous phase in each of the heifers. Mean pulse frequencies of both GnRH and LH were significantly higher during the proestrous and early luteal phases than during the mid-luteal phase, while mean concentration and pulse amplitude of both GnRH and LH were not different between these three phases. Of all the GnRH pulses identified, more than 80% were accompanied by an LH pulse during the proestrous and early luteal phases. However, the proportion of GnRH pulses that were coincident with an LH pulse during the mid-luteal phase decreased to 60%. The results clearly demonstrate that a dynamic (pulse) and longer-term (surge) changes of GnRH release into CSF are physiologically expressed during the estrous cycle in heifers, and the pattern of pulsatile GnRH secretion in heifers depends upon their estrous cycle.     

Insulin-like growth factor I enhances gonadotropin-releasing hormone-stimulated luteinizing hormone release from bovine anterior pituitary cells

The role of insulin-like growth factor I (IGF-I) in the release of luteinizing hormone (LH) is unclear in ruminants. In the present study, the effects of IGF-I on the release of LH stimulated by gonadotropin-releasing hormone (GnRH) were examined in primary cultures of bovine anterior pituitary (AP) cells, and the interaction between estradiol-17beta (E(2)) and IGF-I was characterized. GnRH(100nM)-stimulated LH release from the cultured cells was increased (P<0.05) 12, 24 and 36h after addition of IGF-I (250ng/ml), with a maximum at 12h (48.4ng/ml media versus 35.4ng/ml media in controls). IGF-I at concentrations of 25, 250 and 500ng/ml increased the release by 18.7, 24.2 and 28.9%, respectively (P<0.05), when compared with controls (37.2ng/ml media). E(2) (10nM), IGF-I (250ng/ml) and combined treatment of E(2) plus IGF-I also induced significant increases in LH release (P<0.05). The amounts of LH release after treatment with E(2) alone was 37.3% greater than with IGF-I alone (39.0ng/ml media versus 28.4ng/ml media) (P<0.05). When E(2) and IGF-I were added together (45.6ng/ml media), the release of LH was significantly greater than with either E(2) alone or IGF-I alone (P<0.05). E(2) (10nM) significantly (P<0.05) increased the amount of GnRH bound to the cells by 51.6% when compared with controls, however, IGF-I (250ng/ml) failed to increase GnRH binding. These results show that IGF-I enhances GnRH-stimulated LH release without changing the number of GnRH receptors in cattle, and IGF-I interacts with E(2) to increase the response to GnRH.     

Long-term superfusion of rat pituitary cells: interaction of 17 beta-estradiol with pulses of gonadotropin-releasing hormone on luteinizing hormone release

In a series of four experiments, the temporal development of acute inhibitory and delayed stimulatory effects of 17 beta-estradiol (E) on luteinizing hormone (LH) release by superfused rat anterior pituitary cells pulsed with gonadotropin-releasing hormone (GnRH) was studied. Dispersed anterior pituitary cells from ovariectomized rats were cultured on Bio-Beads for 3 days and then placed in columns and superfused for up to 24 hr. During superfusion, the cells were exposed to GnRH pulses (3 X 10(-9) M, one 6-min pulse/hr). Cells treated with E (3 X 10(-10) M) either before (only 24 hr prior to superfusion) or before and during superfusion released significantly (P less than 0.05) more LH in response to the first few pulses of GnRH than cells treated with diluent. In contrast, cells treated with E only during superfusion initially released less GnRH-induced LH than cells treated with diluent. In a subsequent experiment, the inhibitory effect of E reached a maximum by 1.5 hr (P less than 0.01), and then gradually disappeared after 4.5 hr. Cells superfused simultaneously with E and fixed "low"-dose GnRH (5 X 10(-10) M) pulses did not exhibit enhanced LH responses with time to that dose of GnRH. However, E-superfused cells responded more than diluent-superfused cells to subsequent stimulation with a higher-dose GnRH pulse. Superfusion of cells with E for 16.5 hr in the absence of GnRH pulses also did not increase release of LH to low-dose (5 X 10(-10) M) pulses of GnRH, yet did cause a transitory increase to subsequent high-dose (10(-8) M) GnRH pulses. In conclusion, these results demonstrate the direct biphasic inhibitory then stimulatory effects of E on GnRH-induced LH release by superfused rat anterior pituitary cells. Expression of the stimulatory effect of E is related to the dose of GnRH.     

Gonadotropin-releasing hormone stimulation of pituitary gonadotrope cells produces an increase in intracellular calcium

Gonadotropin-releasing hormone (GnRH) stimulates pituitary gonadotrope cells to release luteinizing hormone (LH). Previous studies have indicated a role for Ca+2 in this process; however, the present study provides the first measurements of an increased intracellular Ca+2 concentration. Pituitary cell cultures enriched for gonadotropes were loaded with quin 2, a fluorescent Ca+2-sensitive molecule. Subsequent addition of GnRH to these cells produced a rapid (within 10 sec) increase in fluorescence (indicating an increase in intracellular free Ca+2). In contrast, two GnRH analogs, des1 GnRH (a very low-affinity binder to the GnRH receptor) and Ac[D-pCl-Phe1,2] DTrp3 DLys6 DAla10-GnRH (a pure GnRH antagonist) produced no such Ca+2 change, thus showing a correlation between increased intracellular Ca+2 and LH release. A functional relationship between increased Ca+2 and LH release was suggested by experiments in which LH release was inhibited from cells loaded with high levels of intracellular quin 2 (in order to chelate intracellular Ca+2). Since this inhibition was completely reversed by addition of the Ca+2 ionophore A23187, quin 2 was not toxic at the concentrations used and apparently inhibited LH release by buffering intracellular Ca+2. The results presented here are consistent with the hypothesis that GnRH-stimulated LH release is mediated by increased intracellular Ca+2 and support the notion that the rate-limiting step in GnRH-stimulated LH release is distal to Ca+2 mobilization.     

Copper inclusion in cellulose using sodium d-gluconate complexes

Copper containing cellulose material is of growing interest, e.g. offering alternative in the field of antimicrobials. Solutions of copper d-gluconate complexes (Cu(2+)-DGL) were used to introduce copper ions into a swollen cellulosic matrix. A ligand exchange mechanism forms the chemical basis of the sorption process. Copper sorption in cellulose was studied in the range between pH 6 and 13. An estimate for the complex stabilities of the Cu-cellulose system could be derived from the calculated species distribution of the different Cu(2+)-DGL complexes present. Spectrophotometry and cyclic voltammetry of Cu(2+)-DGL complex solution were used to confirm the presence of different species participating in the ligand exchange reaction. The pH dependent uptake of Cu(2+) ions in the cellulose matrix can be explained on the basis of the relative stabilities of Cu(2+)-DGL complex vs. Cu(2+)-cellulose complexes. In comparison to pH 10, higher copper content was observed at pH 6 and 13. Copper content was limited by carboxyl content of cellulosic materials, thus in analogy to the structure of Cu(2+)-DGL complexes participation of the carboxyl group as complex forming site is proposed. At high Cu(2+)-concentration and longer time of immersion in the copper complex solutions formation of solid deposits was observed on the surface of the treated fibres.     

Homologous desensitization with gonadotropin-releasing hormone (GnRH) also diminishes gonadotrope responsiveness to maitotoxin: a role for the GnRH receptor-regulated calcium ion channel in mediation of cellular desensitization

Maitotoxin (MTX) stimulates gonadotropin release from pituitary cell cultures. The time course and efficacy of LH release in response to GnRH and to MTX are similar; both secretagogues require extracellular Ca2+ and are inhibited by the selective Ca2+ ion channel antagonist methoxyverapamil (D600). LH release in response to either GnRH or MTX is not measurably inhibited by two other chemical classes of Ca2+ ion channel inhibitors represented by nifedipine and by diltiazem. The two secretagogues are nonadditive in their action on LH release when presented at high doses and prior studies indicate that MTX has no endogenous ionophoretic activity. These observations indicate that MTX likely stimulates LH release due to activation of the GnRH receptor associated Ca2+-ion channel in the gonadotrope. We have therefore assessed the functional state of this channel during the development of homologous desensitization of the gonadotrope to GnRH by measuring the ability of MTX to stimulate LH release. Cells were desensitized with GnRH in the presence of 3 mM EGTA. Under these conditions, the cells become refractory to GnRH in the absence of gonadotropin release since the latter process, but not the former, requires extracellular Ca2+. Accordingly, this approach allows assessment of the degree of desensitization in the absence of the influence of gonadotropin depletion. Such desensitized cells are less responsive to GnRH. Desensitized pituitary cells also respond with diminished efficacy and potency to MTX three or more hours after GnRH treatment but not at an earlier time (1 h) when GnRH receptors are diminished. These data are consistent with a model in which homologous desensitization is viewed as developing in two phases.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ovulation rate after GnRH or PGF2alpha administration in early postpartum dairy cows

The objectives of this study evaluating induction of ovulation in early postpartum dairy cows were to: compare two methods of GnRH (100 mcg) administration (i.m. route and s.c. implant), and determine if prostaglandin F(2alpha) (PGF) causes release of LH or ovulation similar to that reported for GnRH. In trial #1, serum LH peaked at 2h after i.m. administration of GnRH and was declining at 4h. The s.c. GnRH implant also caused an elevation in serum LH at 2 and 4h after treatment, with LH declining at 6h. Serum LH was unchanged in control cows. Experimental treatment caused ovulation in 4 of 14 GnRH i.m. treated cows, 4 of 12 GnRH implanted cows and 0 of 13 control cows. Parity had no effect on LH response but did affect resulting ovulation rate as multiparous cows were more likely to ovulate than were primiparous cows in response to either GnRH treatment. All cows that ovulated had a follicle larger than 12 mm at the time of treatment. In trial #2, serum LH increased as before after i.m. administration of GnRH, however, serum LH was unchanged in cows treated with PGF or saline. Gonadotropin releasing hormone caused more cows to ovulate than did PGF or saline treatments, and GnRH shortened the interval from treatment to the onset of CL function over the PGF treatment; 13.9+/-2.6, 28.2+/-4.1 and 22.3+/-4.1 days for GnRH, PGF and saline, respectively. In summary, there was no difference in the ability of s.c. implantation and i.m. administration of GnRH to cause ovulation. Prostaglandin F(2alpha) did not cause release of LH or ovulation. In 22 early postpartum dairy cows treated with 100 mcg GnRH i.m. in these two trials, nearly all cows (95%) responded with a release of LH but only 45% (10/22) responded with an ovulation and subsequent formation of a CL.     

Phorbol ester-induced LH release in pituitary gonadotrophs: effects of antagonists of calmodulin and GnRH.

The phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), a potent activator of Ca(2+)- and phospholipid-dependent protein kinase (C kinase), stimulates luteinizing hormone (LH) release from rat pituitary cells. The actions of TPA upon LH release were compared with those of the GnRH superagonist [D-Ala6] des-Gly10-GnRH N-ethylamide (GnRHa) in cultured pituitary cells. LH release was stimulated by 0.1 nM TPA and the maximum response at 10 nM TPA was 50% of the LH response to GnRHa. The ED50 values for TPA and GnRHa were 1.2 and 0.037 nM, respectively, and the maximum stimulatory effects of TPA and GnRHa on LH release were not additive. GnRHa-stimulated LH release was decreased by calmodulin (CaM) antagonists including pimozide, trifluoperazine, W5 and W7, being most effectively reduced (by 70%) by 10 microM pimozide. In contrast to their inhibition of GnRH action, these antagonists enhanced TPA-stimulated LH release, so that 10 microM pimozide and W7 doubled the maximum LH response. The potent GnRH antagonist [Ac-D-p-Cl-Phe1.2, D-Trp3, D-Lys6, D-Ala10]GnRH, which completely inhibited GnRHa-stimulated LH release with ID50 of 6.8 nM, also reduced maximum TPA-stimulated LH release by about 50%. These results suggest that both Ca2+/CaM and C kinase pathways are involved in the LH release mechanism, and indicate that C kinase plays a major role in the action of GnRH upon gonadotropin secretion. The synergism between CaM antagonists and TPA suggests that blockade of CaM-mediated processes leads to enhanced activation of the C kinase pathway, possibly by removal of an inhibitory influence. Furthermore, the partial inhibition of TPA-stimulated LH release by a GnRH antagonist suggests that the pathway(s), specifically connected with LH release in the diverse effects of C kinase, might be locked by the continuous receptor inactivation by antagonist and indicates the complicated pathways which diverge from the receptor and converge into specific cellular response.     

Direct opioid regulation of pituitary release of bovine luteinizing hormone

Although endogenous opioid peptides (EOP) are thought to alter pituitary release of luteinizing hormone (LH) by modifying the release of gonadotropin-releasing hormone (GnRH) from the brain, EOP may also directly affect the release of LH from pituitary cells. This hypothesis was tested using dispersed cells from the bovine anterior pituitary gland. Pituitaries were enzymatically dissociated, preincubated for 18 h and then cultured for either 2 or 24 h with GnRH, naloxone, methionine-enkephalin (Met-enk) or their combinations. Basal release of LH into media was 18.2 and 38.4 ng/100,000 cells after culture for 2 or 24 h, respectively. When cultured for 2 or 24 h with 10 nM GnRH, LH release was 296% and 131% of the basal release for each culture period. Cellular viability (75% vs 68%) and total (cells + medium) LH (128 vs 134 ng/100,000 cells) did not differ (P greater than .05) between cells cultured for 2 or 24 h. Naloxone (1 microM) increased (P less than .01) basal release of LH by 57% after 2 h of culture but not after 24 h of culture. Naloxone did not augment the amount of LH released in response to 10 nM GnRH. Addition of Met-enk (1 nM to 1 microM) suppressed (P less than .05) basal release of LH (23% to 62%) after 2 h of culture. Similar suppressive effects (8% to 49%) occurred in a dose-dependent manner (0.1 nM to 1 microM) after 24 h of culture. Met-enk (1 and 100 nM) antagonized (P less than .05) the stimulatory effect of naloxone and reduced (P less than .05) the amount of LH released in response to GnRH after 2 h of culture. In summary, the stimulatory effect of naloxone on the basal release of LH suggests that EOP may directly regulate pituitary cell function; the inhibitory effect of physiological concentrations of Met-enk on the basal in vitro release of LH suggests that EOP may directly affect the release of LH in vivo; the antagonism between the stimulatory effect of naloxone and the inhibitory effect of Met-enk is consistent with effects exerted through opioid receptors; and the stimulatory effect of GnRH may be partially reduced by Met-enk. These results are consistent with the hypothesis that opioids may directly modulate the release of LH at the pituitary level.     

The role of GABA(A) receptors in the neural systems of the medial preoptic area in the control of GnRH release in ewes during follicular phase

To examine the role of gamma-aminobutyric acid (GABA)(A) receptor mediating systems in the control of gonadotropin-releasing hormone (GnRH) release from the medial preoptic area (MPOA) of ewes during the follicular phase of the estrous cycle, the extracellular concentrations of GnRH, beta-endorphin, noradrenaline (NE), dopamine (DA), 4-hydroxy-3-methoxy-phenyl-glycol (MHPG) and 3,4-dihydroxy-phenylacetic acid (DOPAC) were quantified during the local infusion of muscimol and bicuculline (agonist and antagonist of GABA(A) receptors, respectively) to this structure. Stimulation of GABA(A) receptors markedly attenuated GnRH release, increased beta-endorphin release and noradrenergic system activity in the MPOA. The decrease of the luteinizing hormone (LH) concentration in blood plasma and LH pulse amplitude suggests that a GABA(A) receptor agonist in the MPOA also suppresses GnRH release from the GnRH axon terminals in the ventromedial hypothalamus/nucleus infundibularis region (VEN/NI). Blockade of GABA(A) receptors had no evident effect on GnRH/LH secretion but decreased beta-endorphin release and increased the extracellular DOPAC concentration. The suppressive influence of muscimol in the MPOA on GnRH release might be considered a net result of its direct inhibitory effect on GnRH release, indirect inhibitory influence on GnRH release through activation of the beta-endorphinergic system, and facilitation of GnRH neurons by increasing noradrenaline release. The results obtained during bicuculline perfusion on these systems' activity are not sufficiently consistent to provide a clear understanding of the lack of changes in the GnRH/LH release under blockade of GABA(A) receptors. We conclude that the MPOA in ewes during the follicular phase is an important regulatory site where stimulation of GABA(A) receptors both decreases GnRH secretion and increases beta-endorphin release.