Immunoreactive beta-endorphin in sheep ovary

Nonopioid effect of β-endorphin

This review presents the generalized literature data and the results of our own research of the nonopioid effect of β-endorphin, an opioid neuropeptide interacting not only with opioid but also with nonopioid (insensitive to the opioid antagonist naloxone) receptors. The roles of the hormone and its receptors in regulation of the immune, nervous, and endocrine systems are discussed. The effect of neuromediator on the immune system mediated by both opioid and nonopioid receptors is considered in detail. The data on distribution and function of the nonopioid β-endorphin receptor in human and animal organisms are presented. All available data on the characteristics of the nonopioid β-endorphin receptor obtained by means of radioligand analysis are given. The discussed information is supposed to extend our conceptions of the role of β-endorphin in mammals and to be of extensive use in medicine and pharmacology.

Expression of proopiomelanocortin, proenkephalin and prodynorphin genes in porcine luteal cells

The objective of the study was to examine the expression of the genes coding for proopiomelanocortin (POMC), proenkephalin (PENK) and prodynorphin (PDYN) in porcine luteal cells isolated from corpora lutea (CL) collected on days 3-6, 8-10 and 13-16 of the oestrous cycle. Total RNA was purified from non-incubated cells and from cells incubated for 48 h in the absence or presence of luteinising hormone (LH). The semi-quantitative RT-PCR technique, involving coamplification of the target and control cDNA (beta-actin or 18S rRNA), was used to examine gene expression. It was found that the genes coding for opioid precursors are expressed in both non-incubated and incubated porcine luteal cells representing the early, mid- and late luteal phase. In non-incubated cells, only POMC mRNA content changed during CL development, whereas the expression of PENK and PDYN genes remained relatively constant. Additionally, the treatment of cells with LH markedly affected the expression of POMC and PENK, but no influence on PDYN expression was observed. The present study indicates that porcine luteal cells may produce opioid peptides and that gene expression of their precursors (except for PDYN) may be modulated in these cells by LH. Moreover, the present results support the involvement of opioid peptides in local regulation within the CL of the pig.

Expression of proopiomelanocortin, proenkephalin and prodynorphin genes in porcine theca and granulosa cells

Previous studies have demonstrated the presence of endogenous opioid peptides (EOP) in the ovary and suggested their implication in local interactions within ovarian structures. Nevertheless, data pertaining to the expression of genes, coding for the opioid precursors, in ovarian cells are still rudimentary and not available for the pig. The study was undertaken to test whether genes of the opioid precursors - proopiomelanocortin (POMC), proenkephalin (PENK) and prodynorphin (PDYN) - are expressed in non-treated and gonadotropin-treated theca and granulosa cells isolated from ovarian follicles of the pig. The cells were isolated from small (days 15-16 of the estrous cycle) and large (days 19-20) porcine follicles. Dispersed cells were cultured in Eagle's medium under the water saturated atmosphere of 95% air and 5% CO(2), in the presence or absence of respective gonadotropin; theca cells with LH (100 ng/ml) and granulosa cells with FSH (100 ng/ml). Following 24h-incubation, the cells were harvested and the total RNA was isolated. The expression of genes coding for opioid precursors was estimated by the semi-quantitative RT-PCR technique involving co-amplification of the target cDNA (POMC, PENK or PDYN) and control cDNA (beta-actin or 18S rRNA). Specificities of PCR products were confirmed by Southern analysis and sequencing. In theca cells the expression of opioid precursors appeared to be gonadotropin-dependent except for PENK in the cells isolated from large follicles. In turn, granulosa cells exhibited the expression of POMC and PENK genes independently on treatment with FSH. This gonadotropin induced the expression of PDYN gene in granulosa cells isolated from small and large follicles and significantly increased POMC mRNA content in the cells from the large ones. The present studies indicate that porcine follicular cells (especially granulosa cells) may produce opioid peptides and that gonadotropins may modulate gene expression of their precursors in these cells. Moreover, our results support a participation of opioid peptides in the local regulations within ovarian follicle.

The Influence of Opioid Peptides on Steroidogenesis in Porcine Granulosa Cells

The present studies were undertaken to examine the influence of mu (beta-endorphin, DAMGO, FK 33-824), delta (met-enkephalin, leu-enkephalin, DPLPE) and kappa opioid receptor agonists (dynorphin A, dynorphin B, U 50488) used at different doses (1-1000 nM) alone and in combination with LH (100 ng/ml) on steroidogenesis in porcine granulosa cells derived from large follicles. The effects of mu, delta and kappa receptor agonists on both basal and LH-induced progesterone (P4) secretion were negligible. Agonists of mu opioid receptors reduced basal androstenedione (A4), testosterone (T) and oestradiol (E2) release. Co-treatment with LH entirely abolished the inhibitory effect of these agonists on A4 and E2 secretion and resulted in an increase in T release. The addition of delta receptor agonists was followed by a decrease in basal A4, T and E2 secretion. The cells incubated in the presence of LH increased the androgen production and abrogated the inhibitory effect of delta agonists on E2 output. Basal A4, T and E2 release was also suppressed by kappa receptor agonists. The presence of LH in culture media extended the inhibitory effect of these opioids on E2 output and caused either abolition of the inhibitory influence of kappa agonists or even augmentation of both androgen release in response to the opioids. In conclusion, these data support the involvement of three major types of opioid receptors in the regulation of porcine granulosa cell steroidogenesis.

The regulation of steroidogenesis by opioid peptides in porcine theca cells

The present study was designed to investigate basal and LH-induced steroidogenesis in porcine theca cells from large follicles in response to various concentrations (1-1000 nM) of mu opioid receptor agonists (beta-endorphin, DAMGO, FK 33-824), delta receptor agonists (met-enkephalin, leu-enkephalin, DPLPE) and kappa receptor agonists (dynorphin A, dynorphin B, U 50488). Agonists of mu opioid receptors suppressed basal androstenedione (A4), testosterone (T) and oestradiol-17beta (E2) secretion and enhanced LH-induced A4 and T release by theca cells. The inhibitory effect of the agonists on E2 secretion was abolished in the presence of LH. All delta receptor agonists depressed basal progesterone (P4) output. However, the influence of these agents on LH-treated cells was negligible. Among delta receptor agonist used only leu-enkephalin and DPLPE at the lowest concentrations inhibited basal A4 release. The presence of LH in culture media changed the influence of these opioids from inhibitory to stimulatory. Similarly, DPLPE reduced T secretion by non-stimulated theca cells and enhanced T secretion of stimulated cells. All of delta agonists inhibited basal E2 secretion and unaffected its release from LH-treated theca cells. Agonists of kappa receptors inhibited basal, non-stimulated, P4 secretion and two of them (dynorphin B, U 50488) potentiated LH-induced P4 output. Basal A4 and T release remained unaffected by kappa agonist treatment, but the cells cultured in the presence of LH generally increased both androgen production in response to these opioids. Basal secretion of E2 was also suppressed by kappa agonists. This inhibitory effect was not observed when the cells were additionally treated with LH. In view of these findings we suggest that opioid peptides derived from three major opioid precursors may directly participate in the regulation of porcine theca cell steroidogenesis.

The content of beta-endorphin-like immunoreactivity in porcine corpus luteum and the potential roles of progesterone, oxytocin and prolactin in the regulation of beta-endorphin release from luteal cells in vitro

The amount of beta-endorphin-like immunoreactivity (beta-END-LI) in porcine corpora lutea from several stages of the oestrous cycle and the effects of progesterone, oxytocin, and prolactin on beta-END-LI secretion in vitro by luteal cells were studied. Porcine corpora lutea obtained on days 1-5, 6-10, 11-13, 14-18, and 19-21 of the cycle were used to prepare extracts for beta-END-LI determination. Additionally, corpora lutea from days 11-13 and 14-18 were enzymatically dissociated and isolated luteal cells were used for further study of beta-endorphin secretion in vitro. Cells were cultured in serum-free defined M 199 medium (106 cells/ml) at 37 degrees C under 5% CO2 in air, for 12 h. The influences of the following factors on beta-END-LI secretion by luteal cells were tested: progesterone (10-9, 10-7 and 10-5 M), oxytocin (0.01, 0.1, 1 and 10 ng/ml), and prolactin (0.1, 1, 10 and 100 ng/ml). The beta-END-LI contents in extracts and media were measured by radioimmunoassay. The tissue concentration of beta-END-LI was lowest on days 1-5 of the cycle (0.35 +/- 0.03 ng/g wet tissue). Subsequently, it constantly increased to the highest value on days 14-18 (16.58 +/- 0.52 ng/g wet tissue) and on days 19-21 it declined (11.10 +/- 0.52 ng/g wet tissue). Progesterone at a low dose (10-9 M) resulted in significant (p < 0.05) increases and decreases in beta-END-LI secretion by luteal cells from days 11-13 and 14-18, respectively. Higher doses of progesterone (10-7 and 10-5 M) had no effect on beta-END-LI release, compared with the control group. All dose-levels of oxytocin used decreased beta-END-LI secretion by luteal cells on days 11-13 and 14-18 of the cycle. Prolactin at doses of 0.1 and 1 ng/ml on days 11-13, and all doses tested on days 14-18 resulted in decreases in beta-END-LI release from luteal cells. These results document evident changes in beta-END-LI content in the pig corpus luteum during its development and indicate the potential roles of progesterone, oxytocin, and prolactin in luteal cell secretion of beta-END-LI.

Action of the opioid agonist FK 33-824 on porcine small and large luteal cells from the mid-luteal phase: effect on progesterone, cAMP, cGMP and inositol phosphate release

The present study was designed to investigate the effect of the opioid agonist FK 33-824 on basal and hCG-induced progesterone (P4), cAMP and cGMP secretion and on the phosphoinositide-specific phospholipase C signalling system in separated porcine small (SLCs) and large luteal cells (LLCs). Unit gravity sedimentation was used to produce cultures of small and large luteal cells from corpora lutea (CL) on days 8-10 of the oestrous cycle. In order to examine the effect of FK 33-824 on P4 and cyclic nucleotide release, SLCs and LLCs were incubated in M199 medium at 37 degrees C in 5% CO2:95% air, for 12 h. Small and large luteal cells were treated with hCG (100 ng/ml) alone, FK 33-824 (10(-9) M) alone or were co-treated with FK 33-824 and hCG and with the opioid antagonist, naloxone (NAL, 10(-5) M). FK 33-824 alone did not influence P4 secretion by LLCs and SLCs. However, FK 33-824 completely abolished the stimulatory effect of hCG on P4 secretion by SLCs. The addition of FK 33-824 was followed by a significant increase in cAMP release (p<0.01) by LLCs and a decrease in cGMP secretion by SLCs (p<0.05). The effect of FK 33-824 was blocked by NAL, which strongly suggests that the observed influence of this opioid agonist was achieved through its binding to opioid receptors in luteal membranes. In the presence of hCG, cAMP secretion by both SLCs and LLCs was many-fold higher than in the control group. As regards cGMP output, only LLCs showed elevated secretion of this cyclic nucleotide under the influence of hCG. With the aim of examining the influence of FK 33-824 on phosphatidylinositol hydrolysis, LLCs, SLCs and mixed small and large cells were labelled with [3H]-myo-inositol (100 microCi/ml) for 3 h at 37 degrees C. The cells were then incubated in M199 medium supplemented with 10 mM LiCl, 1% BSA, and antibiotics in the presence and absence of FK 33-824 (10(-9) M) at 37 degrees C for 30 min. Liberated labelled inositol mono-, bis-, and trisphosphates (IPs) were isolated and quantified by affinity chromatography on columns of AG 1-X8 resin, followed by liquid scintillation spectroscopy. Inositol phosphate accumulation in LLCs, SLCs, and mixed small and large cells was not altered by treatment with FK 33-824 at the dose used. In view of these findings we suggest that opioid peptides affect pig corpus luteum steroid secretion, and the response is probably mediated through cyclic nucleotides, but not IPs.

Naltrexone enhances ovulation and prostaglandin synthesis in the rat ovary

We explored the action of beta-endorphin (beta E) and naltrexone (Nal) on the number of oocytes and on prostaglandins (PGE and PGF2 alpha) production by the ovaries from PMSG/hCG-primed immature and cycling rats. Superovulated rats were injected with beta-endorphin (0.5 microgram) intraperitoneally 4 hours after hCG. The number of ova ovulated was inhibited and this effect was blocked with naltrexone injected into the ovarian bursa (0.1 microgram) 30 minutes before beta-endorphin. Furthermore, beta-endorphin (10(-8) M) decreased prostaglandins production by ovaries isolated 4 hours after hCG. Intraperitoneal injection of beta-endorphin (0.5 microgram) at 17:00 hr on proestrus decreased (-23%) the number of ova within oviducts on the day after (estrus). Naltrexone injected intraperitoneally (5 micrograms) at 16:30 hr on proestrus increased the number of ova (+23%). On the other hand, beta-endorphin increased the number of oocytes obtained by puncture of antral follicles (+37%) and naltrexone decreased the number of oocytes (-33%). Prostaglandins content in the ovary of adult rats at 23:00 hr, approximately 4 hr before the onset of ovulation, was diminished when the rats received beta-endorphin at proestrus. Moreover, when the rats were injected with naltrexone, ovarian production of prostaglandins was increased. Our results further support the hypothesis that beta-endorphin affects ovulation at the level of the ovary in the rat and that endogenous opioids may be modulating this physiological process.

The relationship between the immune and endocrine systems

Increasing evidence links the immune and endocrine systems. Cytokines produced by activated immune and immune accessory cells can affect, positively or negatively, the secretion of hormones from the hypothalamic-pituitary-adrenal or hypothalamic-pituitary-ovarian axes. On the other hand, adrenal and ovarian hormones affect the secretion of cytokines by cells of the immune system. The interaction also occurs at a local level in paracrine or autocrine fashion. Cytokines produced by resident ovarian macrophages or ovarian cells can affect the follicle and the corpus luteum and, consequently, ovarian steroidogenesis at both phases of the menstrual cycle. Conversely, the ovarian steroids influence, positively or negatively, the secretion of cytokines from both the resident macrophages and local endocrine cells.

Pro-opiomelanocortin (POMC) expression and immunolocalization of POMC-related peptides in the ovary of Protopterus annectens, an African lungfish

Antisera against adrenocorticotropic hormone (ACTH), alpha-melanocyte-stimulating hormone (alpha MSH) and beta-endorphin were used to localize pro-opiomelanocortin (POMC)-derived peptides in the ovary of the African lungfish Protopterus annectens by immunohistochemistry. Immunoreactivity was observed in the granulosa and the internal theca of the vitellogenic follicles. No immunoreactivity was observed in immature follicles. Using human POMC cDNA as the hybridization probe POMC-like mRNA was identified in situ in cells of the granulosa and internal theca of the vitellogenic follicles. No labeling was observed in primordial follicles. The demonstration in the same cells of POMC mRNA and POMC-related peptides immunoreactivity indicates a local production of the opiate hormones.

Beta-endorphin inhibits prostaglandin synthesis in rat ovaries and blocks induced ovulation

The aim of the present study was to explore the action of exogenous beta-endorphin on the number of oocytes ovulated and on prostaglandin (PG) production in ovaries isolated from pregnant mare's serum gonadotropin/human chorionic gonadotropin(PMSG/hCG)-primed immature rats. An intrabursal injection of the opioid (0.084 microgram) was given 4 hours after hCG and the number of oocytes within the oviducts on the following morning was reduced (P < 0.05). The same effect was also attained with an intraperitoneal (IP) injection (0.5 microgram). The time course of PG synthesis was quantified in ovaries of rats treated with an IP injection. Eight hours after hCG, prostaglandin content increased (P < 0.01) and remained high until 12 hours after hCG (P < 0.001). This increase was inhibited by the in vivo treatment with beta-endorphin. On isolated ovaries, beta-endorphin (10(-8) M) had a clear inhibitory action on prostaglandin production. beta-Endorphin's effect on prostaglandin synthesis in the ovaries is of importance in the ovulatory process. The possible physiological role of beta-endorphin merits further investigation.

Interaction between steroid hormones and endometrial opioids

The opioids beta-endorphin and the dynorphins belong to two separate families of endogenous opioid peptides (EOP). They are produced not only in the central nervous system but also in nonneural tissues where, as it appears, they act locally via paracrine mechanisms. These opioids have been shown to be produced at multiple sites along the mammalian reproductive tract including the intrauterine cavity. The aim of the present work was to find out if the well differentiated human endometrial cell line of Ishikawa, which has been shown to be a good in vitro model for the study of the effects of steroid hormones on human epithelial endometrium, expresses these two EOP. Northern blot hybridization of RNA from these cells showed the presence of a 1.2-kb POMC and a 2.4-kb PDYN transcript. Radioimmunoassay and gel filtration chromatography characterization of the immunoreactive (IR) opioid peptides present in the culture media showed the presence of IR-beta-endorphin and IR-dynorphins. The apparent molecular weight of IR-beta-endorphin was that of authentic beta-endorphin while the bulk of the IR-dynorphin had an apparent molecular weight of 8 kd. The secretion of both opioids could be increased by KCl-induced depolarization. Estrogen and glucocorticoids decreased, in a dose- and time-dependent manner, the secretion of beta-endorphin from the Ishikawa cells while progesterone and dihydrotestosterone did not have a statistically significant effect. The antiprogestin-antiglucocorticoid RU486 acted as an agonist, i.e., it diminished beta-endorphin secretion possibly via glucocorticoid receptors. On the other hand, the secretion of dynorphins was not affected by any of the steroids tested while LHRH, the inducer of gonadotropins and anterior pituitary dynorphins secretion, provoked a time- and dose-dependent increase of their secretion without affecting that of beta-endorphin. These data suggest that the regulation of endometrial opioids production is type-specific. Thus, it is possible that each type of endometrial opioid participates in different local homeostatic loops and exerts distinct paracrine effects.

Glucocorticoids potentiate the adenylyl cyclase-cAMP system mediated immunoreactive beta-endorphin production and secretion from hypothalamic neurons in culture

Beta-endorphin(beta EP)1-31, a potent opioid peptide of proopiomelanocortin (POMC) derivatives, is produced and released from neurons at arcuate nuclei of the rat hypothalamus. Although dexamethasone (DM) suppresses the production and secretion of POMC related peptides from rat pituitary corticotrophs, the effect of glucocorticoids on the function of hypothalamic beta EP neurons remains unclear. Employing long term monolayer cultures of neonatal rat hypothalamic cells, we report here that 4 day treatment with 10 microM of forskolin increased ir-beta EP levels in cell content and culture media by approximately 1.7 (P < 0.05) and 4.1 times (P < 0.01) above vehicle treated control cultures (mean +/- S.E.M., 47.3 +/- 2.6 pg/well and 40.4 +/- 3.0 pg/well; n = 3) respectively. Although 4 day treatment with DM alone had little effect on the release and the cell content of ir-beta EP, it significantly enhanced forskolin-induced elevation of ir-beta EP levels in cell content and in culture media. The effect of DM was dose-related and time-dependent, with an EC50 of about 1 nM; at this concentration DM enhanced ir-beta EP secretion about 2.1 times (P < 0.01) above that induced by 10 microM of forskolin alone. Furthermore, the potentiating effect of DM was specifically suppressed by 100 nM of RU38486 (P < 0.01), a glucocorticoid receptor antagonist, but not by an equivalent dose of RU28318, a mineralocorticoid receptor antagonist. In addition, Northern blot analysis showed that forskolin (10 microM) increased the abundance of POMC mRNA 1.4 fold above that of vehicle treated control cultures. Whereas by itself, DM (10 nM) had little effect on the level of POMC mRNA, it enhanced forskolin-stimulated increase of the abundance of POMC mRNA approximately 2.6 times. Moreover, DM also augmented 1.6 times (P < 0.05) forskolin-induced but not 3-isobutyl-1-methylxanthine (IBMX)-induced increase of cAMP production (5.5 +/- 0.4 pmol/well; mean +/- S.E.M., n = 3) in the cultures. Taken together, our findings suggest that in contrast to the inhibitory effect on pituitary corticotrophs, glucocorticoids enhance the production and secretion of beta EP from rat hypothalamic neurons by facilitating the stimulatory effect mediated, in part, through the adenylyl cyclase-cAMP system.

The adenylyl cyclase-cyclic AMP system modulates morphological and functional development of hypothalamic beta-endorphin neurons in culture

In rats, opioidergic beta-endorphin (beta EP1-31) is produced and released from neurons of arcuate nuclei in the hypothalamus. Although the neuropeptide has been implicated in sexual maturation and stress-induced reproductive dysfunction, the intra-hypothalamic regulation of beta EP neurons remains unclear. Employing long-term monolayer cultures of neonatal rat hypothalamic cells, we report here that 4 days of treatment with 10 microM forskolin increased approximately 3-fold (P < 0.01) the proportion of immunoreactive (ir)-beta EP positive neurons bearing neurites. In addition, treatment of forskolin also enhanced ir-beta EP release (634 +/- 59 pg/well; mean +/- SE, n = 4, P < 0.01) by 14-fold and ir-beta EP content (119 +/- 13 pg/well; P < 0.01) by 2-fold above that of vehicle-treated cultures; in both instances, the EC50 and the Emax of forskolin were approximately 10 microM and 100 microM, respectively. The forskolin-stimulated release of ir-beta EP was mimicked by cholera toxin and (Bu)2cAMP treatment in a dose-related manner, but not by pertussis toxin. Although by itself 3-isobutyl-1-methyl-xanthine (100 microM) only doubled ir-beta EP secretion, it markedly potentiated the stimulatory effect of forskolin. This forskolin-induced stimulation was reversible and in cultures re-exposed to the same drug within the first 24 h period, there was a marked increase in the stimulated release of ir-beta EP (P < 0.05); re-challenge of forskolin at later stages, however, induced a smaller but significant secretion of ir-beta EP (P < 0.01) compared to that of vehicle-treated control cultures. Sephadex G-50 gel chromatographic profile of the media prepared from forskolin-treated cultures revealed a major ir-beta EP peak of 3 K M(r). High-performance liquid chromatography analysis showed that ir-beta EP of the 3 K M(r) species was eluted with a retention time similar to that of synthetic rat beta EP1-31. We thus conclude that the adenylyl cyclase-cAMP system plays an important role in the modulation of beta EP1-31 production and release from hypothalamic beta EP neurons in culture. Furthermore, the functional responsiveness and the morphological development of these neurons are affected, at least in part, by the intrinsic activity of the adenylyl cyclase-cAMP system.

Biosynthesis of corticotropin-releasing hormone in human T-lymphocytes

Corticotropin-releasing hormone (CRH) is a 41-amino acid neuropeptide which increases the transcription of the proopiomelanocortin (POMC) gene, as well as the biosynthesis and secretion of POMC-derived peptides. Using a specific human CRH radioimmunoassay we have shown that human T-lymphocytes contain immunoreactive CRH. We studied the effects of phytohemagglutinin (PHA) and 12-O-tetradecanoylphorbol-13-acetate (TPA) on the biosynthesis of CRH in human T-lymphocyte cell cultures. A significant increase in CRH mRNA levels was observed in human lymphocytes after 12 h of PHA/TPA treatment, while the levels decreased after 22 h. These findings could imply an immunomodulatory role for CRH that could be due to autocrine and/or paracrine interactions.

Effect of beta-endorphin on cAMP accumulation in rat luteal cells

The effect of beta-endorphin on cAMP levels in 4-day-old rat luteal cells was investigated. In both the presence and absence of low doses of human chorionic gonadotropin (hCG, 0.001 IU/ml), beta-endorphin inhibited cAMP accumulation, whereas in the presence of high doses of hCG (0.01 IU/ml) it did not. This inhibitory effect was abolished by pre-treatment with islet-activating protein (IAP). Moreover, treatment with IAP resulted in an overall enhancement of hCG-stimulated cAMP accumulation when compared with untreated controls. These results suggest that beta-endorphin suppresses adenylate cyclase activity via Gi, which may be coupled to the LH receptor.

Ovarian atrial natriuretic peptide during the rat estrous cycle

The changes in ovarian levels of immunoreactive atrial natriuretic peptide (irANP) and arginine vasopressin (irAVP) were observed during the estrous cycle of rat. We also demonstrated the synthesis of ovarian ANP. In adult 4-day cycling rats, ovarian level of irANP was found to be the highest on proestrus and was to be the lowest on diestrus. Ovarian irANP level inversely correlated with ovarian level of irAVP. On reverse-phase HPLC, two distinct peaks of ovarian irANP, high and low molecular weight forms, existed in the each stage of the estrous cycle. However, no significant changes in plasma and atrial concentrations of ANP were observed during the cycle. The rat ovary contained mRNA coding for ANP. These data showing the synchronized cyclic change of ovarian irANP and irAVP with the estrous cycle suggest that the ovary locally synthesizes ANP and ovarian ANP may play regulatory roles on the follicular fluid dynamics.

Ovarian opioids and the reproductive cycle of the frog Rana esculenta

In mammals, proopiomelanocortin-related peptides are involved in reproductive processes both at the hypothalamo-pituitary and ovarian levels. Using immunocytochemical, biochemical and physiological "in vitro" studies, we provide here evidence for a diffuse POMC-related opioid system in the frog Rana esculenta. Ovarian beta-endorphin (beta-EP) is expressed in thecal cells and changes during the reproductive cycle in an inverse relationship with follicular development. Seasonal changes in the ovary are different to those in the brain or in the pituitary. The ratio of acetylated vs native beta-EP in the ovary also changes over the reproductive period, affecting the biological activity of the peptide. During both the reproductive spring period and the summer post-reproductive phase pMol amounts of beta-EP stimulate follicular androgen secretion in vitro, in a naloxone-reversible way. In either period, an inhibition of estradiol, possibly mediated via other factors, is the result of opioid action. In conclusion, these data demonstrate for the first time the widespread presence of beta-EP-related peptides in the frog Rana esculenta. Both immunocytochemical and biochemical evidence, as well as in vitro responses, support a physiological role for beta-EP in ovarian seasonality during the reproductive cycle of this amphibian.

The localization of cholecystokinin immunoreactivity in the rat ovary and uterine tube

The presence of cholecystokinin (CCK) immunoreactive nerve fibres in the rat ovary and uterine tubes was detected using the peroxidase antiperoxidase (PAP) technique. The antibody used was anti CCK 4562 which reacts with CCK-4, CCK-8, CCK-12 and CCK-33 (Larsson and Rehfeld, 1977). CCK-immunoreactive nerve fibres were found between the interstitial cells of the ovary, along blood vessels, and close to smooth muscle fibres in the ovary and tubal wall. A possible role of CCK-nerves in modulation of the sensitivity of the ovarian components to other humoral and nervous stimuli is discussed. The possible control of CCK over smooth muscle fibres in the ovary and the uterine tube and its role in ovulation is a matter of further studies.

The effect of beta-endorphin on rat oocyte maturation in vitro

Cumulus enclosed or denuded oocytes obtained from ovaries of 25- to 27-day Sprague-Dawley rats underwent spontaneous germinal vesicle breakdown (GVBD) when cultured for 6 h in Krebs-Ringer's buffered solution (KRBS). This spontaneous division was found to be inhibited by adding beta-endorphin to the culture system and the inhibition was dose dependent, ranging from 200 to 800 pg/ml KRBS. Naloxone, a potent opioid antagonist without any agonistic action, did not stimulate spontaneous GVBD when added to the KRBS at doses ranging from 80 to 120 pg/ml. However, by adding 80 pg/ml naloxone to the culture system containing 600 pg/ml beta-endorphin, the inhibitory effect of beta-endorphin on spontaneous GVBD could be reversed completely.

Evaluation of beta-endorphin and naloxone on bovine uterine motility

Effects of beta-endorphin and naloxone on bovine uterine motility were tested both in vivo and in vitro. Six cyclic Holstein cows were used to study in vivo effects of beta-endorphin and naloxone on uterine motility during estrus and diestrus. Intrauterine pressure changes were recorded by a microtip pressure transducer before and after treatment. Blood samples were taken every 10 min during the recording periods for beta-endorphin assay. The results revealed that beta-endorphin anc naloxone had no effect on intrauterine pressure in vivo. The effects of beta-endorphin and naloxone on myometrial contractility were also examined in vitro. Beta-endorphin and naloxone were added to tissue baths containing estrous and diestrous uterine strips. The results showed no significant effect of beta-endorphin and naloxone on bovine myometrial contractility. The role of beta-endorphin in bovine reproductive physiology is still not clearly understood, and additional studies are needed.

The presence of corticotropin-like and opiate-like activities in tissues of adult sea lamprey, Petromyzon marinus L

Sexually mature landlocked sea lamprey were captured during their upstream migration. Different tissues, including the brain, pituitary, heart, liver, gut, testis, and ovary, were dissected from the animals and an acetone powder was prepared from each tissue. The tissue acetone powders were subjected to heat treatment and were then extracted with an acidic medium in order to inactivate any proteases present. The resulting acid acetone powders were then tested for their ability to stimulate corticosterone production from isolated rat adrenal cells and to displace the binding of D-Ala2-D-Leu5-[tyrosyl-3,5-3H]-enkephalin to rat brain membranes. It was found that the brain and liver contained steroidogenic activity while opiate activity was detected in the heart, liver, gut, brain, and pituitary. No steroidogenic activity was found in the heart, ovary, testis, gut, and pituitary while ovary and testis did not contain assayable opiate activity. None of the tissues contained beta-endorphin-like immunoreactivity.

The ontogeny of immunoreactive beta-endorphin and beta-lipotropin in the rat ovary

We have investigated the ontogeny of, and the effect of hypophysectomy on, immunoreactive beta-endorphin in rat ovaries. Total levels rose with ovarian weight from nondetectable levels at 5 days of age to approximately 0.15 pmol/ovary at 80 days; thereafter, the levels remained constant through 201 days of age. Hypophysectomy decreased both ovarian weight and the total content of immunoreactive beta-endorphin, but the concentration per weight was not significantly altered. Most of the immunoreactive beta-endorphin before puberty chromatographed like authentic beta-endorphin, but after puberty most chromatographed like beta-lipotropin. Hypophysectomy did not alter this chromatographic pattern.

Immunocytochemical Localization and Biochemical Characterization of alpha-Melanocyte-Stimulating Hormon in the Brain of the Rainbow Trout, Salmo gairdneri

Abstract The distribution of alpha-melanocyte-stimulating hormone (alpha-MSH)-like immunoreactivity in the central nervous system of the rainbow trout Salmo gairdneri was investigated by indirect immunofluorescence and peroxidase-antiperoxidase techniques, using a highly specific antiserum generated in rabbits against synthetic alpha-MSH. Immunoreactive perikarya were exclusively observed in the basal hypothalamus within the pars anterioris of the nucleus lateralis tuberis. In this region, a moderate number of small stained cell bodies were observed surrounding the dorsal wall of the anterior infundibular recess. These immunoreactive cells were organized in rostro-caudal rows extending over the whole portion of the nucleus. Positive fibres originating from these perikarya were visualized in the dorsal posterior lobe and the ventral hypothalamus. A dense tract of immunoreactive fibres projected ventrally through the pituitary stalk and terminated in the neurohypophysis. The concentrations of alpha-MSH in different regions of the brain were measured by means of a sensitive and specific radioimmunoassay. The dilution curves obtained with synthetic alpha-MSH and serial dilutions of diencephalon, mesencephalon, medulla oblongata, telencephalon or pituitary extracts were strictly parallel. The highest concentration of alpha-MSH in brain was found in the diencephalon (1.31 +/- 0.07 ng/mg protein). In contrast alpha-MSH was not detectable in cerebellar extracts. Reverse-phase high-performance liquid chromatography and radioimmunoassay were used to characterize alpha-MSH-like peptides in the trout brain and pituitary. Two major forms of immunoreactive alpha-MSH were resolved by high performance liquid chromatography in hypothalamic extracts; these peptides exhibited the same retention times as des-Na-acetyl alpha-MSH and its sulfoxide derivative, respectively. Additional peaks of alpha-MSH immunoreactive material were detected in pituitary extract. These latter peptides coeluted with authentic alpha-MSH, diacetyl alpha-MSH and their sulfoxide forms. These results provide the first evidence for the presence of alpha-MSH in the brain of a teleostean fish. Our data indicate that, in the brain, the immunoreactivity corresponds to the non-acetylated form of alpha-MSH, while three different types of alpha-MSH-like molecules (namely deacetylated, monoacetylated, and diacetylated forms) coexist in the pituitary. It thus appears that, in salmonoid fish, mono- or diacetylation of the N-terminal serine residue of aL-MSH only occurs at the pituitary level.

Activation of ionic currents in Xenopus oocytes by corticotropin-releasing peptides

Oocytes of the African frog Xenopus laevis are shown by electrophysiological methods to possess receptors for corticotropin-releasing factor (CRF), arginine-vasopressin (AVP) and cholecystokinin (CCK). Oocytes surrounded by their follicular cell envelope responded to CRF or AVP with an outward hyperpolarizing current. This current was mediated by an increased conductance of K+ ions. Pretreatment with the adenylate cyclase activator forskolin or with the cAMP phosphodiesterase inhibitor isobutylmethylxanthine (IBMX) potentiated the responses to these peptides indicating that the cAMP second messenger system may mediate the responses. Oocytes stripped of the follicular envelope, which cannot generate cAMP-dependent K+ currents, did not respond to either CRF or AVP. Oocytes exposed to CCK responded with an inward depolarizing current. This current was carried by an increased conductance to Cl-ions. Removal of the follicular cell layer did not affect the response to CCK. The shape, time course, and reversal potential of the Cl-current suggest that CCK acts through the phosphatidylinositol pathway.

Expression of proopiomelanocortin-related peptides in human follicular fluid

In order to evaluate the expression of the opioid precursor proopiomelanocortin (POMC) in the ovarian follicle, we measured 6 of its main end-products in 23 follicular fluids. We coupled high performance liquid chromatography (HPLC) to specific radioimmunoassays. Seven follicles were immature (diameter less than 9 mm), 10 were obtained from superovulated patients during an in vitro fertilization-embryo transfer program (greater than 22 mm) and six were persistent follicles, collected during the luteal phase [15-31 mm, luteinized unruptured follicles (LUF)]. Follicular fluids were extracted by mean of Sep-pak cartridges and then purified by HPLC with a reverse-phase C-18 column eluted in a linear gradient with acetonitrile/0.01 M hydrochloric acid (from 18:82 to 40:60). Fractions were tested with specific antisera for ACTH (1-39), alpha-MSH, beta-lipotropin (beta-LPH), beta-endorphin (beta-EP) and gamma-endorphin (gamma-EP) immunoreactivities. No presence of beta-LPH, beta-EP and ACTH was confirmed, while gamma-EP, alpha-MSH and des-alpha-MSH were detected for the first time in follicular fluid. In every class of follicles shorter chain peptides predominate over their longer chain precursor. Immature follicles are characterized by the highest amounts of gamma-EP, ACTH, alpha-MSH and des-alpha-MSH if compared to superovulated and LUF. On the contrary, beta-EP amount was highest after superovulation. Apart from this finding, peptide levels in superovulated patients and LUF are similar.(ABSTRACT TRUNCATED AT 250 WORDS)

Beta-endorphin levels in the preovulatory follicles and the outcome of in vitro fertilization

The level of immunoreactive beta-endorphin-like (IR-beta-EP) material(s) was determined in follicular fluid samples obtained from patients treated for in vitro fertilization (IVF). Follicles containing morphologically mature oocytes had slightly lower concentrations of IR-beta-EP. The total IR-beta-EP content was similar in follicles with oocytes at different degrees of maturity. A smaller amount of IR-beta-EP in the follicle fluid was associated with a greater developmental potential of the oocytes, which formed embryos that reached the three- to six-cell stage at 40-44 hr after insemination (r = -0.35, P less than 0.026). A higher IR-beta-EP content was seen in fluid samples containing oocytes that remained uncleaved after fertilization (P less than 0.05 by Duncan's multiple-range test).

Methionine-enkephalin immunoreactivity in the gonads and nervous system of two insect species: Locusta migratoria and Sarcophaga bullata

Methionine(met)-enkephalin immunoreactivity as visualized by the peroxidase-antiperoxidase procedure, is present in spermatogonia, spermatocytes, spermatids, and young ovarian follicles of Locusta (panoistic type) and Sarcophaga (polytrophic type). Follicle cells and mature spermatozoa are always immunonegative as are locust vitellogenic follicles. In oocytes and in trophocytes, the met-enkephalin-like material first appears around the nucleus and is then dispersed throughout the cytoplasm. Later, it is present only in the periphery. In the ovary of both insects, no immunoreactivity is found with antisera against adrenocorticotrophic hormone, melanophore stimulating hormone, beta-endorphin, corticotropin releasing factor, or leucine-enkephalin. All these antisera yield a positive reaction when applied to the central nervous system as does the met-enkephalin antiserum. This study indicates that the met-enkephalin-like peptide may play a role in reproductive physiology.

Effect of morphine on hCG release by first trimester human trophoblast in vitro

Opiate synthesis by human placental cells and the presence of kappa-type opiate binding sites in the syncytiotrophoblast brush border membrane may indicate the possible role of morphine-like substances in the autocrine regulation of trophoblast cell metabolism. This study was undertaken to examine the in vitro effect of morphine on hCG (human chorionic gonadotrophin) and hPL (human placental lactogen) release by 1st and 3rd trimester placental tissue explants. The results have shown that morphine (100 nM) significantly stimulated hCG secretion by 6-8 weeks old trophoblast and was without effect on hPL. Hormone secretion by term placental tissue explants was unaffected by morphine treatment. Based on these results we assume that opiates may have a role in the local (autocrine and/or paracrine) regulation of hCG secretion in early gestation.

Proopiomelanocortin-related peptides and methionine enkephalin in human follicular fluid: changes during the menstrual cycle

Several studies indicate the presence of different pituitary hormones or neuropeptides in ovarian follicular fluid from various species. Recently our group showed that the ovarian follicular fluid of health women contains two of the endogenous opioid peptides, beta-endorphin and methionine enkephalin, in concentrations that are tenfold to twentyfold higher than in circulating plasma. The presence of immunoreactive beta-lipotropin was also shown. The aim of the present study was to evaluate whether adrenocorticotropic hormone, which in pituitary cells is synthesized from proopiomelanocortin such as beta-endorphin and beta-lipotropin, is also present in follicular fluid and the possible changes of proopiomelanocortin-related peptides during the menstrual cycle. Concentrations of beta-endorphin, methionine enkephalin, adrenocorticotropic hormone, and beta-lipotropin were measured in 60 healthy menstruating women at different periods of the menstrual cycle (20 during the follicular, 22 in the preovulatory days, and 18 during the luteal phase). Thirteen women participated in an in vitro fertilization program and thus received clomiphene citrate (100 mg/day from the fifth to the ninth day) plus 5000 IU human chorionic gonadotropin before starting the program. All samples were collected at laparoscopy under general anesthesia. In another eight patients fluid was collected from follicular cysts. Peptides were extracted on octadodecasilyl silica columns with 80% methanol in 0.5 mol/L acetic acid. The identity of follicular fluid beta-endorphin, methionine enkephalin, adrenocorticotropic hormone, and beta-lipotropin and standard peptides was demonstrated with high-pressure liquid chromatography. Peptide concentrations were measured in extracts by radioimmunoassays either directly by (methionine enkephalin and adrenocorticotropic hormone) or after (beta-endorphin and beta-lipotropin) gel filtration on Sephadex G-75. The concentrations of methionine enkephalin, adrenocorticotropic hormone, and beta-lipotropin were similar in the different periods of the cycle. Conversely, beta-endorphin concentrations were significantly higher in preovulatory days than in the other periods; no differences were evident between spontaneous and stimulated cycles. These results indicate that proopiomelanocortin-related peptides are present in the follicular fluid and that beta-endorphin concentrations change during the menstrual cycle, with the highest values occurring in the preovulatory follicle.

Opioid peptides in blood and cerebrospinal fluid during acute stress

The opioid peptides beta-endorphin and [met]enkephalin are present in the peripheral circulation. Plasma beta-endorphin originates from the pituitary gland and its cosecretion with ACTH is stimulated by a variety of noxious stimuli. Although the adrenal medulla contains high concentrations of [met]enkephalin-containing polypeptides which are costored with catecholamines, and although the adrenal gland appears to secrete [met]enkephalin into the adrenal vein, the relative adrenal contribution to plasma [met]enkephalin appears to be negligible. Plasma concentrations of immunoreactive [met]enkephalin may be increased by insulin and by endotoxic shock, but they are not significantly altered by acute haemorrhagic stress nor by surgical stress. Thus blood plasma concentrations of beta-endorphin, but not of [met]enkephalin, are generally increased during acute stress. The physiological significance of endogenous opioids in the circulation is not known. It is unlikely that transient increases in the concentrations of opioid peptides in peripherally circulating blood modulate nociception, since the peptides do not enter ventricular cerebrospinal fluid in detectable amounts under these conditions. Recent evidence has raised the possibility that circulating opioids may be involved in regulating blood glucose and in activating the immune system. It is also possible that circulating beta-endorphin and related polypeptides have non-opioid actions on a variety of peripheral tissues.

Ovarian follicular fluid beta-endorphin levels in normal and polycystic ovaries

The possibility of local ovarian production of beta-endorphin prompted us to measure beta-endorphin levels in 19 follicular fluid samples obtained from normal ovaries and compare them with beta-endorphin plasma levels in 19 women with normal ovulation. beta-Endorphin was extracted through Sepharose-treated chromatography columns and assayed with a specific anti-beta-endorphin antibody. Follicular fluid beta-endorphin levels (21.3 +/- 10.8 pg/ml) were significantly higher (p less than 0.01) than the plasma levels (15.5 +/- 3.35 pg/ml). There was no significant correlation between plasma and follicular fluid beta-endorphin concentrations. Follicles greater than 1 cm in size contained more beta-endorphin than follicles less than 1 cm in size (22.7 +/- 3.5 versus 18.7 +/- 4.4 pg/ml, p less than 0.05). Five follicular fluid samples were obtained from polycystic ovaries. The mean beta-endorphin content (45.1 +/- 7.7 pg/ml) in these follicles was significantly higher than that of normal ovaries (p = 0.001). It is concluded that the ovaries produce beta-endorphin and that polycystic ovaries produce more beta-endorphin than normal ovaries.

Beta-endorphin and beta-lipotrophin in human ovary

The presence of beta-endorphin (beta-E) and beta-lipotrophin (beta-LPH) in human ovary was studied by liquid chromatography and radioimmunoassay, and by immunoperoxidase staining. The mean concentrations (+/- S.E., N=8) of beta-E and beta-LPH in follicular fluid samples collected during the late follicular phase of normal cycles were 1.9 +/- 0.4 pmol/l and 2.9 +/- 0.8 pmol/l, respectively. After hyperstimulation with clomiphene and gonadotropin for in vitro fertilization, the mean concentrations of beta-E and beta-LPH in follicular fluid did not increase significantly, being 3.2 +/- 0.6 and 4.1 +/- 1.0 pmol/l, respectively (N=13). beta-E or beta-LPH were not found in three corpora lutea analysed. Immunohistochemical staining of ovarian tissue did not reveal any beta-E immunoreactivity. Thus the origin of beta-E and beta-LPH in the follicular fluid remained unclear. In 7 women, blood samples were collected from the peripheral and ovarian veins at laparotomy. No significant concentration excess of beta-E or beta-LPH was found in the ovarian venous plasma, suggesting that human ovaries do not secrete significant amounts of beta-E or beta-LPH into the peripheral circulation. It seems that the role of endorphins in the human ovary is less significant than previously proposed for sheep, rat or mouse ovary.