Gonadotropin and prostaglandins binding sites in nuclei of bovine corpora lutea.

Highly purified nuclei isolated from bovine corpora lutea showed marked enrichment of NAD pyrophosphorylase, a marker for this organelle. Rough endoplasmic reticulum and lysosomal markers were undetectable, whereas plasma membrane and Golgi markers were detectable but not enriched in nuclei. These highly puridied nuclei exhibited specific binding with 125I-labeled human choriogonadotropin, [3H]prostaglandin E1 and [3H]prostaglandin F2 alpha. However, these bindings were only 15.4% (human choriogonadotropin), 7.9% (prostaglandin E1) and 8.9% (prostaglandin F2 alpha) of the plasma membrane binding observed under the same conditions. Washing of nuclei and plasma membranes twice with buffer containing 0.1% Triton X-100 resulted in gonadotropin and prostaglandin F2 alpha binding site and 5'-nucleotidase (EC 3.1.3.5) losses from nuclei that were different from those observed for plasma membranes. More importantly, the washed nuclei exhibited 44% (human choriogonadotropin), 21--26% (prostaglandins) of original specific binding despite virtual disappearance of 5'-nucleotidase activity. The nuclear membranes isolated from nuclei, specifically bound 125I-labeled human choriogonadotropin and [3H]prostaglandin F2 alpha to the same extent or significantly more ([3H]prostaglandin E1, P less than 0.05) than nuclei themselves, despite the marked losses of chromatin. In summary, our data suggest that gonadotropin and prostaglandins bind to nuclei and that this binding was intrinsic and was primarily associated with the nuclear membrane.     

Interactions between prostaglandin analogues and a receptor in bovine Corpora lutea. Correlation of dissociation constants with luteolytic potencies in hamsters.

The dissociation constants for the interactions between some prostaglandin analogues and a prostaglandin F2 receptor in bovine corpora lutea were determined. These values were compared to the antifertility potencies of these compounds in hamsters and the rates of metabolism by 15-hydro-syprostaglandin dehydrogenase. The most active analogues with regard to both affinity for the receptor and luteolytic potency were 17-phenyl-18, 19, 20-trinorprostaglandin F2alpha and 15-methylprostaglandin F2alpha. The alkyl side chain of prostaglandins could be modified considerably without altering the affinity for the receptor. In this way metabolism by 15-hydroxyprostaglandin dehydrogenase could be blocked. Some of these compounds -ad greatly increased luteolytic effects. Substitution of a phenyl group for the 3 terminal carbon units of the alkyl side chain of prostaglandins increased both the affinity for the receptor and the luteolytic activity in vivo. 7-oxa-13-prostynoic acid, an antagonist of the luteolytic effect of prostaglandin F2alpha in vivo was a weak competitive inhibitor of the interation between prostaglandin F2alpha and the receptor.     

Impairment of gonadotropin binding occurs during membrane rigidification in plasma membrane samples prepared from regressed rat corpora lutea

The effect upon human chorionic gonadotropin (hCG) binding of a 90-min incubation of plasma membranes prepared from the corpora lutea of control and prostaglandin F2 alpha injected rats was studied. After incubation for 90 min with 1 mM CaCl2 at 40 degrees C, single point hCG binding assays at room temperature revealed a significant decrease in the degree of binding of approximately 50% in membrane samples prepared from regressed corpora lutea. The binding decrease in regressed samples did not occur if the incubation temperature was reduced to 35 degrees C or if calcium ion was replaced with magnesium. Scatchard analyses indicated that the decrease in binding capacity was the result of a loss of gonadotropin receptors rather than an affinity shift. Specific activities of two membrane-bound enzymes (Na+-K+ ATPase, 5'-nucleotidase) did not change in a correlative fashion during the incubation. In previous studies the same in vitro conditions caused a substantial and significant decrease in membrane fluidity, as determined by fluorescence polarization. Thus it appears that the membrane rigidification is of a specific nature and interferes with gonadotropin binding during luteolysis.     

Inhibition of (3H) prostaglandin F2alpha binding to its receptors by progesterone.

The specific binding of [3H] prostaglandin (PG) F2alpha to bovine corpus luteum cell membranes was inhibited by progesterone. Progesterone inhibition of binding was dependent on membrane protein and independent of [3H] PGF2alpha concentrations in the medium. The lower inhibition of binding at high protein concentrations can be overcome by increasing the amounts of progesterone added. Progesterone inhibition of binding appears to be due to a decrease in the receptor number rather than a decrease in the receptor affinities. The kinetic properties (association and dissociation rates) of the remaining receptors were unchanged. The inhibition of [3H] PGF2alpha binding was observed by preincubating the membranes with progesterone or by adding at the beginning but not during incubation. The concentrations of progesterone that inhibited binding by about 50% do occur in bovine corpora lutea of estrous cycle and pregnancy.     

Occurrence and properties of a prostaglandin F2alpha receptor in bovine corpora lutea.

Prostaglandin F2alpha was specifically bound by a particulate fraction from bovine corpora lutea. The rate constants for the association (7.5 X 10(3) M-1 S-1) and dissociation (2.1 X 10-4 S-1) reactions gave a dissociation constant of 2.8 X 10(-8) M which is similar to that determined from a Scatchard plot of binding data at equilibrium (5 X 10(-8) M). The receptor was stable for several hours at 23 degrees C but was rapidly destroyed at 37 degrees C. The pH optimum for the binding reaction was 6.3. The receptor had high specificity for prostaglandin F2alpha and had much lower affinities for other prostaglandins. Luteinizing and follicle-stimulating hormones had no effect on the prostaglandin F2alpha-receptor interaction.     

Prostaglandin E1 and F2alpha specific binding in bovine corpora lutea: comparison with luteolytic effects.

Preliminary characterization indicated the presence of separate prostaglandin (PG)E1 and (PG)F2alpha binding sites in membrane fractions prepared from bovine corpora lutea. These differ in the rate and temperature dependence of the specific binding. Equilibrium binding data indicate the apparent dissociation constants as 1.32 x 10(-9)M and 1.1 x 10(-8)M for PGE1 and PGF2alpha, respectively. Competition of several natural prostaglandins for the PGE1 and PGF2alpha bovine luteal specific binding sites indicates specificity for the 9-keto or 9alpha-hydroxyl moiety, respectively. Differences in relative ability to inhibit 3H-PG binding were found due to sensitivity to the absence or presence of the 5, 6-cis-double bond as well. Bovine luteal function was affected following treatment of heifers with 25 mg PGF2alpha as measured by reduced estrous cycle length, decreased corpus luteum size and significantly decreased plasma progesterone levels. In contract, treatment with 25 mg PGE1 resulted in cycle lengths comparable to those of non-treated herdmates with no apparent modification in corpus luteum size. However, plasma progesterone levels were increased significantly following PGE1 treatment compared to pretreatment values. In so far as data obtained in vitro on PGF2alpha relative binding affinity to the bovine CL can be compared to data obtained independently in vitro on PGF2alpha induced luteolysis in the bovine, PGF2alpha relative binding to the CL and luteolysis appeared to be associated. By similar reasoning, there was no apparent relationship between PGE1 relative binding affinity in the luteal fractions and luteolysis in estrous cyclic cattle.     

Actions of prostaglandin F2alpha and prolactin on intercellular adhesion molecule-1 expression and monocyte/macrophage accumulation in the rat corpus luteum

Expression of intercellular adhesion molecule-1 (ICAM-1) and the accumulation of monocytes/macrophages are inflammatory events that occur during PRL (PRL)-induced regression of the rat corpus luteum. Here we have compared the ability of prostaglandin F2alpha (PGF) and PRL to induce, in rat corpora lutea, inflammatory events thought to perpetuate luteal regression. Immature rats were ovulated with eCG-hCG and then hypophysectomized (Day 0), which resulted in a single cohort of persistent, functional corpora lutea. On Days 9-11, the rats received twice daily injections of saline, PGF (Lutalyse, 250 microg/injection), or PRL (312 microg/injection) to induce luteal regression. Surprisingly, luteal weight and plasma progestin concentrations (progesterone and 20alpha-dihydroprogesterone) did not differ between PGF-treated rats and controls; whereas both luteal weight and plasma progestins declined significantly in PRL-treated rats. Furthermore, corpora lutea of PGF-treated rats and controls contained relatively minimal ICAM-1 staining and few monocytes/macrophages. In contrast, but as expected, corpora lutea of PRL-treated rats stained intensely for ICAM-1 and contained numerous monocytes/macrophages. In an additional experiment, there was no indication that luteal prostaglandin F2alpha receptor mRNA diminished as a result of hypophysectomy. These findings suggest that prolactin, not PGF, induces the inflammatory events that accompany regression of the rat corpus luteum.     

Prostaglandin F2 alpha inhibition of epinephrine stimulated cyclic AMP and progesterone production by rat corpora lutea of various ages

Epinephrine can mimic the stimulatory effects of LH in vitro on cyclic AMP (cAMP) and progesterone production by isolated rat corpora lutea. The aim of the present study was to test whether the effects of epinephrine in vitro on the rat corpus luteum, as with LH, can be inhibited by prostaglandin F2 alpha (PGF2 alpha). The stimulatory effect of epinephrine on tissue levels of cAMP in 1-day-old corpora lutea was not inhibited by PGF2 alpha. A dose-dependent inhibition by PGF2 alpha (0.5-50 microM) was seen for 3-day-old corpora lutea and this inhibition could not be overcome by higher concentrations of epinephrine (0.165-165 microM). The stimulation by epinephrine on progesterone production was inhibited by PGF2 alpha (5 microM) in 3- and 5-day-old, but not in 1-day-old corpora lutea. Thus, PGF2 alpha can inhibit the stimulatory effect of epinephrine in 3- and 5-day-old corpora lutea, but not in the newly formed corpora lutea (1-day-old) and PGF2 alpha shows in this respect the same age dependent inhibitory pattern as in relation to LH stimulation.     

Isolation of plasma membranes from bovine corpus luteum possessing adenylate cyclase, 125I-hCG binding and NaK-ATPase activities

Plasma membranes from bovine corpora lutea have been purified by sucrose density gradient centrifugation. The purified membranes, in addition to binding ¹²⁵I-hCG, also possess hCG-stimulated adenylate cyclase and NaK-ATPase. The relative purification of ¹²⁵I-hCG binding, adenylate cyclase and NaK-ATPase on the basis of the specific activities in the whole homogenate were 7.8, 6.4 and 2.6, respectively. The presence of both the hormone sensitive adenylate cyclase and ¹²⁵I-hCG binding activities suggest that these plasma membranes might possess the ‘receptor’ for gonadotropin.     

Subcellular distribution of prostaglandin and gonadotrop in receptors in bovine corpora lutea.

The subcellular distribution of prostaglandin (PG) E₁, F₂α and gonadotropin receptors in bovine corpora lutea was critically examined by preparing various subcellular fractions, assaying for various marker enzymes to assess the purity and examining ³H-PGE₁, ³H-PGF₂α and ¹²⁵I-human lutropin (hLH) specific binding. The marker enzyme data suggested that subcellular fractions were relatively pure with little or no cross contamination. The binding of ³H-PGs and ¹²⁵I-hLH was markedly enriched in plasma membranes with respect to homogenate. The other subcellular fractions also exhibited binding despite very little or no detectable 5′-nucleotidase activity. If 5′-nucleotidase was assumed to lack sensitivity and reliability to detect minor contamination with plasma membranes and ³H-PGs or ¹²⁵I-hLH binding were used as sensitive plasma membrane markers, it was still difficult to explain binding in other fractions based on plasma membrane contamination. Therefore, these results lead to the inevitable conclusion that plasma membranes were primary (or one of the primary) but not exclusive sites for PGE₁, PGF₂α and gonadotropin receptors.     

Effects of prostaglandins on the bovine corpus luteum: granules, lipid inclusions and progesterone secretion

Corpora lutea collected at 15, 30 and 60 min after prostaglandin F2 alpha (PGF2 alpha) treatment were compared to control corpora lutea at 60 min after saline treatment. There were decreases (P less than 0.05) in the relative percentages of cytoplasm occupied by granules in large luteal cells (LLC) by 30 min and in small luteal cells (SLC) by 60 min. Differences were not observed among the groups for lipid inclusions. Luteal progesterone was decreased at all post-PGF2 alpha treatment times when compared to 60-min controls (P less than 0.05). PGF2 alpha was then compared with prostaglandin F1 alpha (PGF1 alpha), prostaglandin E1 (PGE1), and 17-phenyl-18,19,20-trinor-prostaglandin F2 alpha (17-phenyl-PGF2 alpha) in 60-min trials with plasma progesterone and luteinizing hormone (LH) determined every 5 min. LH was not affected by these treatments. Like PGF2 alpha, 17-phenyl-PGF2 alpha induced a greater loss of granules from LLC then SLC. 17-phenyl-PGF2 alpha also induced an increase in the lipid content of LLC. Treatments with PGF2 alpha and 17-phenyl-PGF2 alpha were associated with decreased concentrations of luteal progesterone but PGF1 alpha and PGE1 were without effect on this variable. In contrast to PGF1 alpha, PGE1 increased both luteal progesterone and the area occupied by cytoplasmic granules. The latter effect was greater in LLC than SLC.(ABSTRACT TRUNCATED AT 250 WORDS)     

Gonadotropin-releasing hormone 1 directly affects corpora lutea lifespan in Mediterranean buffalo (Bubalus bubalis) during diestrus: presence and in vitro effects on enzymatic and hormonal activities

The expression of gonadotropin-releasing hormone (GNRH) receptor (GNRHR) and the direct role of GNRH1 on corpora lutea function were studied in Mediterranean buffalo during diestrus. Immunohistochemistry evidenced at early, mid, and late luteal stages the presence of GNRHR only in large luteal cells and GNRH1 in both small and large luteal cells. Real-time PCR revealed GNRHR and GNRH1 mRNA at the three luteal stages, with lowest values in late corpora lutea. In vitro corpora lutea progesterone production was greater in mid stages and lesser in late luteal phases, whereas prostaglandin F2 alpha (PGF2alpha) increased from early to late stages, and PGE2 was greater in the earlier-luteal phase. Cyclooxygenase 1 (prostaglandin-endoperoxide synthase 1; PTGS1) activity did not change during diestrus, whereas PTGS2 increased from early to late stages, and PGE2-9-ketoreductase (PGE2-9-K) was greater in late corpora lutea. PTGS1 activity was greater than PTGS2 in early corpora lutea and lesser in late luteal phase. In corpora lutea cultured in vitro, the GNRH1 analog (buserelin) reduced progesterone secretion and increased PGF2alpha secretion as well as PTGS2 and PGE2-9-K activities at mid and late stages. PGE2 release and PTGS1 activity were increased by buserelin only in late corpora lutea. These results suggest that GNRH is expressed in all luteal cells of buffalo, whereas GNRHR is only expressed in large luteal phase. Additionally, GNRH directly down-regulates corpora lutea progesterone release, with the concomitant increases of PGF2alpha production and PTGS2 and PGE2-9-K enzymatic activities.     

Purification and properties of human chorionic gonadotropin/lutropin receptor from plasma-membrane and soluble fractions of bovine corpora lutea.

Plasma-membrane and soluble fractions containing human chorionic gonadotropin/lutropin receptor were prepared from bovine corpora lutea by ultracentrifugation. The plasma-membrane and soluble fractions were studied for physicochemical properties, salts and gangliosides. The receptor preparations obtained from the plasma-membrane purified individually by sucrose-density-gradient centrifugation, which resulted in a partial dissociation of the hormone-binding subunit from the intact functional receptor unit, which consists of both hormone-binding (regulatory) and adenylate cyclase-associated (catalytic) subunits. The fractions containing the functional receptor unit were further purified by gel filtration on Sepharose-6B and chromatography on concanavalin A-Sepharose. The 'receptor' was finally purified by affinity chromatography on a column of controlled-pore glass covalently coupled to hu man chorionic gonadotropin. The purified receptor from the plasma-membrane and the soluble fractions contained binding capacities of 901000 and 87000 fmol of human chorionic gonadotropin/mg of protein. Yields of 0.02 and 0.22mg of protein were obtained from 250 g of bovine corpora lutea, which represents a 10000- and 1000-fold increase respectively in the specific binding with 125I-labelled human chorionic gonadotropin. Immunization of rabbits with a partially purified receptor fraction generated antibodies that specifically inhibited the binding of the 125I-labelled human chorionic gonadotropin to the receptor.     

Evidence for coupling of different receptors for gonadotropin-releasing hormone to phospholipases C and A2 in cultured rat luteal cells

Effects of [D-Ala6,Des-Gly10]gonadotropin-releasing hormone (GnRH), ethylamide (GnRHa), and prostaglandin F2 alpha (PGF2 alpha) on inositol phosphate (IPs) formation and arachidonic acid (AA) release were studied in rat luteal cells of primary culture. In the cells obtained from one-day-old corpora lutea, PGF2 alpha (100 nM) and GnRHa (100 nM) significantly increased the IPs formation and the AA release. Antagonists of GnRH added solely or with GnRHa did not stimulate the IPs formation but did stimulate the AA release. In the cells obtained from 5-day-old corpora lutea, GnRHa failed to stimulate the IPs formation but significantly stimulated the AA release. The stimulation of both IPs formation and AA release by PGF2 alpha was consistently found in cells of two different luteal ages. These results suggest that GnRH receptor independently couples to both phospholipases C and A2 through different classes of GnRH receptors.     

Subcellular localization of prostaglandin E2 binding sites in bovine adrenal medulla

Prostaglandins E₁ and E₂ are specifically bound by particulate fractions from bovine adrenal medulla. The subcellular localization of these binding sites has been investigated by comparing their distribution in subcellular fractions obtained by differential and gradient centrifugation to those of marker enzymes for various organelles. Prostaglandin E₂ binding sites were purified about 16-fold with respect to the homogenate in a fraction which was highly enriched in plasma membranes on the basis of the activities of the marker enzymes acetylcholinesterase and calcium-dependent ATPase, which were both purified by about 12-fold in this fraction. The plasma membrane fraction contained relatively low activities of marker enzymes for mitochondria (monoamine oxidase), lysosomes (acid phosphatase), endoplasmic reticulum (glucose-6-phosphatase), Golgi (galactosyl transferase) and chromaffin granule membranes (dopamine β-hydroxylase). The only other fractions enriched in prostaglandin E₂ binding sites were those for the endoplasmic reticulum and the Golgi, in which the binding sites were purified about 4-fold and 7-fold, respectively. This is probably due mainly to contamination with plasma membranes, since calcium-dependent ATPase and acetylcholinesterase were each purified to a similar extent in these two fractions. These data suggest that the high-affinity prostaglandin E₂ binding sites of the adrenal medulla are localized primarily on the plasma membranes of the medullary cells.     

Influence of luteinizing hormone and prostaglandin F(2alpha) on progesterone secretion in superfused minced bovine luteal tissue in the early stage of the estrous cycle

Minced luteal tissue of bovine corpora lutea from Day 4, 5, and 6 of the estrous cycle (n = 4 corpora lutea each) was superfused for 9 h, and the progesterone secretion under the influence of 100 ng luteinizing hormone (LH)/ml and/or 1,000 ng prostaglandin F(2alpha) (PGF(2alpha))/ml was determined. In vivo, this period of the estrous cycle is characterized by a transition from PGF(2alpha) refractoriness to PGF(2alpha) sensitivity. The investigations were carried out in order to examine whether this transition is reflected by a change in the hormone secretion pattern in vitro. The basal secretion was higher on Day 6 than on Day 4 and 5 (P < 0.01). PGF(2alpha) slightly increased the progesterone secretion, but there was no statistically significant difference (P > 0.05). LH, however, stimulated the progesterone secretion by about 30% in luteal tissue collected from Day 4 and 5 (P < 0.01). In luteal tissue collected from Day 6, the LH-induced increase in hormone secretion was not statistically significant due to two corpora lutea that showed no response at all to LH. The progesterone secretion of the two other corpora lutea, however, was increased by 30% (P < 0.01). When PGF(2alpha) and LH were simultaneously added, the LH-induced progesterone secretion was not inhibited; PGF(2alpha) even seemed to intensify the action of LH. The difference between the hormone secretion under the influence of LH alone and that under the influence of a combination of LH and PGF(2alpha), however, was not statistically significant. It is concluded that in cattle the end of the refractoriness to PGF(2alpha) in vivo is not reflected by a corresponding change of the hormone secretion pattern in vitro.     

Luteal regression in the primate: different forms of cell death during naturaland gonadotropin-releasing hormone antagonist or prostaglandin analogue-induced luteolysis

Morphological changes in the corpus luteum following natural and induced luteolysis in the marmoset were investigated by light and electron microscopy. Functional corpora lutea were studied in the mid and late luteal phase, naturally regressed corpora lutea in the early and late follicular phase, and corpora lutea induced to regress by administration of GnRH antagonist or prostaglandin F(2alpha) analogue in the midluteal phase. Natural luteolysis was associated with lutein cell atrophy, condensation of cytoplasmic inclusions and organelles, and accumulation of lipid. GnRH antagonist treatment resulted in aggregations of smooth membranes and myelin-like bodies in the cytoplasm of the lutein cells together with complex aggregations of degenerative cells. After prostaglandin treatment, the lutein cells contained numerous small and large vesicles; as the degenerative changes advanced, these vesicles coalesced into alveolar-type vacuoles, and nuclei involuted. These results show that in the marmoset, natural luteolysis and the two luteolytic treatments reveal different forms of luteal degeneration and cell death, none of which fit the ultrastructural criteria for apoptosis. More emphasis needs to be placed on understanding these predominant nonapoptotic forms of cell death in order to elucidate the process of luteolysis in the primate.     

Uridine phosphorylase activity of isolated plasma membranes of rat liver.

Plasma membranes were isolated from rat liver homogenates either by differential centrifugation or by fractionation in discontinuous sucrose density gradients. Both membrane preparations contained about 17% of the total uridine phosphorylase (EC 2.4.2.3) activity and 44% of the total 5'-nucleotidase (EC 3.1.3.5). The enrichment factor for uridine phosphorylase in the fractions prepared by differential centrifugation was about 2.8 and by the gradient method, as much as 11.0; the respective enrichment factors for 5'-nucleotidase were 1.8 and 9.5. Uridine phosphorylase activity of isolated plasma membrane fractions was stimulated 2.5-fold by 0.1% Triton X-100. Unlike the cytosol enzyme, uridine phosphorylase of plasma membranes showed little or no deoxyuridine-cleaving activity. Contamination of the membrane fractions by thymidine phosphorylase (EC 2.4.2.4) of the cytosol was negligible. The other subcellular organelles obtained by either procedure and characterized by marker enzyme activities were found not to contain significant uridine phosphorylase activity; the cytosol fractions contained just over 70% of the total uridine phosphorylase activity with an enrichment of only about 2.8-fold. The activity of the cytosol enzyme was not stimulated by Triton X-100.     

Destruction of bovine ovarian follicles: effects on the pulsatile release of luteinizing hormone and prostaglandin F2 alpha-induced luteal regression

Destruction of ovarian follicles during diestrus prolongs the lifespan of corpora lutea in cows, but the site(s) of action is unclear. Thus, ovarian follicles were destroyed in 10 beifers (X-IRRAD) on Day 9 postestrus, while 10 additional beifers (SHAM) served as a control group. To investigate changes in luteotropic support resulting from destruction of ovarian follicles, pulses of luteinizing hormone (LH) were characterized on Days 8, 13, and 15 postestrus. To study the interaction between products from ovarian follicles and prostaglandin F2 alpha (PGF2 alpha) in luteolysis, changes in serum concentrations of progesterone were monitored after an injection of saline or PGF2 alpha on Day 14 postestrus. Frequency and amplitude of pulses of LH increased by Day 13 in X-IRRAD beifers. An increase of similar magnitude in amplitude but not frequency of pulses of LH occurred between Day 13 and Day 15 postestrus in SHAM beifers. Exogenous PGF2 alpha was significantly less efficacious in causing luteolysis in X-IRRAD animals. We suggest that increased luteotropic support may be involved in but is not the only cause for lengthening the lifespan of corpora lutea following destruction of ovarian follicles. Additionally, we suggest that regression of bovine corpora lutea involves a synergistic action between products from ovarian follicles and PGF2 alpha.