Internalization of 125I-human choriogonadotropin in bovine luteal slices. A biochemical study

Various intracellular organelles as well as outer cell membranes of bovine corpora lutea intrinsically contain gonadotropin receptors (Rao et al., J biol chem 256 (1981) 2628 [5]). In order to investigate whether exogenously added human choriogonadotropin (hCG) can internalize and bind to the intracellular sites, bovine luteal slices that had been carefully checked with respect to structural and functional integrity were incubated with 0.1 nM 125I-hCG. Following incubation, specific radioactivity was found to be associated with various intracellular organelles, but not with cytosol. The order of radioactivity uptake by subcellular organelles following a 2-h incubation was: Golgi medium greater than Golgi heavy greater than Golgi light greater than plasma membranes = rough endoplasmic reticulum greater than mitochondria-lysosomes- greater than nuclei. The 5'-nucleotidase activity and electron microscopic examination of the fractions revealed that the presence of radioactivity in the intracellular organelles cannot be attributed solely to plasma membrane contamination. The internalization and intracellular binding of 125I-hCG was time and temperature-dependent. Only excess unlabeled hCG and hLH (but not hCG subunits, FSH and PRL) competed with 125I-hCG for internalization in luteal slices. Very little or no 125I-hCG added was internalized in liver or kidney slices; luteal, liver and kidney slices accumulated neither 125I-BSA nor 125I. The radioactivity eluted from various luteal subcellular organelles was able to rebind to fresh corresponding organelles and came off Sepharose 6B columns in a position corresponding to native 125I-hCG. The gel filtration profile of detergent-solubilized radioactivity revealed that 125I-hCG was macromolecular bound. The degraded and altered 125I-hCG was found in the incubation media.     

A quantitative electron microscope autoradiographic study on I-human choriogonadotropin internalization in bovine luteal slices

Very few silver grains were seen on the cell surface and none intracellularly after incubation for 2 h at 4 °C. However, numerous grains were seen in various subcellular organelles when the tissues were incubated for 2 h at 22 ° or 38 °C. The grain distribution was qualitatively similar, but quantitatively, there were fewer grains at 22 ° than at 38 °C. Co-incubation of ¹²⁵I-hCG with excess unlabelled hCG resulted in the virtual disappearance of silver grains from all the subcellular organelles. Excess unlabelled human luteinizing hormone (but not follicle-stimulating hormone or prolactin) inhibited the appearance of silver grains in luteal tissue. There were no silver grains in bovine liver slices incubated with ¹²⁵I-hCG.The plasma membrane-associated grains progressively decreased, while intracellular organelle-associated grains increased with time at 38 °C. There were no grains in nuclei at 5 min, but they appeared at 10 min and increased until 120 min. After correction for radiation spread by three-step mask analysis, smooth endoplasmic reticulum and mitochondria did not contain any grains. The grain density was the highest in Golgi, followed by lysosomes, rough endoplasmic reticulum, nuclei, and plasma membranes after incubation for 2 h at 38 °C. Thus, the electron microscope autoradiography approach confirmed our biochemical data in the preceding paper (Chegini et al., Exp cell res 151 (1984) 466 [5]) on time, temperature dependency and specificity of ¹²⁵I-hCG internalization, association of internalized hormone with a variety of intracellular organelles, and the highest uptake in Golgi.     

A quantitative electron microscope autoradiographic study on 125I-human choriogonadotropin internalization in bovine luteal slices

Very few silver grains were seen on the cell surface and none intracellularly after incubation for 2 h at 4 degrees C. However, numerous grains were seen in various subcellular organelles when the tissues were incubated for 2 h at 22 degrees or 38 degrees C. The grain distribution was qualitatively similar, but quantitatively, there were fewer grains at 22 degrees than at 38 degrees C. Co-incubation of 125I-hCG with excess unlabelled hCG resulted in the virtual disappearance of silver grains from all the subcellular organelles. Excess unlabelled human luteinizing hormone (but not follicle-stimulating hormone or prolactin) inhibited the appearance of silver grains in luteal tissue. There were no silver grains in bovine liver slices incubated with 125I-hCG. The plasma membrane-associated grains progressively decreased, while intracellular organelle-associated grains increased with time at 38 degrees C. There were no grains in nuclei at 5 min, but they appeared at 10 min and increased until 120 min. After correction for radiation spread by three-step mask analysis, smooth endoplasmic reticulum and mitochondria did not contain any grains. The grain density was the highest in Golgi, followed by lysosomes, rough endoplasmic reticulum, nuclei, and plasma membranes after incubation for 2 h at 38 degrees C. Thus, the electron microscope autoradiography approach confirmed our biochemical data in the preceding paper (Chegini et al., Exp cell res 151 (1984) 466 [5]) on time, temperature dependency and specificity of 125I-hCG internalization, association of internalized hormone with a variety of intracellular organelles, and the highest uptake in Golgi.     

Precision-cut luteal slices: A promising approach for studying luteal function in pigs

The study was aimed to validate the precision-cut luteal slices to investigate porcine luteal function. Corpora lutea (CLs) were cut into 180-μm thick slices using Krumdick Tissue Slicer. The viability, tissue structure and steroidogenic acute regulatory protein (STAR) expression in the luteal slices did not differ between the beginning and the end of the 24-h incubation period. The luteal progesterone secretion showed a time- and dose-dependent response to porcine luteinizing hormone. The effects of prostaglandin F_2α and 17β-estradiol on progesterone secretion by porcine luteal slices were comparable to the previously reported in vivo results of the CL microdialysis system in the pig.     

A biochemical hypothesis to explain the mechanism of luteal regression

It seems likely that luteal regression may involve a direct biochemical action of prostaglandin F₂α (PGF₂α) on the luteal cell since there are now several reports that PGF₂α can directly inhibit steroidogenesis . However, the mechanism of such an action of PGF₂α remains obscure.This article initially reviews the central role of adenosine 3,^I5^I-mono-phosphate (c-AMP) in initiating and maintaining the structural and functional changes occurring on luteinisation. A mechanism is suggested, supported by results obtained using granulosa cells in tissue culture, in which PGF₂α initiates functional luteolysis by inhibiting further synthesis of c-AMP. This mechanism is then used in conjunction with further observations to provide a possible explanation for the inability of PGF₂α to regress newly formed corpora lutea. Finally, the possible mechanisms of structural regression are discussed.     

Binding, internalization, and lysosomal association of 125I-human growth hormone in cultured human lymphocytes: a quantitative morphological and biochemical study

125I-human growth hormone (125I-hGH) binds specifically to receptors on cultures human lymphocytes (IM-9). When this process is studied by use of quantitative EM radioautography, under conditions of incubation at 15 degrees C for 5 min, the ligand is localized to the plasma membrane of the cell. At 30 degrees and 37 degrees C, however, 125I-hGH is progressively internalized by the cell as a function of time. The internalized ligand is found predominantly in the Golgi region of the cells, with a five-fold preferential localization to membrane-bounded structures with the morphological and cytochemical characteristics of lysosomes. Up to 59% of these lysosome-like structures are positive for the acid phosphatase reaction under the conditions of incubation at 37 degrees C for 120 min. When the cell associated radioactivity after 15- 120 min of incubation at 37 degrees C is extracted in 1 M acetic acid and filtered on a Sephadex G-100 column, 58-73% of the material elutes as intact hGH. When cells are incubated with 125I-hGH at 37 degrees C for 15-120 min, separated from the incubation medium, and washed and diluted 100-fold, the percent 125I-hGH dissociable decreases as a function of increasing time of incubation. When cells are incubated with 125I-hGH for 15 min at 37 degrees C and the radioactivity that dissociates from the cells during 15-90 min is studied, the labeled material appearing in the incubation medium is progressively degraded as a function of time of incubation. When the dissociation process is studied radioautographically, grains are found both in plasma membrane and intracelluar compartments after 30 min of association, but after 30 and 120 min of dissociation a higher proportion of grains are in the intracellular compartment. After 120 min of association, there is less dissociation from either compartment and a preferential increase of grains in the intracellular compartment. These data suggest that receptor-linked internalization of a polypeptide hormone provides a mechanism that couples degradation of the ligand with loss of the cell surface receptor.     

A biochemical hypothesis to explain the mechanism of luteal regression.

It seems likely that luteal regression may involve a direct biochemical action of prostaglandin F2alpha (PGF2alpha) on the luteal cell since there are now several reports that PGF2alpha can directly inhibit steroidogenesis in vitro. However, the mechanism of such an action of PGF2alpha remains obscure. This article initially reviews the central role of adenosine 3,I5I-mono-phosphate (c-AMP) in initiating and maintaining the structural and functional changes occurring on luteinisation. A mechanism is suggested, supported by results obtained using granulosa cells in tissue culture, in which PGF2alpha initiates functional luteolysis by inhibiting further synthesis of c-AMP. This mechanism is then used in conjunction with further in vitro observations to provide a possible explanation for the inability of PGF2alpha to regress newly formed corpora lutea. Finally, the possible mechanisms of structural regression are discussed.     

Internalization and degradation of receptor-bound human choriogonadotropin in Leydig tumor cells. Fate of the hormone subunits

The studies presented herein were aimed at characterizing the pathway involved in the internalization and degradation of human choriogonadotropin by cultured Leydig tumor cells. A quick biochemical method that differentiates between the surface-bound and internalized hormone was developed. Using this method and two hormone derivatives labeled exclusively (with 125I) in the alpha or beta subunits, it was possible to follow the fate of each hormone subunit during hormone binding, internalization, and degradation. The results show that the hormone is internalized in the intact form and that it reaches its place of degradation (presumably the lysosomes) in the intact form. The pathway for degradation of the internalized hormone is complex, and it appears to involve processing of one or both subunits of the intact hormone, followed by subunit dissociation and further degradation of the individual subunits. The alpha subunit is quickly degraded by the cells. The only detectable degradation products are extracellular amino acids. The beta subunit is degraded slower, and several intracellular degradation products are detectable before amino acids appear in the medium.     

Gossypolone suppresses progesterone synthesis in bovine luteal cells

Gossypolone, a proposed major metabolite of gossypol, was synthesized and investigated for its effect on progesterone synthesis in cultured bovine luteal cells. Gossypolone inhibited human chorionic gonadotropin(hCG)-stimulated progesterone secretion, reduced substrate-enhanced conversions of 25-hydroxycholesterol to pregnenolone and of pregnenolone to progesterone in a dose-dependent fashion. These findings indicate that gossypolone inhibits not only 3β-hydroxysteroid dehydrogenase (3β-HSD) activity, as gossypol does, but also side-chain cleavage enzyme complex (cytochrome P450scc activity. However, the two compounds appear to have a similar potency in inhibiting progesterone secretion. Both gossypolone and gossypol (8.5 μM) induced morphological changes in cellular organelles.     

Differences in the characteristics and distribution of rat luteal receptors for native and deglycosylated human choriogonadotropin.

Previous work has suggested that rat luteal cells have two populations of LH/hCG receptors that are located in different parts of the cell membrane. The possibility that these two receptor pools may have functional differences has been investigated through examination of the binding and action of native and deglycosylated hCG to different membrane fractions. Ovaries from eCG/hCG-primed immature female rats were separated into 1,000 x g (heavy) and 20,000 x g (light) particulate fractions. Increasing concentrations of NaCl had a biphasic effect on the binding of native and deglycosylated hCG to both membrane fractions, causing an increase in binding at low concentrations and a decrease in binding at higher concentrations. The binding of deglycosylated hCG to both membrane preparations and the binding of native hCG to light-membrane preparations was maximal at approximately the same NaCl concentration (50-65 mM). This was higher than the concentration of NaCl necessary for maximal binding of native hCG to the heavy-membrane preparation. In addition, maximal native hCG binding to this preparation occurred over a broader NaCl concentration range (15-65 mM). Equilibrium binding experiments showed differences in hCG binding to both fractions. In light membranes there were significantly more receptor sites for deglycosylated hCG (11.2 +/- 4.8 fmol/mg ovary) than for native hCG (4.8 +/- 0.7 fmol/mg ovary), with no significant different in affinity. In contrast, in heavy membranes the affinity for deglycosylated hCG (6.30 +/- 0.19.10(9) M-1), was significantly higher than that for native hCG (2.60 +/- 0.13.10(9) M-1), with no significant differences in receptor number.(ABSTRACT TRUNCATED AT 400 WORDS)     

Inhibition of 125I-human follicle-stimulating hormone binding to receptor by a low molecular weight fraction of bovine follicular fluid: inhibitor concentration is related to biochemical parameters of follicular development

Pools of follicular fluid (FF) were obtained from large or small follicles of cows which were pregnant or in the luteal phase of the estrous cycle. Cells present in each FF pool were collected by centrifugation and measured for content of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) receptors. Steroid levels in FF were quantitated by radioimmunoassay (RIA). Since the quantity of bovine follicular cells (mostly granulosa cells) was limited, FSH binding inhibition was studied utilizing a calf testis receptor system. Low (less than 6000) molecular weight (Mr) fractions prepared by dialysis were shown to account for most (76 to 94%) of the FSH binding inhibition (FSH-BI) present in unfractionated FF. The concentration of low Mr FSH-BI was higher in pools of FF from cows in the luteal phase of the estrous cycle than in pools of FF from pregnant cows. The concentration of low Mr FSH-BI was also higher in FF pooled from small follicles than in FF pooled from large follicles of either pregnant or luteal phase cows. Relative concentrations of receptors for gonadotropins (FSH, LH) on granulosa cells were used to rank the pools according to relative degree of follicular maturation. Other parameters of follicular maturation were concentration of estrogens and the ratio of estrogens to androgens in FF. Biochemical parameters for follicular atresia were the concentration of androgens and the ratio of estrogens to androgens in FF.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hypoxia promotes luteal cell death in bovine corpus luteum

Low oxygen caused by a decreasing blood supply is known to induce various responses of cells, including apoptosis. The present study was conducted to examine whether low-oxygen conditions (hypoxia) induce luteal cell apoptosis in cattle. Bovine midluteal cells incubated under hypoxia (3% O(2)) showed significantly more cell death than did those incubated under normoxia (20% O(2)) at 24 and 48 h of culture, and had significantly lower progesterone (P4) levels starting at 8 h. Characteristic features of apoptosis, such as shrunken nuclei and DNA fragmentation, were observed in cells cultured under hypoxia for 48 h. Hypoxia increased the mRNA expressions of BNIP3 and caspase 3 at 24 and 48 h of culture. Hypoxia had no significant effect on the expressions of BCL2 and BAX mRNA. Hypoxia also increased BNIP3 protein, and activated caspase-3. Treatment of P4 attenuated cell death, caspase-3 mRNA expression, and caspase-3 activity under hypoxia. Overall results of the present study indicate that hypoxia induces luteal cell apoptosis by enhancing the expression of proapoptotic protein, BNIP3, and by activating caspase-3, and that the induction of apoptosis by hypoxia is partially caused by a decrease in P4 production. Because hypoxia suppresses P4 synthesis in bovine luteal cells, we suggest that oxygen deficiency caused by a decreasing blood supply in bovine corpus luteum is one of the major factors contributing to both functional and structural luteolysis.     

Internalization and recycling of lutropin receptors upon stimulation by porcine lutropin and human choriogonadotropin in porcine Leydig cells

Porcine lutropin (pLH) and human choriogonadotropin (hCG) recognize the same hormonal receptor and elicit the same steroidogenic response in porcine Leydig cells in primary culture. We compared the variation in the number of occupied and free receptors present on the cell surface under short-term stimulation by the two hormones at 35 degrees C. Both hormones produced a rapid dose-dependent decrease in the total number of the gonadotropin receptors present on the cell surface with a half-life of 8-10 min. This decrease was reversible upon hormone removal and receptors were recovered on the cell surface with the same half-life of 8-10 min. With pLH, the receptors were recycled in a free state, but in the presence of hCG the receptors were recycled in an occupied state. This difference could be related to the higher affinity of hCG for the receptor in 150 mM NaCl buffer (Ka = 1.6 X 10(9) for hCG and 1.5 X 10(7) for pLH) and higher stability to acid pH of the hCG-receptor complex (dissociation pK = 3.7 for hCG and 4.5 for pLH).     

Biogenic amine regulation of bovine luteal progesterone production in vivo

Biogenic amines were administered using osmotic pumps placed subcutaneously in the neck region of regularly cycling, non-lactating dairy cows on Days 9-11 (oestrus = Day 0) of the oestrous cycle. Blood samples were collected using indwelling jugular catheters and the plasma progesterone concentrations were measured. Samples were collected at 4-h intervals for the first 12 h of treatment and thereafter at 12-h intervals for the remainder of the 72-h treatment period. After administration of various doses of noradrenaline, adrenaline and serotonin (0.5-2.0 micrograms/kg/h) significant elevation of plasma progesterone was achieved at a dosage of 2.0 micrograms/kg/h (P less than 0.01). The response to adrenaline was greater than that observed for noradrenaline and serotonin (P less than 0.05). Within-treatment comparison to pretreatment samples showed plasma progesterone concentrations to increase within 4 h after the administration of noradrenaline, adrenaline and serotonin (P less than 0.05) and this enhancement was maintained throughout the treatment period (P less than 0.05). The elevation in plasma progesterone concentrations induced by noradrenaline, adrenaline and serotonin was independent of changes in circulating concentrations of luteinizing hormone. These results support a physiological role for endogenous biogenic amines in the control of bovine luteal progesterone production.     

Control of steroidogenesis in small and large bovine luteal cells

Evidence was cited to show that: (1) prostacyclin (PGI2) plays a luteotrophic role in the bovine corpus luteum and that products of the lipoxygenase pathway of arachidonic acid metabolism, especially 5-hydroxyeicosatetraenoic acid play luteolytic roles; (2) oxytocin of luteal cell origin plays a role in development, and possibly in regression, of the bovine corpus luteum; and (3) luteal cells arise from two sources; the characteristic small luteal cells at all stages of the oestrous cycle and pregnancy are of theca cell origin; the large cells are of granulosa cell origin early in the cycle, but a population of theca-derived large cells appears later in the cycle. Results of in vitro studies with total dispersed cells and essentially pure preparations of large and small luteal cells indicate that: (1) the recently described Ca2+-polyphosphoinositol-protein kinase C second messenger system is involved in progesterone synthesis in the bovine corpus luteum; (2) activation of protein kinase C is stimulatory to progesterone synthesis in the small luteal cells; (3) activation of protein kinase C has no effect on progesterone synthesis in the large luteal cells; and (4) protein kinase C exerts its luteotrophic effect in total cell preparations, in part at least, by stimulating the production of prostacyclin. The protein kinase C system may cause down regulation of LH receptors in the large cells.     

Progesterone is a suppressor of apoptosis in bovine luteal cells

Progesterone is suggested to be a suppressor of apoptosis in bovine luteal cells. Fas antigen (Fas) is a cell surface receptor that triggers apoptosis in sensitive cells. Furthermore, apoptosis is known to be controlled by the bcl-2 gene/protein family and caspases. This study was undertaken to determine whether intraluteal progesterone (P4) is involved in Fas L-mediated luteal cell death in the bovine corpus luteum (CL) in vitro. Moreover, we studied whether an antagonist of P4 influences gene expression of the bcl-2 family and caspase-3 and the activity of caspase-3 in the bovine CL. Luteal cells obtained from the cows in the midluteal phase of the estrous cycle (Days 8-12 of the cycle) were exposed to a specific P4 antagonist (onapristone [OP], 10(-4) M) with or without 100 ng/ml Fas L. Although Fas L alone did not show a cytotoxic effect, treatment of the cells with OP alone or in combination with Fas L resulted in killing of 30% and 45% of the cells, respectively (P <0.05). DNA fragmentation was observed in the cells treated with Fas L in the presence of OP. The inhibition of P4 action by OP increased the expression of Fas mRNA (P <0.01); however, it did not affect bax or bcl-2 mRNA expression (P >0.05). Moreover, OP stimulated expression of caspase-3 mRNA (P <0.01). The overall results indirectly show that intraluteal P4 suppresses apoptosis in bovine luteal cells through the inhibition of Fas and caspase-3 mRNA expression and inhibition of caspase-3 activation.     

Effect of histone H2A on progesterone production by bovine luteal cells

Histone H2A competitively inhibits binding of GnRH to high affinity rat ovarian receptor sites and blocks gonadotropin-stimulated steroid and cAMP accumulation during culture of rat granulosal or luteal cells. The objective of our study was to examine the progesterone suppressive effects of histone H2A on bovine luteal cells. In the first study, luteal cells were treated at Time = 0 h with a partially purified preparation of bovine ovarian histone H2A (3 ng GnRH equivalents, 800 micrograms protein), equivalent amounts of GnRH (3 ng), or BSA (800 micrograms) and incubated for a total of 4 h. At Time = 2 h, cells were treated with 5 ng bovine LH (bLH) or with medium. Histone H2A completely blocked both basal and LH-induced accumulation of progesterone compared with untreated cultures or cultures treated with bLH. Neither BSA nor GnRH suppressed LH-induced progesterone accumulation. In the second study, histone H2A was added to cultures at Time = 0 h and bovine luteal cells were cultured for 8 h. After 2 h of treatment, histone H2A (3 ng GnRH equivalents) was removed from selected cultures and replaced with fresh medium. Four hours later cultures were treated with 5 ng bLH or medium. LH treatment of cultures from which histone H2A had been removed resulted in an increase in accumulation of progesterone compared with control cultures treated throughout the treatment period with histone H2A. The third study examined the effect of 9-181 pg GnRH equivalents (1.7-34 micrograms protein) of a highly purified preparation of bovine ovarian histone H2A on basal and LH-induced progesterone production during 2 or 3 h of culture.(ABSTRACT TRUNCATED AT 400 WORDS)