Differential fractal dimension is associated with extracellular matrix remodeling in developing bovine corpus luteum.

To assist in evaluating and quantifying tissue changes, fractal dimension (FD) is a useful method for assessing the organization in an image from fractals that describes the amount of space and the self-similarity of the structure, once FD detects subtle morphological changes and performs functional quantitative measures. Here, we hypothesized that fractal analysis may be different in functional and regressing bovine corpus luteum (CL) and may be correlated with differential expression of genes involved in extracellular matrix remodeling. CL presents two developmental stages, the functional and regressing CL, according to progesterone levels and morphology. First, we found a lower FD in functional CL using HE staining and picrosirius red approach. Additionally, we found a great amount of total collagen in regressing CL. Regarding gene expression, we showed an up regulation of COL1A1, COL1A2, MMP2, and MMP14 and a down regulation of TIMP1 and TIMP2 in regressing CL compared to the functional one. Thus, we concluded that differential FD observed during luteal regression is an effective method to evaluate the tissue changes observed during luteal development in cattle and is related to differential quantity of genes involved in extracellular matrix remodeling.

Circadian rhythms of factors involved in luteal regression are modified in p55 tumour necrosis factor receptor (TNFRp55)-deficient mice.

The rhythm of factors involved in luteal regression is crucial in determining the physiological duration of the oestrous cycle. Given the role of tumour necrosis factor (TNF)-α in luteal function and circadian regulation and that most of the effects of TNF-α are mediated by p55 TNF receptor (TNFRp55), the aims of the present study were to analyse the following during the luteal regression phase in the ovary of mice: (1) whether the pattern of expression of progesterone (P4) and the enzymes involved in the synthesis and degradation of P4 is circadian and endogenous (the rhythm persists in constant conditions, (i.e., constant darkness) with a period of about 24 hours); (2) circadian oscillations in clock gene expression; (3) whether there are daily variations in the expression of key genes involved in apoptosis and antioxidant mechanisms; and (4) the consequences of TNFRp55 deficiency. P4 was found to oscillate circadianally following endogenous rhythms of clock factors. Of note, TNFRp55 deficiency modified the circadian oscillation in P4 concentrations and its enzymes involved in the synthesis and degradation of P4, probably as a consequence of changes in the circadian oscillations of brain and muscle ARNT-Like protein 1 (Bmal1) and Cryptochrome 1 (Cry1). Furthermore, TNFRp55 deficiency modified the circadian rhythms of apoptosis genes, as well as antioxidant enzymes and peroxidation levels in the ovary in dioestrus. The findings of the present study strengthen the hypothesis that dysregulation of TNF-α signalling may be a potential cause for altered circadian and menstrual cycling in some gynaecological diseases.

Prostaglandin F2α-induced luteolysis involves activation of Signal transducer and activator of transcription 3 and inhibition of AKT signaling in cattle.

Prostaglandin F2α (PGF) induces the precipitous loss of steroidogenic capabilities and cellular death in the corpus luteum of many species, yet the molecular mechanisms underlying this event are not completely understood. Signal transducer and activator of transcription 3 (STAT3) was activated in granulosa cells during follicle atresia, whereas AKT is immediately down-regulated in the corpus luteum after PGF treatment in cattle; however, their involvement in both functional and morphological luteolysis in monovular species still need to be determined. Blood samples and corpus lutea were collected from cows before (0) and 2, 12, 24, and 48 hr after PGF treatment on Day 10 of the estrous cycle (4-5 cows per time point). Serum progesterone concentrations decreased by threefold (p < 0.05) within 2 hr, confirming functional luteolysis. The mRNA abundance of the pro-apoptotic gene BAX increased 12-48 hr post-PGF treatment (p < 0.05), while morphological luteolysis was observed 24 and 48 hr after PGF treatment, based on the loss of plasma membrane integrity, reduction of cytoplasmic volume, and pyknotic nuclei. Phosphorylated STAT3 increased, peaking at 12 hr, and remained elevated until 48 hr after PGF treatment. SOCS3 transcript abundance also increased (p < 0.05) starting at 2 hr post-PGF treatment. In contrast, AKT phosphorylation decreased by 12 hr after treatment. Thus, activation of STAT3 and inactivation of AKT signaling are involved in structural regression of the corpus luteum.

A role for the endocannabinoid system in premature luteal regression and progesterone withdrawal in lipopolysaccharide-induced early pregnancy loss model.

STUDY QUESTION: What is the role of the endocannabinoid system (eCS) in the alterations of the endocrine system in a murine model of lipopolysaccharide (LPS)-induced miscarriage? SUMMARY ANSWER: In 7-days pregnant wild type, but not cannabinoid receptor type 1 knockout (CB1-KO) mice, LPS increased COX-2 expression and prostaglandin F2α (PGF2α) production in the uterus leading to lower expression of prolactin receptor in the ovary and a marked regression of corpora lutea (CL), suggesting that the eCS mediates the deleterious effects of LPS on reproductive events. WHAT IS KNOWN ALREADY: Appropriate systemic progesterone levels are critical for a successful pregnancy outcome. Precocious loss of luteal progesterone (P4) secretion leads to miscarriage in rodents. We have previously shown that LPS administration to pregnant mice induces embryonic resorption accompanied by a dramatic decrease in systemic progesterone levels in a murine model of inflammatory miscarriage, with the eCS mediating these LPS-induced deleterious effects. STUDY DESIGN SAMPLES/MATERIALS, METHODS: CD1 wild-type (WT) and CB1-KO mice were randomly allocated to Vehicle (saline; i.p.) or LPS (0.5 µg/g body weight; i.p.) treated groups: (WT-Vehicle; WT-LPS; CB1-KO-Vehicle and CB1-KO-LPS). A single injection was given on day 7 of pregnancy and tissues (blood, ovary, uterus) were collected 6, 12, 24 and 48 h later. P4 and PGF2α plasma levels were determined by radioimmunoassay. Cyclooxygenase-2 (COX-2) mRNA (RT-PCR) and protein (Western blot) content in uterus was assayed. COX-2 and prolactin receptor (PrlR) mRNA levels in the ovary were assayed by RT-PCR. Tissue morphology of the CL was assessed by haematoxylin-eosin staining. MAIN RESULTS AND THE ROLE OF CHANCE: Treatment of 7-day pregnant WT mice with LPS induced a P4 withdrawal (p < 0.05), increased in uterine COX-2 mRNA and protein expression (p < 0.05) as well as an increase in uterine PGF2α production (p < 0.05). These changes were absent in LPS-treated 7-day pregnant CB1-KO mice. In ovarian tissues, LPS treatment to 7-day pregnant WT mice induced a downregulation of PrlR mRNA expression (p < 0.05) together with an increase in COX-2 mRNA expression (p < 0.05) and PGF2α content (p < 0.05). These effects were absent in the CB1-KO mice. Collectively, our results suggest a role for the eCS mediating LPS-induced deleterious effects on reproductive tissues. LIMITATIONS, REASONS FOR CAUTION: An important caveat of this study is the endocrine differences between mice and humans during pregnancy (e.g. P4 is produced by the CL throughout pregnancy in mice, whereas this is not the case in humans), which limits the extrapolation of the results presented here. WIDER IMPLICATIONS OF THE FINDINGS: Our findings provide new insights in the role of the endocannabinoid system in the physiopathology of reproduction as well as the role of this endogenous system as a mediator of LPS deleterious effects on reproductive tissues. LARGE SCALE DATA: None. STUDY FUNDING AND COMPETING INTERESTS: Dr Ana María Franchi was funded by Agencia Nacional para la Promoción Científica y Tecnológica (PICT 2010/0813 and PICT 2013/0097) and by Consejo Nacional de Investigaciones Científicas y Técnicas (PIP 2012/0061). The authors have no competing interests.

Luteólise em bovinos: revisão / Luteolysis in cattle: review

O fenômeno da luteólise é conhecido como o processo em que o corpo lúteo (CL) sofre regressão, caracterizada inicialmente por uma diminuição na concentração plasmática de progesterona (P4). A luteólise é bastante complexa e envolve vários processos desencadeados a partir do não reconhecimento da gestação e do aumento na liberação pulsátil de prostaglandina F2α (PGF2α). O aumento na pulsatilidade está envolvido com o aumento de receptores endometriais para ocitocina e estrógeno. Quando altas concentrações de PGF2α se ligam aos receptores no CL, desencadeiam uma série de alterações nas expressões gênicas dos fatores angiogênicos e vasoativos, que influenciam direta ou indiretamente no CL. As alterações nas expressões gênicas são necessárias para aumentar ainda mais as concentrações de PGF2α intraluteal, consequentemente diminuir as concentrações de P4 e regredir o tecido luteínico. Assim sendo, o objetivo deste trabalho é revisar o processo de luteólise em bovinos.

Luteolisys is known as a process were the corpus luteum (CL) regresses, initially characterized by a decrease in progesterone (P4) plasmatic concentration. Luteolisys is very complex and involves many processes triggered through the lack of maternal recognition and rise of prostaglandin F2α (PGF2α) pulsate release. Increase of pulsatility is involve with ocitocine and estrogen endometrial receptors increase. When PGF2α high concentrations bind to CL receptor a series of changes in angiogenics and vasoactivs factores gene expression are triggered influencing direct or indirectly in CL. Modifications in genetic expression are required for further increase intraluteal PGF2α concentrations and consequently decrease P4 concentrations and regressing luteal tissue. This paper objective is to review bovine luteolisys.

Luteólise em bovinos: revisão / Luteolysis in cattle: review

O fenômeno da luteólise é conhecido como o processo em que o corpo lúteo (CL) sofre regressão, caracterizada inicialmente por uma diminuição na concentração plasmática de progesterona (P4). A luteólise é bastante complexa e envolve vários processos desencadeados a partir do não reconhecimento da gestação e do aumento na liberação pulsátil de prostaglandina F2α (PGF2α). O aumento na pulsatilidade está envolvido com o aumento de receptores endometriais para ocitocina e estrógeno. Quando altas concentrações de PGF2α se ligam aos receptores no CL, desencadeiam uma série de alterações nas expressões gênicas dos fatores angiogênicos e vasoativos, que influenciam direta ou indiretamente no CL. As alterações nas expressões gênicas são necessárias para aumentar ainda mais as concentrações de PGF2α intraluteal, consequentemente diminuir as concentrações de P4 e regredir o tecido luteínico. Assim sendo, o objetivo deste trabalho é revisar o processo de luteólise em bovinos.(AU)

Luteolisys is known as a process were the corpus luteum (CL) regresses, initially characterized by a decrease in progesterone (P4) plasmatic concentration. Luteolisys is very complex and involves many processes triggered through the lack of maternal recognition and rise of prostaglandin F2α (PGF2α) pulsate release. Increase of pulsatility is involve with ocitocine and estrogen endometrial receptors increase. When PGF2α high concentrations bind to CL receptor a series of changes in angiogenics and vasoactivs factores gene expression are triggered influencing direct or indirectly in CL. Modifications in genetic expression are required for further increase intraluteal PGF2α concentrations and consequently decrease P4 concentrations and regressing luteal tissue. This paper objective is to review bovine luteolisys.(AU)

Dinâmica hormonal durante o processo luteolítico nas espécies equina e bovina; com ênfase sobre o papel da prolactina / Hormonal dynamics during the luteolytic period in equine and bovine species; with emphasis on the role of prolactin

O presente estudo visou caracterizar a secreção de PRL e estudar suas interrelações com a PGFM durante a pré-luteólise, luteólise e pós-luteólise em éguas (Experimento 1); avaliar o efeito da inibição de PRL e PGF2α na luteólise e definir a sincronia entre PRL e PGFM em novilhas (Experimento 2); definir a sincronia entre PRL e PGFM em éguas (Experimento 3); e avaliar a constante estimulação da PRL durante o ciclo estral em éguas (Experimento 4). No experimento 1 em éguas, amostras de sangue foram coletadas durante as 24 h da préluteólise, luteólise e pós-luteólise. [...] A estimulação repetida da PRL não aparentou manter as concentrações de PRL elevadas após o Dia 14. Nas amostras a cada hora, concentrações de PRL atingiram um valor máximo 4 horas após a estimulação e os pulsos de PRL foram aumentados. O aumento na PRL não afetou a PGFM, P4 e fluxo sanguíneo do CL. Entretanto, a estimulação da PRL quebrou a sincronia entre PGFM e PRL. Estão contidos nessa dissertação o primeiro relato em éguas sobre a caracterização e ritmicidade de pulsos de PRL, sincronia entre pulsos de PRL e PGFM e maior atividade da PRL durante a luteólise e pós-luteólise. A inibição da PRL interferiu na secreção de P4 em novilhas, mas foi confundida pelo aumento de LH. A sincronia entre pulsos de PGFM e PRL representa um efeito positivo da PGF2α sobre a PRL, tanto em éguas quanto em novilhas

The aim of the present study was to characterize the PRL secretion and study the relationship between PRL and PGFM during preluteolysis, luteolysis and postluteolysis in mares (Experiment 1); evaluate the effect of PRL and PGF2α inhibition on luteolysis and define the synchrony between PRL and PGFM in heifers (Experiment 2); define the synchrony between PRL and PGFM in mares (Experiment 3); and evaluate the frequent stimulation of PRL during the estrous cycle in mares (Experiment 4). On experiment 1 in mares, blood samples were collected during the 24 h of preluteolysis, luteolysis and postluteolysis. [...] The frequent stimulation on PRL did not appear to maintain higher concentrations of PRL after Day 14. On hourly samples, concentrations of PRL reached maximum value 4 h after stimulation and pulses of PRL were increased. The increase on PRL did not affect PGFM, P4, and blood flow of the CL. The synchrony between PGFM and PRL was partially disrupted by PRL stimulation. This was the first report on characterization and rhythm of PRL pulses, synchrony between PRL and PGFM pulses, and greater PRL activity during luteolysis and postluteolysis. The inhibition of PRL interfered with P4 secretion in heifers, but was confounded by the LH increase. In mares and heifers, the synchrony between PGFM and PRL pulses represents a positive effect of PGF2α on PRL

Role of the DLL4-NOTCH system in PGF2alpha-induced luteolysis in the pregnant rat.

We investigated the expression and cell localization of NOTCH1, NOTCH4, and the delta-like ligand DLL4 in corpus luteum (CL) from pregnant rats during prostaglandin F2alpha (PGF2alpha)-induced luteolysis. We also examined serum progesterone (P(4)) and CL proteins related to apoptosis after local administration of the notch inhibitor N-[N-(3,5-difluorophenacetyl-l-alanyl)]-S-phenylglycine t-butyl ester (DAPT). Specific staining for NOTCH1 and NOTCH4 receptors was detected predominantly in large and small luteal cells. Furthermore, in line with the fact that the notch intracellular domain is translocated to the nucleus, where it regulates gene expression, staining was evident in the nuclei of luteal cells. In addition, we detected diffuse cytoplasmic immunostaining for DLL4 in small and large luteal cells, in accordance with the fact that DLL4 undergoes proteolytic degradation after receptor binding. The mRNA expression of Notch1, Notch4, and Dll4 in CL isolated on Day 19 of pregnancy decreased significantly after administration of PGF2alpha. Consistent with the mRNA results, administration of PGF2alpha to pregnant rats on Day 19 of pregnancy decreased the protein fragment corresponding to the cleaved forms of NOTCH1/4 CL receptors. In contrast, no significant changes were detected in protein levels for the ligand DLL4. The local intrabursal administration of DAPT decreased serum P(4) levels and increased luteal levels of active caspase 3 and the BAX:BCL2 ratio 24 h after the treatment. These results support a luteotropic role for notch signaling to promote luteal cell viability and steroidogenesis, and they suggest that the luteolytic hormone PGF2alpha may act in part by reducing the expression of some notch system members.

Canine corpus luteum regression: apoptosis and caspase-3 activity.

The present study evaluated the occurrence of apoptosis and caspase-3 activity in the canine corpus luteum during the period of luteal regression in eight pregnant and nine nonpregnant diestrus bitches. Intact luteal cells were obtained from corpora lutea in both peripartum pregnant bitches and nonpregnant diestrus bitches at approximately 65 d (range 63-68) after estrus, but not at days 75 and 85 in nonpregnant bitches. In all bitches, apoptotic cells were rarely detected and when present, those cells were more easily detected using the hematoxylin and eosin technique than using the critical electrolyte concentration technique. The luteal structures at 75 and 85 d of diestrus had histological characteristics similar to a corpus albicans. Caspase-3 activity was detected in morphologically normal corpora lutea from both pregnant and diestrus bitches around day 65, and also in the later structures considered corpus albicans tissue. These results suggested that apoptosis may not be the major mechanism involved in canine functional luteal regression, and that caspase-3 participated in both functional and morphological luteolysis and in the tissue reorganization involved in corpus albicans formation.

Progesterone promotes survival of the rat corpus luteum in the absence of cognate receptors.

Progesterone production by the corpus luteum (CL) is essential for preparation of the endometrium for implantation and for the maintenance of gestation. Progesterone modulates its own production and opposes functional luteal regression induced by exogenous agents, such as prostaglandin F(2alpha). In the present study, we evaluated whether progesterone is also capable of interfering with the process of structural luteal regression, which is characterized by a decrease in weight and size of the gland because of programmed cell death (i.e., apoptosis). We have found that a low number of luteal cells undergo apoptosis throughout gestation. On the day of parturition, but following the initial decline in endogenous progesterone production, a small increase in the number of luteal cells undergoing cell death was observed. This increase in apoptotic cells continued postpartum, reaching dramatic levels by Day 4 postpartum, and was accompanied by a marked decrease in average luteal weight. We have established that the exogenous administration of progesterone significantly reduces the decline in luteal weight observed during structural luteal regression postpartum. This effect was associated with a decrease in the number of cells undergoing apoptosis and with enhanced circulating levels of androstenedione. Furthermore, in vivo administration of progesterone delayed the occurrence of DNA fragmentation in postpartum CL incubated in serum-free conditions. Finally, we have shown that neither the CL of gestation nor the newly formed CL after postpartum ovulation express the classic progesterone-receptor mRNA. In summary, the present results support a protective action of progesterone on the function and survival of the CL through inhibition of apoptosis and stimulation of androstenedione production. Furthermore, this effect is carried out in the absence of classic progesterone receptors.

[Role of nitric oxide in the synthesis of prostaglandin F2 alpha and progesterone during luteolysis in the rat]. / Rol del óxido nítrico en la sintesis de prostaglandina f2 alpha y progesterona durante la luteolisis en la rata.

In the corpus luteum (CL) prostaglandin F2 alpha (PGF2 alpha) is a luteolytic agent. Nitric oxide (NO) is a messenger molecule capable of modulating diverse pathophysiological processes. Many of these functions are related with the female reproductive tract. The aim of the present study was to investigate the role of ovarian NO in PGF2 alpha production arid in progesterone synthesis during CL regression in the rat. By means of the intrabursa (i.b.) ovarian sac treatment of two competitive NO inhibitors, NG-monomethyl-L-arginine (L-NMMA; 1 mg/kg); NW-Nitro-L-arginine methyl ester (L-NAME, 3 mg/kg) and sodium nitroprusside (SNP, 0.05 mg/kg) as a NO generator we found that NO, produced by the ovarian tissue during the last days (days 8 and 9) of CL development, acted by increasing PGF2 alpha production in the ovary and diminishing seric progesterone levels leading to CL involution. We also postulated a positive feedback mechanism between PGF2 alpha and NO, to ensure luteal regression. Thus, we injected intraperitoneally (i.p.) a luteolytic dose (3 micrograms/kg) of a synthetic PGF2 alpha during the mid and late phase of CL development. The ovarian activity was evaluated. The results confirmed our hypothesis; we did not see any effect in mid-stage of CL development, while at a late stage enhancement of ovarian NOs activity was observed in PGF2 alpha-infected animals.

Rol del oxido nítrico en la síntesis de prostaglandina F2alpha y progesterona durante la luteolisis en la rata / Role of nitric oxide in the synthesis of prostaglandin F2alpha and progesterone during luteolysis in the rat

En el cuerpo lúteo (CL), la prostaglandina F2alpha (PGF2alpha) es un agente luteolítico. El óxido (NO) es una molécula mensajera capaz de regular diversos procesos patofisiológicos, algunos de ellos relacionados com el tracto rerpoductivo femenino. El objetivo del presente estudio fue investigar el rol del NO ovárico en la producción de PGF2alpha y progesterona (Pg) durante la regresión del CL en la rata. Se utilizó para ello el modelo de la rata pseudopreñada, obteniéndose un cuerpo lúteo funcional por 9 + 1 días. Fueron inyectados en bursa ovárica dos inhibidores competitivos de la óxido nítrico sintasa (Nos), NG-monometil-L-arginina (L-NMMA), 1 mg/kg); NW-nitro-L-arginina metil éster (L-NAME, 3 mg/kg) así como también un generador de NO como el nitroprusiato sódico (SNP, 0.05 mg/kg). Los resultados obtenidos indican que el NO, producido en el ovario durante la fase final del desarrollo del CL (días 8 y 9), actuaría aimentando la producción de PGF2alpha ovárica y disimuyendo la progesterona sérica desencadenando la regresión luteal. Se há propuesto un mecanismo de feedback positivo entre la PGF2alpha y el NO hacia la fase final del desarrollo del Cl, para asegurar la luteólisis. Esto fue evaluado mediante la medición de la actividad de la Nos, luego de haber inyectado una dosis luteolítica de PGF2alpha (3mug/kg) a ratas en estadio medio (día 5) y tardío (día 9) del desarrollo luteal. Los resultados confirmaron nuestra hipótesis; no se observó un efecto en el estadio medio del desarrollo del Cl, pero en la fase final se encontró un aumento en la actividad de la enzima Nos en aquellos animales que habían recibido la dosis mencionada de PGF2alpha. (AU)

Rol del oxido nítrico en la síntesis de prostaglandina F2alpha y progesterona durante la luteolisis en la rata / Role of nitric oxide in the synthesis of prostaglandin F2alpha and progesterone during luteolysis in the rat

En el cuerpo lúteo (CL), la prostaglandina F2alpha (PGF2alpha) es un agente luteolítico. El óxido (NO) es una molécula mensajera capaz de regular diversos procesos patofisiológicos, algunos de ellos relacionados com el tracto rerpoductivo femenino. El objetivo del presente estudio fue investigar el rol del NO ovárico en la producción de PGF2alpha y progesterona (Pg) durante la regresión del CL en la rata. Se utilizó para ello el modelo de la rata pseudopreñada, obteniéndose un cuerpo lúteo funcional por 9 + 1 días. Fueron inyectados en bursa ovárica dos inhibidores competitivos de la óxido nítrico sintasa (Nos), NG-monometil-L-arginina (L-NMMA), 1 mg/kg); NW-nitro-L-arginina metil éster (L-NAME, 3 mg/kg) así como también un generador de NO como el nitroprusiato sódico (SNP, 0.05 mg/kg). Los resultados obtenidos indican que el NO, producido en el ovario durante la fase final del desarrollo del CL (días 8 y 9), actuaría aimentando la producción de PGF2alpha ovárica y disimuyendo la progesterona sérica desencadenando la regresión luteal. Se há propuesto un mecanismo de feedback positivo entre la PGF2alpha y el NO hacia la fase final del desarrollo del Cl, para asegurar la luteólisis. Esto fue evaluado mediante la medición de la actividad de la Nos, luego de haber inyectado una dosis luteolítica de PGF2alpha (3mug/kg) a ratas en estadio medio (día 5) y tardío (día 9) del desarrollo luteal. Los resultados confirmaron nuestra hipótesis; no se observó un efecto en el estadio medio del desarrollo del Cl, pero en la fase final se encontró un aumento en la actividad de la enzima Nos en aquellos animales que habían recibido la dosis mencionada de PGF2alpha.

Dual regulation of luteal progesterone production by androstenedione during spontaneous and RU486-induced luteolysis in pregnant rats.

The effect of androstenedione on luteal progesterone production was studied during luteolysis preceding parturition as well as that induced by the antiprogestin RU486 in late pregnant rats. Luteal cells from animals on days 19, 20 or 21 of pregnancy and incubated with 10 microM androstenedione increased progesterone production by 99, 136, and 277%, respectively. The animals receiving androstenedione (10 mg/rat s.c.) on day 19 of pregnancy showed an increase in serum progesterone levels, a decline in luteal 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) activity and an increase in corpus luteum weight without modifying 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) activity on day 21 of pregnancy. Androstenedione and testosterone but not dihydrotestosterone were able to prevent the decrease in serum progesterone concentration and corpus luteum weight observed 58 h after treatment with RU486 (2 mg/kg) on day 18 of pregnancy. However, the three androgens studied inhibited the luteal 3 beta-HSD activity but 20 alpha-HSD activity was not affected, when compared with animals receiving RU486 alone. The co-administration of androstenedione with the aromatase inhibitor 4-hydroxyandrostenedione or with the specific antioestrogen ICI 164,384 did not modify the effects induced by androstenedione in RU486-treated rats, indicating that the action of androstenedione on progesterone production and secretion at the time of luteolysis seems to occur through an androgenic mechanism and is not mediated by previous conversion of the androgens to oestrogens. In all experiments the high luteal 20 alpha-HSD activity, that characterizes a luteolytic process, was not modified by androgens. Androstenedione administered to adrenalectomized rats was also able to prevent the decrease in serum progesterone concentration observed in spontaneous or RU486-induced luteolysis. The administration of androstenedione to RU486-treated rats induced a decrease in luteal progesterone content concomitant with an increase in serum progesterone levels. These studies demonstrate that androgens during luteolysis, are able to stimulate luteal progesterone secretion, prevent the loss in corpora lutea weight and enhance the decrease in 3 beta-HSD activity, without affecting the increase in 20 alpha-HSD activity.

Luteolytic action of RU486: modulation of luteal 3 beta-hydroxysteroid dehydrogenase and 20 alpha-hydroxysteroid dehydrogenase activities in late pregnant rats.

The effect of the synthetic antiprogestin RU486 on luteal function in late pregnant rats was studied by evaluating the activities of the enzymes 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) and 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD). RU486 (2 mg/kg) administered to rats on day 18 of pregnancy at 10.00 h induced preterm delivery 26.4 +/- 0.35 h (n = 8) after treatment. Luteal 3 beta-HSD activity increased 24 and 34 h after RU486 injection, but a significant and progressive decrease started at 48 h with the maximal reduction 72 h after RU486 treatment, when compared with controls. Serum progesterone concentration decreased at the time of 3 beta-HSD activity reduction. Interestingly, 20 alpha-HSD activity started to increase 58 h after RU486 injection. The administration of the cyclooxygenase inhibitor, diclofenac (1.3 mg/kg), on days 17-19 of pregnancy to RU486-treated rats, delayed abortion and the duration of delivery, and prevented the decrease in 3 beta-HSD and the increase in 20 alpha-HSD activities observed 58 h after antiprogesterone treatment. RU486 administered intrabursally (1 microgram per ovary) on day 20 (14.00-15.00 h) increased 3 beta-HSD and decreased 20 alpha-HSD luteal activities at 18.00 h on day 21 of pregnancy, without modifying serum progesterone concentration, when compared with normal pregnant rats. In conclusion, the luteolytic process after preterm delivery induced by RU486 administration in late pregnant rats is characterized by a decrease in luteal 3 beta-HSD activity and circulating progesterone, which may trigger the increase in luteal 20 alpha-HSD activity. Prostaglandins seems to be involved in the increase of 20 alpha-HSD activity and therefore, in the demise of corpora lutea.