Latent and active forms of collagenase in rat uterine explant cultures: regulation of conversion by progestational steroids

A latent collagenase, activatable by trypsin, has been identified in the culture media of postpartum rat uterus explants. Progesterone at a concentration of 25 × 10^?6m reduced the level of active collagenase by approximately 50%, whereas, total enzyme levels (active + latent) remained essentially constant during the first 3 days of culture. In addition, medroxyprogesterone acetate at a concentration of 1 × 10^?6m reduced active enzyme by approximately 75% while only small decreases in total enzyme were observed. After the third day of culture, total enzyme levels were also significantly decreased. These data suggest that during the first 3 days in culture the progestins prevent the conversion of latent collagenase to its active form. A fraction capable of promoting the activation of explant collagenase was detected in the culture medium and was partially separated from the collagenase. Progesterone (25 × 10^?6m) or medroxyprogesterone acetate (1 × 10^?6m) caused a 50 or 71% decrease, respectively, in the levels of the activator.     

Hormonal regulation of macrophage collagenase activity.

Whereas peritoneal macrophages from nonpregnant guinea pigs were stimulated $\text{in vitro}$ by endotoxin to produce collagenase on the second day of culture, those from pregnant guinea pigs were incapable of this response. However, if the cells from pregnant animals were preincubated for one day prior to endotoxin stimulation, collagenase activity could be detected. Injection of either estrogen or progesterone into guinea pigs at doses comparable to those found during pregnancy prior to removal of the peritoneal cells also inhibited the $\text{in vitro}$ stimulation of collagenase production. The addition of these hormones $\text{in vitro}$ revealed that at 5 × 10^?6 M estrogen and progesterone inhibited 53% and 100% respectively of the collagenase activity. Addition of both hormones at a final concentration of 5 × 10^?7 M of each inhibited 87% of the activity indicating a synergistic effect since this concentration of either hormone alone was ineffective.     

Hormonal regulation of collagen degradation in the uterus: Inhibition of collagenase expression by progesterone and cyclic AMP

Dibutyryl cyclic AMP markedly increases the ability of progesterone to prevent the expression of collagenase activity in cultures of post-partum rat uterus. Dibutyryl cyclic AMP itself and, to a lesser extent, native cyclic AMP, are capable of producing a partial decrease in enzyme activity, but complete abolition is not observed at high cyclic nucleotide concentrations (5 mM) in the culture medium. Theophylline, when added to cultures, mimics the effect of dibutyryl cyclic AMP. Other cyclic nucleotides were without effect on levels of collagenase activity in the uterine cultures.When non-inhibitory concentrations of either dibutyryl cyclic AMP (1 · 10^?4 M) or theophylline (1 · 10^?4 M) are added to cultures together with a non-inhibitory concentration of either progesterone (5 · 10^?6 M) or the potent progesterone analogue Provera (1 · 10^?8 M) the ability of the tissue to produce collagenase is decreased by 40–70%. Collagenase activity is consistently diminished more than additively by combinations of steroid and cyclic nucleotide. Theophylline mimics the effect of dibutyryl cyclic AMP on steroid activity in culture. In the presence of dibutyryl cyclic AMP, diminution of collagenase activity can be observed at concentrations of steroid more than two orders of magnitude lower than the normal minimally inhibitory dose. Reduction of collagenase activity is reflected in all experiments by a concomitant decrease in the normal proteolytic degradation of collagen in the tissue ex-plants. The possibility that progesterone acts in the uterus to raise cyclic AMP levels is suggested by the fact that uterine tissue, when cultured in the presence of progesterone, contains reduced levels of cyclic nucleotide phosphodiesterase.These data suggest that, in some way a cyclic AMP-mediated system is critically involved in the control of collagenase activity by progesterone in the rat uterus.     

Hormonal interactions in mammalian collagenase regulation: Comparative studies in human skin and rat uterus

The production of collagenase by human skin explants in culture is prevented by 10^?8 M dexamethasone, 5·10^?4 M dibutyryl cyclic AMP, or 2.5· 10^?3 M theophylline. Decreases in collagenase activity are paralleled by reductions in the degradation of explant collagen during the culture period. Progesterone, which effectively inhibits collagenase production in rat uterine explant cultures, has no effect on human skin explants. The inhibition by cyclic AMP is nucleotide specific. When partially inhibitory concentrations of dexamethasone and dibutyryl cyclic AMP, or dexamethasone and theophylline, are added to culture medium together, the resultant inhibition is that predicted by additivity. Synergistic inhibition, as observed in rat uterus between progesterone and dibutyryl cyclic AMP, fails to occur.Dexamethasone inhibits the production of collagenase by cultured explants of rat uterus, with complete inhibition occurring at 10^?7 M steroid. Synergism between glucocorticoids and dibutyryl cyclic AMP or between dexamethasone and progesterone could not be demonstrated in the uterine culture system. These results suggest the existence of three regulatory systems for the control of collagenase production in mammalian tissues, and that cooperativity between systems may occur on a tissue-specific basis.     

Steroid hormones and the fertilizing capacity of spermatozoa

The effects of eleven different steroid hormones on $\text{in vitro}$ development of fertilizing capacity by hamster sperm were examined. Capacitation of epididymal sperm occurred only in the presence of female genital tract secretions. Fertilizing ability of sperm was poor if estradiol-17β, cortisol, chlormadinone acetate, medroxyprogesterone acetate, or megestrol acetate were present in the incubation medium at 10^?5M, whereas similar concentrations of estradiol-17α, progesterone, norethisterone acetate, ethynodiol diacetate, or norgestrel had little effect. Testosterone was a weak inhibitor of capacitation. Capacitation activity of female uterus and oviduct washings was higher at estrus than diestrus. This activity was reduced by treating intact animals with progesterone, cortisol, or testosterone, but increased by estradiol-17β or HCG. Estradiol-17α has no effect. Activity was low in pregnant or ovariectomized hamsters. Treatment of ovariectomized animals with estradiol-17β increased capacitation activity, but estradiol-17α, HCG or progesterone treatment was ineffective.     

Regulation of human skin collagenase activity by hydrocortisone and dexamethasone in organ culture

Hydrocortisone and dexamethasone (9α-fluoro, 16α-methyl prednisolone) prevent the appearance of collagenase in cultures of normal human skin, human rheumatoid synovium and rat uterus. Hydrocortisone is maximally inhibiting at 10^?7M and dexamethasone at 10^?8M in culture medium. Neither steroid is an inhibitor of enzyme activity. The loss of collagenase activity in cultured tissue is not accompanied by detectable inhibition of protein synthesis. Reduction of enzyme activity in culture medium is concomitant with a parallel cessation of tissue collagen degradation, indicating that the tissue fails to produce active collagenase in the presence of physiologic levels of glucocorticoids.     

Aromatase activity of human adipose tissue stromal cells: effects of thyroid hormones and progestogens

In order to determine the direct effects of thyroid hormones and progestogens on extraglandular aromatization, human adipose stromal cells in monolayer culture were used as a model system for this study on the regulation of aromatase enzyme activity. It was found that 1-thyroxine at 2- and 4-fold normal concentrations (220 and 440 nM, respectively) and triiodothyronine at 4-fold normal concentration (7.4 nM) had no effect on basal, dibutyryl cyclic AMP ((Bu)2 cAMP)-induced, or dexamethasone-induced aromatization. Medroxyprogesterone acetate at a concentration of 25.9 nM, but not progesterone, 47.7 nM, stimulated basal aromatization slightly but not significantly. In contrast, both medroxyprogesterone acetate and progesterone potentiated the effect of (Bu)2 cAMP on aromatase activity (P less than 0.05 and P less than 0.01, respectively) but had no effect on dexamethasone-stimulated aromatase activity. We concluded that (i) the increased peripheral aromatization associated with hyperthyroidism is not due to the direct effect of thyroid hormones on aromatase activity, and (ii) neither progesterone nor medroxyprogesterone acetate inhibit aromatase activity of adipose tissue stromal cells, but may stimulate this activity under certain conditions.     

The in vivo metabolism of progestins: IV. the metabolic clearance rate and plasma binding of 6α-methylpregn-4-ene-3,20-dione in women

[³H]6α-methylprogesterone (6MP) was synthesized by selective catalytic tritiation of the Δ¹-olefinic bond of 6α-methylpregna-1,4-diene-3,20-dione. The metabolic clearance rate of 6MP (MCR⁶MP) was determined in 6 women by the single injection technique. The plasma MCR^6MP was 4047 ± 298 L/day (59 ± 15 L/day/kg) which was higher than the MCR of progesterone and medroxyprogesterone acetate (6α-methyl-17α-hydroxy-pregna-4-ene-3,20-dione acetate). The high clearance was not due to binding or metabolism of 6MP by red cells. Although 6MP was bound to CBG with a lower affinity than progesterone, this could not entirely explain the high MCR^6MP. When considered with the reports of progesterone and medroxyprogesterone acetate clearance, the present studies suggest that the 6α-substitution of progesterone leads to an increased rate of steroid metabolism in women.     

Interaction between nitric oxide and prostaglandin E pathways in rat smooth muscle myometrial cells

Previously, we demonstrated the presence of a nitric oxide (NO) prostaglandin (PG) pathway in myometrial cells obtained from uterine rat tissue. This pathway was modulated by estrogen and one possible function could be to modulate uterine relaxation. In the present study, we investigated the role of progesterone in the regulation of NO synthesis and the uterotonic PGE production by myometrial cells from uterine rat tissue. We worked with two groups of rats: (i) ovariectomizcd (OV) rats, without influence of sex hormones and (ii) OV rats injected with progesterone (4 mg) s.c. Myometrial uterine cells were obtained by a selective enzymatic digestion. In the incubation medium of these cells, nitrite concentration (as a measure of NO production) and PGE production were evaluated. To ensure a specific response, a competitive NOs inhibitor, N(G)-monomethyl-L-arginine; L-NMMA (300 microM) was used. We found that at 48 h of the incubation period, cells obtained from progesterone-primed uterine tissue presented an increase in the nitrite concentration concomitant with a decrease in the PGE production. When L-NMMA was added to the cells, nitrite production and PGE synthesis returned to control values. The fact that this effect had not been observed in the group of cells obtained from OV rats suggests that progesterone was responsible for it. These data provide strong evidence that in spite of the fact that estrogen and progesterone modulate the NO-PG pathway in the uterine rat tissue, the two hormones have opposite effects.     

Binding of progestagens to receptor proteins in MCF-7 cells

With the aim of finding an explanation for the biological properties of progestagens currently used for contraceptive purposes, we have assessed their specificity for progesterone, androgen and oestrogen receptors in MCF-7 cells. The specificity of progestagens for the progesterone receptors in the cytosol fraction of MCF-7 cells was similar to that for progesterone receptors in human and rabbit myometrial cytosol but different from that for the progesterone receptor in rat myometrial cytosol. At 37 degrees C the relative affinity of 3-keto-desogestrel, the major metabolite of desogestrel, for the progesterone receptor in intact MCF-7 cells was twice that of levonorgestrel and Org 2058, three times that of medroxy-progesterone acetate (MPA), 4.5 times that of norethisterone and 5 times that of progesterone and cyproterone acetate whereas at 4 degrees C in the cytosol fraction of MCF-7 cells exposed to molybdate (nontransformed receptor complexes) 3-keto-desogestrel and Org 2058 displayed similar affinity. The stronger binding of 3-keto-desogestrel in intact cells was due to the higher stability of its complex with the progesterone receptor. At 37 degrees C the relative affinity of 3-keto-desogestrel for the androgen receptor in intact MCF-7 cells was half that of levonorgestrel, similar to that of norethisterone and medroxyprogesterone acetate (MPA) and at least three times higher than that of progestagens with anti-androgenic activity whereas at 4 degrees C in the cytosol fraction exposed to molybdate there was no clear difference between the relative affinities of progestagens with androgenic and anti-androgenic properties. Of the progestagens tested in this study, only norethinodrel displayed measurable but very low relative affinity for the oestrogen receptor in MCF-7 cells. We conclude that the present results of binding studies with intact MCF-7 cells correlate better with the known hormonal properties of progestagens than those obtained with the cytosol fraction exposed to molybdate at 4 degrees C.     

Serotonin: an inducer of collagenase in myometrial smooth muscle cells.

Rat myometrial smooth muscle cells in culture actively produce collagenase in medium containing fetal bovine serum, but not in medium containing newborn bovine serum or containing fetal serum adsorbed with dextran-coated charcoal. A dialyzable molecule has been isolated from fetal bovine serum, which restores the ability of the smooth muscle cells to produce collagenase. The molecule has been purified and identified as serotonin (5-hydroxytryptamine). Cells cultured in medium depleted of serotonin for 3 days fail to produce collagenase, as assessed both enzymatically and immunologically. Addition of serotonin promptly restores the ability of the cells to produce the enzyme. The EC50 for serotonin is approximately 2 microM; maximum stimulation of collagenase production is observed at 5 microM. The response is specific for serotonin: a wide variety of compounds tested, either related to serotonin or of potential reproductive significance, were without effect in the induction of collagenase production by the cells. No changes in DNA content, general protein synthesis, or cellular collagen production were observed as a consequence of serotonin depletion or restoration, suggesting a selective effect of the compound on collagenase production. The effect of serotonin was also selective to myometrial smooth muscle cells; collagenase-producing fibroblasts from skin and cervix displayed no serotonin requirement for enzyme production. Studies using specific agonists or antagonists for a variety of serotonin receptor subtypes suggest that the 5-HT-2 receptor mediates the serotonin induction of collagenase in these cells. Preliminary evidence indicates that cultured human myometrial smooth muscle cells are also dependent upon serotonin for collagenase production. The evidence in this study suggests the possibility that serotonin serves as a signal to begin the massive collagen degradation that occurs in the postpartum uterus.     

Inability of gestational hormones to account for the inhibitory effects of pregnancy plasmas on lymphocyte responses in vitro.

Plasma from pregnant women has a marked inhibitory effect on lymphocyte responses in vitro. While much evidence suggests that this is due to an immunologic mechanism, an apparent lack of specificity and the known suppressive effects of several hormones on immune function has led to speculation that the inhibitory effects could be due to increased concentrations of gestational hormones. We have investigated the effects of a wide range of concentrations of estrone, estradiol, estriol, progesterone, human chorionic gonadotropin (HCG), and hydrocortisone on lymphocyte responses to mitogens and allogeneic cells. None of these hormones were capable of inhibiting lymphocyte DNA synthesis even at concentrations several times the maximum physiologic plasma levels occurring during pregnancy. Very high, supraphysiologic concentrations were found to be inhibitory. In investigating the mechanism of the hormonal inhibition we found that if they were removed from the media at various times after initiation of culture, the estradiol, HCG, and to a lesser extent the hydrocortisone effects were all reversible. Estradiol and HCG differed from hydrocortisone in that the former were inhibitory only when added at the initiation of culture, whereas hydrocortisone was inhibitory even when added 24 hr later. In summary, while extremely high concentrations of gestational hormones are inhibitory, the quantities which occur physiologically in gestational plasmas are not able to suppress lymphocyte responses and thus cannot account for their inhibitory effects.     

Progesterone in the uterus. VI. On the question of the in vitro progesterone metabolism in human endometrium and myometrium

Human endometrial and myometrial tissue pieces were incubated with radioactively labeled progesterone in nutrient medium for 20 min., 1 hr and 2 hrs. The only compound extracted from the tissue pieces and the nutrient fluids was identified to be progesterone by TLC, chemical reactions and crystallization experiments. Radiometabolites could not be detected in the tissue pieces and in the nutrient fluids under the experimental conditions applied ( 10^?7 M 1,2-³H-progesterone in the incubation medium). This result is comparable with recent findings on the in vitro progesterone metabolism by rat uterine tissue.     

The fibre dimensions of uterine smooth muscle of the rabbit following treatment by female sex steroids

The effects of female sex hormones on the dimensions of myometrial smooth muscle fibres were studied by using ovariectomized rabbits. After one month of treatment, the fiber dimensions of the outer myometrial layer were measured, using cryostat sections. Calculated smooth muscle fiber volume was found to be in the sequence: control < medroxyprogesterone < estradiol < estradiol + medroxyprogesterone < estradiol alone. The measurements show that medroxyprogesterone-treated uteri contain the narrowest and the longest smooth muscle fibres, while estradiol treatment have the largest cells. This study complements previous observations in showing that medroxyprogesterone alone, or in combination with other modulators, contributes to sustain pregnancy by increasing internal resistance of estradiol-primed myometrial smooth muscle fiber fascicles. Our discussion, based on recent literature, shows that this resistance is ultimately controlled by changes in the myometrium innervation, in the repression of some controlling myofibrillar components, in the expression of specific membrane receptors and ionic channels, and in favoring the switching of molecular connexins in gap junctions, making P paramount in maintaining pregnancy. Moreover, other recent observations have also shown that probably an hcG-like hormone actually control P receptors expression in myometrial smooth muscles.     

Stimulatory effect of gonadotropins on the synthesis of adenosine 3′ :5′-cyclic monophosphate and progesterone by suspensions of rat ovarian interstitial cells

A cell suspension was prepared from immature rat ovaries by treatment with trypsin and collagenase. The isolated cells were capable of converting [8-¹⁴C]adenine to cyclic [¹⁴C]AMP and the rate of this conversion was stimulated in vitro by luteinizing hormone and human chorionic gonadotropine, but not by prolactin, norepinephrine, dopamine or albumin. The accumulation of progesterone was also measured in these cells by radioimmunoassay. In vitro addition of luteinizing hormone stimulated the accumulation of radioimmunoassayable progesterone. The conversion of [8-¹⁴C]adenine to cyclic [¹⁴C]AMP showed a rapid increase during the first 30 min of the incubation period when luteinizing hormone was added to the incubation medium. Progesterone accumulation in response to the same dose of luteinizing hormone showed a lag period for the first 30 min of incubation after which there was an increase up to 2 h. The luteinizing hormone-induced progesterone accumulation was sensitive to puromycin, but there was no effect on the luteinizing hormone-induced increase in cyclic [¹⁴C]AMP formation from [8-¹⁴C]-adenine. Actinomycin D also inhibited the luteinizing hormone-induced progesterone accumulation, with no effect on cyclic AMP formation. The results suggest that the luteinizing hormone-induced progesterone accumulation in rat ovarian interstitial cell suspension is preceded by an increased accumulation of cyclic AMP and that the accumulation of steroid under the influence of luteinizing hormone involve processes sensitive to puromycin and antinomycin D.     

Structural and functional studies of myometrial gap junctions

Gap junctions are believed to be sites of metabolic and electrical coupling between cells. These contacts are present between myometrial cells immediately prior to and during parturition. We report the results of studies to investigate the control and the function of myometrial gap junctions. Injection of estradiol (500 micrograms/day) with or without progesterone into immature and ovariectomized mature rats demonstrated that estradiol stimulated whereas progesterone suppressed gap junction formation. Indomethacin treatment was also shown to potentiate the action of estradiol. Also, pregnant rats treated with oestradiol developed numerous myometrial gap junctions and aborted their fetuses. These results suggest that the steroid hormones and prostaglandins may control myometrial gap junction development. Diffusion studies of 3H-2-deoxyglucose in longitudinal myometrial strips revealed a significant increase in the diffusion coefficient in delivering versus ante-partum rat tissues. This indicates that there is increased metabolic transfer during parturition when gap junctions are present. The results of these studies show that steroid hormones and prostaglandins may regulate myometrial gap junctions and that metabolic, as well as electrical coupling, of uterine smooth muscle cells increase at parturition concomitant with the development of gap junctions.     

Tetradecanoyl phorbol acetate stimulates latent collagenase production by cultured human endothelial cells

Angiogenesis is associated with the fragmentation of blood vessel basement membranes. Since collagen is a major constituent of basement membranes, cultured human endothelial cells derived from umbilical cord veins were assayed for their ability to produce collagenase. Unstimulated cultured human endothelial cells did not secrete detectable levels of active collagenase into the culture medium. However, if the post-culture medium was treated with trypsin or plasmin, low levels of collagenolytic activity were detected, indicating that endothelial cells secrete small amounts of latent collagenase. Addition of the tumor promoter 12-O-tetradecanoyl phorbol-13-acetate (TPA) to the culture medium stimulated the secretion of collagenase by endothelial cells 5–30 fold. More than 90% of the collagenase was secreted in the latent form. Stimulation of collagenase production was detected at 10^?9 M TPA and was maximal at 10^?8 M TPA. An increase in the rate of collagenase production could be detected within 3 hr after the addition of TPA, and full induction occurred by 12 hr. Cycloheximide (3 μg/ml) or actinomycin D (0.1 μg/ml) inhibited both basal levels of collagenase production and the stimulation of collagenase production by TPA. Phorbol-12,13-didecanoate (PDD), a tumor-promoting analog of TPA, also stimulated collagenase production when administered at the same concentrations that were effective for TPA. However, 4-O-methyl TPA and 4-αPDD, two analogs of TPA which are not tumor promoters, did not stimulate collagenase production at concentrations up to 10^?7 M. The collagenase produced by endothelial cells was a typical vertebrate collagenase as judged by the following criteria: it cleaved collagen into only two fragments which were three quarters and one quarter of the length of the intact molecule; it was inhibited by EDTA and human serum; it was not inhibited by inhibitors of serine, thiol or aspartate proteases. Thus TPA causes an increase in the production of latent collagenase by cultured human endothelial cells.     

Alcohol dehydrogenase activity in rat kidney cortex stimulated by oestradiol

Sex differences in alcohol dehydrogenase activity, determined by the influence of oestrogen hormones, were found to exist in the rat kidney. Oestradiol, but neither testosterone nor progesterone, was shown to be a powerful stimulator of kidney alcohol dehydrogenase activity in rats, maximally 6- to 8-times over control values. The Michaelis-Menten constant for acetaldehyde of both non-stimulated and oestradiol-stimulated kidney alcohol dehydrogenases was found to be similar, 6.7 · 10^?5 M and 7.8 · 10^?5 M, respectively. Actinomycin D was shown to have an additive effect (superinduction) on the oestradiol-induced increase in kidney enzyme activity. The findings suggest the possibility of the higher contribution of kidneys in ethanol metabolism in states with an elevated level of oestradiol, such as chronic ethanol intake and ethanol hepatic disease.     

Localization and regulation of IL-1alpha in rat myometrium during late pregnancy and the postpartum period

Interleukin-1 (IL-1) has been implicated as a participant in preterm labor that is induced by bacterial infection. Previously, we showed that serotonin-induced production of IL-1alpha by myometrial smooth muscle cells in vitro is also essential for the synthesis of interstitial collagenase. It is therefore likely that IL-1alpha production in uterine tissues has implications for both the normal physiology of involution and for the pathophysiological mechanisms of preterm labor. The objective of this study was to characterize the serotonin-induced production of IL-1alpha by myometrial cultures in vitro and to assess the production of IL-1alpha and its relationship to collagenase production in vivo during pregnancy and the postpartum period. Immunohistochemistry demonstrated IL-1alpha protein in the nuclei and cytoplasm of serotonin-treated myometrial cells. IL-1alpha levels were decreased by treatment with progesterone or IL-1-receptor antagonist but were unaffected by lipopolysaccharide. Western analysis of myometrium from pregnant rats showed low levels of IL-1alpha during midpregnancy with increased concentrations at days 21 and 22 and postpartum. IL-1alpha mRNA levels also increased from days 15 to 22. Levels of mRNA for IL-1beta also increased, although to a lesser degree than IL-1alpha. Both mRNAs decreased postpartum. Conversely, mRNA for interstitial collagenase was barely detectable at term but increased postpartum. Together, these data show that serotonin stimulates IL-1alpha production in vitro and indicate that normal myometrium from pregnant rats is an identifiable source of IL-1 during late pregnancy. The findings are consistent with the possibility that myometrial IL-1alpha participates in normal labor as well as the postpartum production of interstitial collagenase.