Effects of prostaglandins on the production of collagenase by rabbit uterine cervical fibroblasts

Effects of prostaglandins on the production of collagenase by rabbit uterine cervical fibroblasts were investigated. Exogenous prostaglandin E2 (PGE2) and PGF2 alpha significantly stimulated the production of collagenase in a dose dependent manner, whereas PGI2 did not. Addition of arachidonic acid in the presence of absence of indomethacin to the cell culture did not show any increase in collagenase production. Recombinant human interleukin-1 (rhIL-1) also promoted the production of cervical collagenase independently of endogenous prostaglandin(s). Furthermore both exogenous PGE2 and PGF2 alpha enhanced the rhIL-1-induced collagenase production whereas PGI2 and/or indomethacin did not. These results suggested that exogenous PGE2 and PGF2 alpha but not endogenous prostaglandin(s) participate in cervical ripening and dilation by enhancing collagenase production by rabbit uterine cervical cells.     

Hormonal regulation of PGE2 and COX-2 production in rabbit uterine cervical fibroblasts.

Prostaglandins (PGs) cause uterine contraction to initiate labor at term. We investigated the effect of progesterone and 17beta-estradiol on the production of PGE2 in rabbit uterine cervical fibroblasts. When the cervical fibroblasts were treated with interleukin-1alpha (IL-1alpha), the level of PGE2 was augmented in a time- and dose-dependent manner. The IL-1alpha-augmented PGE2 level was almost completely suppressed by progesterone and 17beta-estradiol at the physiological concentration (0.01 microM), whereas a slight decrease in the basal level of PGE2 was observed in the cervical fibroblasts treated with both hormones at a pharmacological concentration (1 microM). In addition, the level of PGE2 augmented by IL-1alpha was due to the increase of cyclooxygenase (COX) activity, which was inhibited by progesterone and 17beta-estradiol as well as by indomethacin and a specific COX-2 inhibitor, NS-398, but not by the well-known COX-1 inhibitor, aspirin. Furthermore, progesterone and 17beta-estradiol suppressed the IL-1alpha-augmented COX-2 production but not the constitutive production of COX-1 in rabbit uterine cervical fibroblasts. These results suggest that progesterone and 17beta-estradiol prevent the initiation of labor by inhibiting PGE2 production after the suppression of COX-2 production during pregnancy in the rabbit.     

Effect of dehydroepiandrosterone sulfate on collagenase production in rabbit uterine cervix culture

Rabbit uterine cervical explants were found to produce a typical collagenase, latent form, in tissue culture, 4-Aminophenylmercuric acetate and trypsin were potent activators of the enzyme. The enzyme was purified simply in one step of CM-52 cellulose ion-exchange chromatography, and then further characterized. Addition of dehydroepiandrosterone sulfate (DHAS) to culture medium significantly stimulated collagenase production, but DHAS did not directly activate the enzyme. In addition, dehydroepiandrosterone and 17 beta-estradiol, the main metabolites of DHAS in vivo, depressed enzyme production. Our previous result, that increases in cytoplasmic DHAS-binding protein in rabbit uterine cervices parallel the progress of pregnancy, and these results suggest that DHAS might have direct actions toward cervical ripening.     

Purification of rabbit bone inhibitor of collagenase.

1. Rabbit bones in tissue culture synthesize an inhibitor of collagenase during the first 4 days of culture. 2. The inhibitor was purified by a combination of gel filtration, concanavalin A--Sepharose chromatography, ion-exchange chromatography and zinc-chelate affinity chromatography. 3. The purified inhibitor migrated as a single band on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and had a mol.wt. of 28000. 4. The inhibitor blocked the activity of the metalloproteinases collagenase, gelatinase, neutral proteinase III (proteoglycanase), human leucocyte collagenase and gelatinase, but not thermolysin or bacterial collagenase. The serine proteinases plasmin and trypsin were not inhibited. 5. The inhibitor interacted with purified rabbit bone collagenase with 1:1 stoichiometry. 6. The inhibitory activity was lost after incubation for 1 h at 90 degrees C, after treatment with trypsin (250 micrograms/ml) at 37 degrees C for 30 min and after reduction and alkylation.     

Human recombinant interleukin-1 alpha-mediated stimulation of procollagenase production and suppression of biosynthesis of tissue inhibitor of metalloproteinases in rabbit uterine cervical fibroblasts

Influence of human recombinant interleukin-1 (hrIL-1) on collagen metabolism was investigated with rabbit uterine cervical fibroblasts. Enzyme-linked immunosorbent assays for collagenase and tissue inhibitor of metalloproteinases (TIMP) indicated that hrIL-1 participates in both stimulation of procollagenase production and suppression of TIMP synthesis by uterine cervical cells. IL-1 did not modulate collagen synthesis. In addition, the sensitivity to IL-1 of uterine cervix from ovariectomized rabbits was augmented by estradiol-17 beta treatment. Thus it is proposed that IL-1 accelerates collagenolysis in the cervical tissue and its effect on uterine cervix is hormonally regulated.     

Coregulation of collagenase and collagenase inhibitor production by phorbol myristate acetate in human skin fibroblasts

Phorbol myristate acetate (PMA), a tumor promotor known to stimulate collagenase production in fibroblasts and endothelial cells, was examined with regard to its ability to regulate the expression of the collagenase inhibitor secreted by human skin fibroblasts. Confluent human skin fibroblasts were incubated with concentrations of PMA ranging from 10(-11) to 10(-7) M, and the conditioned medium was analyzed by enzyme-linked immunosorbent assay for both immunoreactive collagenase and collagenase inhibitor. PMA stimulated the production of both collagenase and collagenase inhibitor in several cell lines to maximal rates that were very similar, 300 to 350 vs 230 to 330 pmol 10 micrograms DNA-1 48 h-1, respectively. Due to differences in the basal levels of expression of these proteins, such rates reflected a two- to sevenfold stimulation in collagenase production, in comparison to a more uniform two- to threefold enhancement in inhibitor synthesis. Production of inhibitor was 50% of maximal at 7 X 10(-9) M and maximal at 10(-7) M phorbol. This concentration-dependent effect was very similar to that observed for collagenase expression. Total protein synthesis by the phorbol-conditioned cells, as studied by incorporation of [3H]leucine into newly synthesized protein, was not significantly increased, nor was cellular DNA content. The onset of the effect of PMA on inhibitor production occurred between 4 and 8 h, was maximal by 8 h, and continued undiminished for at least another 64 h. After the first 8 h, inhibitor production continued at a roughly constant rate of approximately 10 pmol 10 micrograms DNA-1 h-1. Interestingly, following the removal of phorbol from culture medium, such fibroblasts continued to produce increased quantities of inhibitor protein for at least 72 h. Metabolic labeling studies in which fibroblasts were exposed to [3H]leucine followed by immunoprecipitation using inhibitor-specific antibody suggested that stimulation of inhibitor production by PMA was mediated via an increased synthesis of new inhibitor protein. Therefore, in response to the tumor promoter, PMA collagenase and collagenase inhibitor expression by human skin fibroblasts appear to be coregulated.     

The interaction of purified rabbit bone collagenase with purified rabbit bone metalloproteinase inhibitor.

1. Pure rabbit bone metalloproteinase inhibitor (TIMP) bound tightly to pure rabbit bone collagenase with an apparent Kd of 1.4 X 10(-10) M. 2. The molecular weight of the enzyme-inhibitor complex was found to be 54 000, but no enzyme activity could be recovered from the complex after treatment with either mercurials or proteinases. The complex thus differed from latent collagenase in terms of size, susceptibility to mercurials and behaviour on concanavalin A-Sepharose. 3. The interaction of the purified components was compared with that of crude collagenase and crude inhibitor in culture medium. Mercurial treatment partially reversed the inhibition in the crude system, but not when the purified components were used. 4. The significance of the results is discussed in relation to the extracellular control of the activity of collagenase.     

Hormonal control of enzyme activity during the plasma membrane transformation of uterine epithelial cells

Ultrastructural and light microscopic catalytic histochemical methods were used to study the distribution and changes in distribution of four phosphatase enzymes; alkaline phosphatase, 5'-nucleotidase, thiamine pyrophosphatase and adenosine triphosphatase in uterine epithelial cells in response to the ovarian hormones, oestrogen, progesterone or a combination of both used in different regimes on ovariectomised rats. Reaction product for all four enzymes was clearly localised in the epithelial cells, especially with oestrogen priming. However, the four enzymes showed markedly different patterns of organisation of reaction product in response to other hormonal treatments.Our findings clearly show that the expression of these enzymes is under ovarian hormonal control. However, while all of the enzymes are upregulated by oestrogen, the response to progesterone is variable, which can upregulate or downregulate different enzymes. The findings are particularly obvious at the electron microscopic level on the apical plasma membrane of the uterine epithelial cells, which was the main focus of our study.     

Dehydroepiandrosterone sulfate stimulates collagenase synthesis without affecting the rates of collagen and noncollagen protein syntheses by rabbit uterine cervical fibroblasts

The effects of dehydroepiandrosterone 3-sulfate (DHAS) and 17 beta-estradiol (E2) on collagen and noncollagen protein syntheses by rabbit uterine cervical cells were studied, and their effects on latent collagenase synthesis were compared. DHAS (1 X 10(-6) M) stimulated the synthesis of latent collagenase and did not affect the cell number and [3H]thymidine incorporation into DNA, whereas E2 had no effect on collagenase synthesis. On the other hand, neither DHAS (1 X 10(-6) M) nor E2 (1 X 10(-10)-1 X 10(-6) M) showed effects on collagen and noncollagen protein syntheses. These results suggest that the stimulative effect of DHAS on cervical ripening is mediated mainly by the stimulation of collagen catabolism, and that E2 does not concern the changes in the concentration of collagen and noncollagen protein in uterine cervix of the rabbit during pregnancy at term.     

Regulation of collagenase production by steroids in uterine smooth muscle cells: An enzymatic and immunologic study

An enzyme-linked immunosorbent assay (ELISA) has been developed for rat collagenase. The assay is capable of measuring the enzyme from a variety of rat cell sources at concentrations of 10–;50 ng/ml, approximately 500–;1,000-fold more sensitive than radiolabelled collagen fibril assay systems. The assay is specific to collagenase from the rat: enzymes from human, tadpole, mouse, and bacterial sources failed to cross-react significantly with rat enzyme. The assay is reproducible and accurate, and is capable of detecting enzyme in the presence of serum or tissue inhibitors. Using the ELISA, we have examined the effect of a variety of hormones on the production of collagenase by rat myometrial smooth muscle cells in culture. Of all the reproductive hormones examined, only progesterone and its synthetic derivative medroxyprogesterone acetate were capable of inhibiting the production of the enzyme by these cells. The maximally effective concentration of progesterone was 1 x 10^?6M, and that of medroxyprogesterone acetate was 1 x 10^?7M. The effect of the steroid was selective: no effect on cell proliferation or on general protein synthesis was observed. In addition to the progestational steroids, the glucocorticoids were also capable of inhibiting the production of collagenase by the cells at similar nominal concentrations. However, the myometrial cells were found actively to metabolize progesterone but not hydrocortisone in culture. Thus, the effective inhibitory concentration of progesterone was approximately ten-fold lower than that of hydrocortisone. The results of this study support the concept that progesterone plays a major role in preventing the production of collagenase in the rat uterus.     

Identification and partial characterization of an inhibitor of collagenase from rabbit bone

Bone explants from foetal and newborn rabbits synthesize and release a collagenase inhibitor into culture media. Inhibitor production in the early days of culture is followed first by latent collagenase and subsequently active collagenase in the culture media. A reciprocal relationship exists between the amounts of free inhibitor and latent collagenase in culture media, suggesting strongly that the inhibitor is a component of the latent form of the enzyme. Over 90% of the inhibitory activity of culture media is associated with a fraction of apparent mol.wt. 30000 when determined by gel filtration on Ultrogel AcA 44. The inhibitor blocks the action of rabbit collagenase on both reconstituted collagen fibrils and collagen in solution. It inhibits the action of either active collagenase or latent collagenase activated by 4-aminophenylmercuric acetate. Latent collagenase activated by trypsin is usually much less susceptible to inhibition. The activity of the inhibitor is destroyed by heat, by incubation with either trypsin or chymotrypsin and by 4-aminophenylmercuric acetate. Collagenase activity can be recovered from complexes of enzyme (activated with 4-aminophenylmercuric acetate) with free inhibitor by incubation with either trypsin or 4-aminophenylmercuric acetate, at concentrations similar to those that activate latent collagenase from culture media. The rabbit bone inhibitor does not affect the activity of bacterial collagenase, but blocks the action of collagenases not only from a variety of rabbit tissues but also from other mammalian species.     

Hormonal growth control of cells in culture

Summary Serum is the last undefined component in cell culture media. Our results indicate that the primary role of serum is to provide hormones and that serum can be replaced by a group of hormones. A rat pituitary cell line, GH₃, can grow in serum-free medium if the medium is supplemented with 3,3′,5-triiodothyronine, TSH-releasing hormone, transferrin, parathyroid hormone, insulin and three isoelectric focusing fractions of blood meal. The blood-meal components can be replaced by fibroblast growth factor and somatomedin C. The growth rate of GH₃ cells in hormone-supplemented serum-free medium is equal to that in serum-supplemented medium, and subculture in such medium is also possible. These results indicate that the replacement of the serum component is complete in the GH₃ system. The hormonal requirements of GH₃ cells and those of HeLa and mouse melanoma, M2R, were compared. Two generalizations could be made: (a) All three cell lines require insulin and transferrin. (b) There is a requirement for a hormone which localizes in the nucleus for each cell line. These generalizations seem to hold true for most of the other cell lines for which the hormonal requirements have been partially worked out. Since insulin is one of the universally required hormones, its effects on GH₃, HeLa and M2R were compared. Insulin stimulates glycogen synthesis in all three cell lines and facilitates fatty-acid synthesis in GH₃ and M2R. However, there is a difference in the effect of insulin on growth among the three cell lines. Insulin is an absolute requirement for GH₃ cells without which the cells cannot survive, whereas this is not the case for HeLa and M2R. The most stringent requirement for HeLa cells is for hydrocortisone, and for M2R, it is for transferrin. These results indicate that even though the necessity for some hormones is common, the degree of requirement may vary from one cell line to another. Whether this difference reflects the difference in the primary mode of action of the hormone on each cell type needs further investigation. Presented in the Opening Symposium on Nutritional Factors and Differentiation at the 28th Annual Meeting of the Tissue Culture Association, New Orleans, Louisiana, June 6–9, 1977. This work was supported by NIH Grant GM 17019. J. Larner was supported by Josiah Macy Foundation     

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 control of pinocytosis in the uterine epithelium of the rat.

Ovariectomized rats were treated with oestradiol-17 beta and/or progesterone to mimic the hormonal parameters inducing uterine sensitivity for implantation. The degree of pinocytosis of trypan blue and ferritin in the endometrial cells was examined. Significant epithelial pinocytosis of trypan blue occurred after a 3-day treatment of progesterone, and uptake was independently increased by priming with oestrogen and by oestradiol given on the 3rd day of progesterone treatment. Progesterone treatment caused uptake of ferritin by the epithelial cells; in control animals epithelial and stromal cells were involved. Oestrogen priming enhanced ferritin absorption, while 'nidatory' oestrogen had no effect. Oestradiol given alone completely blocked pinocytosis of both intraluminally injected substances.     

Hormonal control of mRNA expression of immunoglobulin binding factor in uterine cervix

Uterine cervical mucus contains an immunoglobulin binding factor (IgBF). It may play a role in preventing antibody production against sperm in the female reproductive tract. To elucidate the mechanism involved in the production of activated IgBF, we determined the effects of hormones on the expression of mRNAs of IgBF and of protein disulfide isomerase (PDI), activating enzyme, in uterine cervix by quantitative RT-PCR. The uterine cervices of female rats were excised at preovulatory, ovulatory, and postovulatory phases. The human uterine cervical adenocarcinoma cells (TCO-2) were cultured for 24 h in serum-free medium containing 17beta-estradiol or progesterone. Expression of IgBF and PDI mRNAs was significantly highest during the ovulatory phase. 17beta-estradiol stimulated the expression of both mRNAs in TCO-2; whereas progesterone was ineffective. In conclusion, estrogen regulates the production of IgBF by the endocervix and PDI in vivo, thereby increasing the level of activated IgBF in the female reproductive tract during the ovulatory phase, allowing sperm to enter the uterine cavity.