‘Gelatinase-like’ activity from articular chondrocytes in monolayer culture

In addition to releasing collagenase and proteoglycanase activity, rabbit articular chondrocytes in monolayer culture released into the culture medium, latent, neutral enzyme activity which when activated by p-aminophenylmercuric acetate degraded fluorescein-labeled polymeric rat tail tendon Type I collagen and the tropocollagen TC_A and TC_B fragments of human Type II collagen into smaller peptides at 37°C. Enzyme activity was abolished if p-aminophenylmercuric acetate-activated culture medium was preincubated with 1,10-phenanthroline, a metal chelator. Thus, articular chondrocytes in monolayer culture are capable of producing neutral proteinases which acting together can result in complete degradation of tendon and cartilage collagen to small peptides.     

Collagenase, procollagenase and bone resorption. Effects of heparin, parathyroid hormone and calcitonin.

1. The addition of heparin to the culture fluid of mouse tibiae or calvaria did not cause any significant resorption of bone collagen or mineral. However, heparin (or analogue sulfated polyanions), enhanced greatly the amount of latent, trypsin-activatable collagenase (i.e. procollagenase) released by the bones in the medium without influencing that of directly active collagenase which was always very low. Heparin appeared to act by increasing the production of the enzyme which is immediately excreted. Procollagenase and collagenase are not stored in bone tissue, even under conditions where it is in active resorption. 2. Parathyroid hormone induced in the explants a resorption of both mineral and collagen that was inhibited by calcitonin. These hormones, however, had no influence on the release of procollagenase or collagenase either in the presence or in the absence of heparin. 3. Once activated, bone collagenase digested the collagen of the bone explants, and more extensively after their demineralization. Thus the latent collagenase that accumulates around non-resorbing bones has to be considered as a precursor, (and not as a residue), of active enzyme. 4. Active collagenase added to incipient cultures of bones disappeared with a half-life of 24 h. The lost enzyme could, however, not be reactivated by trypsin and thus was not transformed into latent procollagenase.     

Binding of latent rheumatoid synovial collagenase to collagen fibrils

Collagenase released from rheumatoid synivial cells in culture is in a latent form. Subsequently, it may be activated by limited proteolysis. This study was designed to determine whether latent enzyme could bind to collagen fibrils and await activation. The data showed that latent collagenase bound to fibrils equally well at 24°C and 37°C, but that this represented little more than half the binding achieved by active enzyme at temperatures lower than that at which fibril can be degraded. Binding was not inhibited by the presence of α₂ macroglobulin, the principal proteinase inhibitor of plasma which cannot complex with inactive or latent collagenase but readily complexes with active species of enzyme. The data support the hypotheses that inactive forms of collagenase accumulate in tissues by binding the substrate, and that activation by proteases such as plasmin intiates collagen breakdown.     

Purification of rheumatoid synovial collagenase and its action on soluble and insoluble collagen.

1. The neutral collagenase released into the culture medium by explants of ehrumatoid synovial tissue has been purified by ultrafiltration and column chromatography, utilising Sephadex G-200, Sephadex QAE A-50 and Sephadex G-100 superfine. 2. The final collagenase preparation had a specific activity against thermally reconstituted collagen fibrils of 312 mug collagen degraded min-1 mg enzyme protein-1, representing more than a 1000-fold increase over that of the active culture medium. 3. Electrophoresis in polyacrylamide disc-gels with and without sodium dodecyl sulphate showed the enzyme to migrate as a single protein band. Elution experiments from polyacrylamide gels and chromatography columns have provided no evidence for the existence of more than one collagenase. 4. The molecular weight of the enzyme, as determined by dodecylsulphate-polyacrylamide gel electrophoresis, was 33000. 5. Data obtained from sutdies with the ion-exchange resin and from gel electrophoresis in acid and alkaline buffer systems suggested a basically charged enzyme. 6. It did not hydrolyse the synthetic collagen peptide Pz-Pro-Leu-Gly-Pro-D-Arg and non-specific protease activity was absent. 7. The collagenase attacked undenatured collagen in solution at 25 degrees C resulting in a 58% loss of viscosity and producing the two characteristic products TCA(3/4) and TCB(1/4). 8. At 37 degrees C and pH 8.0 both reconstituted collagen fibrils and gelatin were degraded to peptides of less than 10000 molecular weight. 9. As judged by the release of soluble hydroxyproline peptides and electron microscopic appearances the enzyme degraded human insoluble collagens derived from tendon and soft juxta-articular tissues although rates of attack were less than with reconstituted fibrils. 10. The data suggests that pure rheumatoid synovial collagenase at 37 degrees C and neutral pH can degrade gelatin, reconstituted fibrils and insoluble collagens without the intervention of non-specific proteases. 11. The different susceptibilities of various collagenous substrates to collagenase attack are discussed.     

Collagenase activity in cultures of rat prostate carcinoma.

A specific collagenase (EC 3.4.24.3) has been found and purified from serum-free culture medium of 11095 epidermoid carcinoma of rat prostate. The molecular weight of this collagenase was estimated at 71 000 and the pH optimum was approx. 7. At 26 degrees C, the collagenase cleaved collagen at a site 3/4 the length from the N-terminus. At 37 degrees C, this collagenase degraded collagen to smaller peptides. The enzyme activity was inhibited by serum, cysteine and EDTA, but not by protease inhibitors. The presence of collagenase in rat tumor tissue suggests that this enzyme might play a significant role in tissue invasion by cancer cells.     

Temperature-sensitive loss of tumor characteristics in a tobacco crown gall strain

Summary Three independently isolated tobacco crown gall strains incited byAgrobacterium tumefaciens C58 required phytohormone (auxin and cytokinin) supplements in the basal medium to grow, at 37°C. Six other tobacco crown gall strains incited, respectively, byA. tumefaciens IIBV7, B6, CGIC, A6NC, 27 and AT4 expressed, at 37°C, the tumor characteristic of ability to grow in vitro on medium lacking phytohormones. Nopaline was not detectable in C58 tumors cultured at 37°C, but octopine was produced by B6 tumor tissues incibated at the elevated temperature. C58 tumor strains kept at 37°C for 1 week or more lost the ability to express tumor characteristics at 27°C such as tissue morphology, growth on basal medium lacking phytohormones and nopaline production. Heat-treated C58 tissues also differed from the original tumor strain in regeneration ability and phytohormone requirements of explants; i.e. explants from regenerated, heart-treated C58 tumors required both auxin and cytokinin for growth in vitro.     

Purification, characterization and inhibition of human skin collagenase

1. The neutral collagenase released into the culture medium by explants of human skin tissue was purified by ultrafiltration and column chromatography. The final enzyme preparation had a specific activity against thermally reconstituted collagen fibrils of 32mug of collagen degraded/min per mg of enzyme protein, representing a 266-fold increase over that of the culture medium. Electrophoresis in polyacrylamide disc gels showed it to migrate as a single protein band from which enzyme activity could be eluted. Chromatographic and polyacrylamide-gel-elution experiments provided no evidence for the existence of more than one active collagenase. 2. The molecular weight of the enzyme estimated from gel filtration and sodium dodecyl sulphate/polyacrylamide-gel electrophoresis was approx. 60000. The purified collagenase, having a pH optimum of 7.5-8.5, did not hydrolyse the synthetic collagen peptide 4-phenylazobenzyloxycarbonyl-Pro-Leu-Gly-Pro-d-Arg-OH and had no non-specific proteinase activity when examined against non-collagenous proteins. 3. It attacked undenatured collagen in solution at 25 degrees C, producing the two characteristic products TC(A)((3/4)) and TC(B)((1/4)). Collagen types I, II and III were all cleaved in a similar manner by the enzyme at 25 degrees C, but under similar conditions basement-membrane collagen appeared not to be susceptible to collagenase attack. At 37 degrees C the enzyme attacked gelatin, producing initially three-quarter and one-quarter fragments of the alpha-chains, which were degraded further at a lower rate. As judged by the release of soluble hydroxyproline peptides and electron microscopy, the purified enzyme degraded insoluble collagen derived from human skin at 37 degrees C, but at a rate much lower than that for reconstituted collagen fibrils. 4. Inhibition of the skin collagenase was obtained with EDTA, 1,10-phenanthroline, cysteine, dithiothreitol and sodium aurothiomaleate. Cartilage proteoglycans did not inhibit the enzyme. The serum proteins alpha(2)-macroglobulin and beta(1)-anti-collagenase both inhibited the enzyme, but alpha(1)-anti-trypsin did not. 5. The physicochemical and enzymic properties of the skin enzyme are discussed in relation to those of other human collagenases.     

Wound healing in tadpole tailfin pieces in vitro.

Explants of tail fins from R. catesbeiana tadpoles undergo reepithelialization of their cut surfaces (healing) when cultured in vitro in Hanks' balanced salt solution at 22 degrees C. Healing is initiated early and closure of the wound is complete by 12 to 24 hours. Morphogenesis continues for several days as further reorganization and migration of epidermal cells from the regions adjacent to the wound margins take place. The addition of serum to the culture media improves the general appearance of these tissues and promotes healing. The rate of healing is affected by temperature. Tail fins maintained at 10 degrees C do not heal while fins maintained at 30 degrees and 37 degrees, although healing more rapidly than at 22 degrees, undergo progressive degeneration in culture. Epidermal cell movements were also studied in explants consisting of a combination of intact tail fin plus tail fin deprived of its epithelium. Rapid and extensive migration of epidermal cells from the intact tail fin across the collagen lamella of the stripped fin is observed.     

Long-term in vitro cultivation of Plasmodium berghei

Long-term in vitro culture of Plasmodium berghei was established using the Petri dish candle jar method of Trager and Jensen (1976). Cultures were established at 22, 27 and 37°C. As optimal growth was observed at 27°C, subsequent cultivation was carried out at this temperature. RPMI 1640 medium was modified by incorporating additional glucose (1 mg ml⁻¹) and bactopeptone (1 mg ml⁻¹) in the medium. This medium was found suitable for maintenance of mouse erythrocytes in vitro. P. berghei cultures were maintained using candle jars and this modified RPMI 1640 medium for 45 weeks.     

The effect of incubation temperature on the maintenance of rat palatal mucosa in organ culture

Summary The effect of incubation temperature on the behavior of neonatal rat palatal mucosa maintained in a chemically defined medium in organ culture for periods up to 7 days was investigated. Explant survival was optimal at 37°C with increasing mortality at temperatures of 34°C and 30°C. There was a transient increase in the epithelial mitotic activity at all temperatures, but at all time intervals mitotic activity was greatest at 37°C. While the mitotic activity at 37°C after 5 hr in vitro was comparable with previously described in vivo values, it was subsequently increased, only returning to values approximating those at the start of the experiment at 6 days. At 30° and 34° C the epithelial mitotic activity increased more slowly than at 37° C; then it followed a similar pattern with time and after 5 days in vitro had fallen to values approximating initial values. At the cut edges of the explants, the rate of epithelial migration and subsequent keratinization increased with increasing temperature. It is suggested that survival of neonatal rat palatal mucosa is optimal in this organ culture system when maintained at 37° C. This work forms part of a thesis submitted to the University of London for the degree of Doctor of Philosophy by M. W. H.     

Gold sodium thiomalate activates latent human leukocyte collagenase

Gold sodium thiomalate, a drug used widely in the therapy of rheumatoid arthritis, was found to be an activator of latent human polymorphonuclear leukocyte collagenase. The activation was demonstrated by two distinct and independent collagenase assays: (i) by recording with a spectrophotometer at 227 nm the enzyme-induced increase in ultraviolet difference absorbance of native type I collagen connected to the cleavage of collagen at 37°C[(1986) Eur. J. Biochem. 156, 1-4] and (ii) by SDS-polyacrylamide gel electrophoresis analysis of formation of specific products of collagen resulting from collagenase cleavage at 25°C. Activation of latent collagenase by gold sodium thiomalate appeared to be of the same magnitude as by the known activator phenylmercuric chloride.     

A modified collagenase assay method based on the use of p-dioxane.

Radioactive collagen synthesized by human skin fibroblasts in monolayer culture was used as a substrate for collagenase. The high specific activity of this substrate (75,000 cpm/μg) and the use of p-dioxane as a precipitant of the undigested collagen permit this enzyme to be assayed with collagen in solution at 35°C and pH 7.5. The dilutions used are sufficient to prevent the collagen molecules from aggregating, thus precluding the use of inhibitors of gel formation which tend to decrease the activity of the enzyme. Using a 1-h incubation, the procedure is reproducible (SD ± 2.3%) and linear over the range from 10 to 100 ng of bacterial collagenase. Vertebrate collagenase activity is also easily measured with this method.     

Preparation, properties, and uses of two fluorogenic substrates for the detection of 5'-(venom) and 3'-(spleen) nucleotide phosphodiesterases

A new method for ³H-labeling of native collagen and a specific microassay for collagenase activity are presented. Acid-soluble type I collagen derived from rat tail tendons was reacted with pyridoxal phosphate and then reduced with NaB³H₄ to yield [³H]collagen with a specific activity of more than 10 μCi/mg. With respect to rate of hydrolysis, trypsin susceptibility, and gelling properties this collagen compares favorably with biosynthetically labeled preparations. It was shown that chemical labeling procedures such as this, or N-acetylation with acetic anhydride, do not adversely affect properties of collagen which are important for its use as substrate in specific assays. The microassay employs 50-μl [³H]collagen gels (1 mg/ml) dispensed in microtest plates. At 36°C this assay combines rapid rate of hydrolysis with low trypsin susceptibility. As little as 1 ng of clostridial collagenase activity can be measured reproducibly. The high specific activity of the [³H]collagen allowed us to explore microassay conditions employing minute quantities of substrate in solution. These studies indicated that native type I collagen whether labeled or not, is cleaved in the helical region by trypsin at subdenaturation temperatures. It was concluded that, in order to remain specific, collagenase assays with collagen in solution as with collagen in fibrils must be performed at 10–12°C below the denaturation temperature, i.e., at 35–37°C with collagen gels and 27–29°C with collagen in solution.     

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.     

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.     

Characterization of the metalloproteinase inhibitor produced by bovine articular chondrocyte cultures

Primary cultures of bovine articular chondrocytes release a latent metalloproteinase which is activated by incubation with organomercurials to degrade proteoglycans. All the enzyme present in the culture medium is latent and binds to columns of heparin-Sepharose. The yield of activity from the heparin-Sepharose columns (measured after organomercurial treatment) is approximately 300–1000% depending on the chondrocyte culture batch. Recombination of column fractions shows that the increase in activity is due to the separation of an inhibitor of the metalloproteinase by the chromatographic step. The metalloproteinase inhibitor has a molecular weight of approximately 35 000 (determined by Bio-Gel P-60 chromatography) and binds reversibly to columns of concavalin A-Sepharose. It is relatively heat stable (30 min at 60°C) and resistant to inactivation by trypsin (2 h, 37°C, 10 μg/ml trypsin). The inhibitor is active against rat uterine collagenase and gelatinase but does not affect bacterial metalloproteinases such as thermolysin and Clostridium histolyticum collagenase.     

Relaxin's induction of metalloproteinases is associated with the loss of collagen and glycosaminoglycans in synovial joint fibrocartilaginous explants

Diseases of specific fibrocartilaginous joints are especially common in women of reproductive age, suggesting that female hormones contribute to their etiopathogenesis. Previously, we showed that relaxin dose-dependently induces matrix metalloproteinase (MMP) expression in isolated joint fibrocartilaginous cells. Here we determined the effects of relaxin with or without β-estradiol on the modulation of MMPs in joint fibrocartilaginous explants, and assessed the contribution of these proteinases to the loss of collagen and glycosaminoglycan (GAG) in this tissue. Fibrocartilaginous discs from temporomandibular joints of female rabbits were cultured in medium alone or in medium containing relaxin (0.1 ng/ml) or β-estradiol (20 ng/ml) or relaxin plus β-estradiol. Additional experiments were done in the presence of the MMP inhibitor GM6001 or its control analog. After 48 hours of culture, the medium was assayed for MMPs and the discs were analyzed for collagen and GAG concentrations. Relaxin and β-estradiol plus relaxin induced the MMPs collagenase-1 and stromelysin-1 in fibrocartilaginous explants – a finding similar to that which we observed in pubic symphysis fibrocartilage, but not in articular cartilage explants. The induction of these proteinases by relaxin or β-estradiol plus relaxin was accompanied by a loss of GAGs and collagen in joint fibrocartilage. None of the hormone treatments altered the synthesis of GAGs, suggesting that the loss of this matrix molecule probably resulted from increased matrix degradation. Indeed, fibrocartilaginous explants cultured in the presence of GM6001 showed an inhibition of relaxin-induced and β-estradiol plus relaxin-induced collagenase and stromelysin activities to control baseline levels that were accompanied by the maintenance of collagen or GAG content at control levels. These findings show for the first time that relaxin has degradative effects on non-reproductive synovial joint fibrocartilaginous tissue and provide evidence for a link between relaxin, MMPs, and matrix degradation.     

Muscle and cartilage differentiation in axolotl limb regeneration blastema cultures

A tissue culture system is described for explants of mesenchyme from Ambystoma mexicanum limb regeneration blastemas. Explants were cultured on collagen substrate for 3 weeks in minimal essential medium supplemented with the hormones insulin, thyroxine, somatotropin, and hydrocortisone, plus beef embryo extract (EE), 2%. This medium supported extensive cell migration onto the substrate followed by cell proliferation and differentiation of both cartilage matrix and myotubes. Cultures on plastic substrate, rather than on collagen, displayed similar cell outgrowth and cartilage formation, but relatively little myotube formation. Differentiation in EE-supplemented medium was compared with that in two defined media: Explants in medium containing only the hormones showed little outgrowth or cartilage development and never formed myotubes; medium containing the hormones plus fibroblast growth factor, 50 ng/ml, supported an intermediate degree of outgrowth and cartilage development and occasional myotube formation. Explant size was also a factor: Smaller explants survived and formed myotubes less frequently, even when on collagen in EE-supplemented medium.     

Use of trout serum to prepare primary attached monolayer cultures of hepatocytes from rainbow trout (Salmo gairdneri)

Summary The influence of trout serum on the attachment and spreading of isolated trout hepatocytes maintained in primary culture at different temperatures was evaluated. Hepatocytes were obtained from young rainbow trout (Salmo gairdneri) by collagenase dissociation and maintained in modified Leibowitz L15 medium at 10° or 27° C for 24 h in plastic dishes previously coated with type I bovine collagen. In the absence of serum, fewer than 10% of hepatocytes attached and none of them spread on the collagen substrate. Trout serum at concentrations as low as 1.25% in the medium resulted in a pronounced concentration-dependent increase in hepatocyte attachment, as determined by direct counts by phase contrast microscopy, or by percentage of lactate dehydrogenase activity attached to the dishes after washing away unattached cells. Attachment rates were greater at the lower temperature (10° C). Trout serum also substantially increased the proportion of attached hepatocytes that spread as monolayers on the collagen substrate, especially at 10° C. By comparison, fetal bovine serum had little influence on the attachment or spreading of trout hepatocytes. These studies demonstrate a simple inexpensive method for preparing attached monolayer trout hepatocyte cultures. This procedure may be useful in toxicologic or functional studies in which fish hepatocyte attachment is an operational requirement.