Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Urogenital tissue specimens were maintained in culture for 2 years. Epithelioid growth was enhanced with use of collagenase digestion rather than trypsinization. Twenty of 34 prostate cancer cell cultures survived more than ten in vitro passages, during which time four of 20 demonstrated epithelioid morphology. One epithelioid line (T-157) survived 32 in vitro passages. The cells demonstrated lack of contact inhibition in culture, were slightly positive in acid phosphatase tests, and reacted positively with cytomegalovirus (CMV)-immune sera in indirect immunofluorescence (IF) tests. These cells, which were proven to be of human male origin, failed to yield infectious virus and could be re-isolated from a nodule induced by the cells when injected sc into weanling athymic nude mice. The serum of the patient from which the tumor cells were derived demonstrated high CMV antibody titers and reacted with the virus-specific membrane and intracellular antigens of CMV-transformed human cells in IF tests. A CMV strain isolated from one of the normal prostate cell cultures established an in vitro long-term persistent infection of human embryo lung cells which resulted in the development of two transformed cell lines. The transformed cells possessed CMV antigenic markers and induced non-differentiated tumors when transplanted into athymic nude mice. The results constitute further evidence of the transforming capacity of CMV, and suggest that the virus may be oncogenic in its natural (human) host.
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PMID:Cytomegalovirus and cancer of the prostate: in vitro transformation of human cells. 6 20

The influence of prednisolone, azathioprine, and azapropazone on the activity of collagen peptidase, acid phosphatase (complete), and the lactate dehydrogenase of granulation tissue was studied using a model of proliferative inflammation i.e. the cotton-granuloma in rats. The authors observed significant decreases in the activities of the collagen peptidase and acid phosphatase during treatment with prednisone and under combined treatment with azathioprine and azapropazone. In contrast, administration of either azathioprine or azapropazone by itself caused no changes in these enzyme activities as compared with a control group. These studies suggest that the last mentioned drugs potentiate each other in their inhibiting effect upon these enzyme activities. Whether or not these findings are of importance in the clinical treatment of chronic bacterial inflammations must be studied in further trials.
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PMID:[The potentiating effects of azathioprine and azapropazone on the enzyme activity in experimental inflammation]. 17 44

Two metabolically distinct types of bone cell populations were isolated from mouse calvaria by a repetitive digestive procedure with a mixture of collagenase and trypsin. Cells released early in the digestion showed approximately two-fold increases in cAMP when treated with either parathormone or calcitonin. These populations were denoted CT type. Later eluting cells showed larger parathormone-induced increases in cAMP but did not respond to calcitonin. These populations were denoted PT type. Six metabolic and enzymatic activites were measured in the two types of populations: acid and alkaline phosphatases, hyaluronate synthesis, citrate decarboxylation, prolyl hydroxylase, and general protein synthesis. Although each of these activites was present in both cell types, the basal levels of acid phosphatase and hyaluronate synthesis were higher in the CT cells, whereas alkaline phosphatase, citrate decarboxylation, and prolyl hydroxylase were higher in te PT cells. Parathormone stimulated acid phosphatase and hyaluronate synthesis by 100-200% only in the CT cells; in inhibited alkaline phosphatase, citrate decarboxylation, and prolyl hydroxylase by 75-90% only in the PT cells. Calcitonin alone had no effect on any of these activities other than cAMP production, but in inhibited the action of parathormone in the CT cells. The sensitivities, time courses of development,and magnitudes of these hormonal effects were similar to those observed previously in intact calvaria, indicating that the isolated cell system is a reliable model for the study of bone metabolism. Based on the metabolic responses of the cells, we postulate that the CT type of populations is enriched in osteoclasts and, possibly, osteocytes, and the PT type of population is enriched in osteoblasts.
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PMID:Biochemical characterization with parathormone and calcitonin of isolated bone cells: provisional identification of osteoclasts and osteoblasts. 18 58

In order to elucidate the cytochemical properties of the membranous structure between enamel and ameloblasts of the rat incisor at the maturation stage, chromic phosphotungstic acid (Cr-PTA) and periodic acid-silver methenamine (PA-silver) techniques for electron microscopy were employed in combination with a digestion test with hyaluronidase, neuraminidase, collagenase or trypsin. Also, acid phosphatase activity of ameloblasts at the maturation stage was examined with a modified GOMORI's metal salt method. An intensely Cr-PTA reactive band approximately 0.1 micron thick appeared along the surface layer of enamel at the transitional stage, and at the very beginning of the maturation stage another intensely Cr-PTA reactive band which was seen by uran-lead stain to be a delicate electron-dense membranous structure appeared as well between enamel and ameloblasts. A lot of cytoplasmic small vesicles or tubular structures, both intensely reactive to Cr-PTA, were observed near the apical membranes of the overlying ameloblasts indicating that those organelles must have been responsible for the secretion of the latter band. Acid phosphatase activity was clearly demonstrated at Cr-PTA reactive large vesicles in the cytoplasm of those cells. The PA-silver staining technique manifested a band heavily deposited with silver grains along the surface layer of enamel, i.e., where the former band existed, but showed no particular reaction at the latter, the band-like layer between enamel and ameloblasts. Hyaluronidase or neuraminidase treatment remarkably decreased the Cr-PTA reaction of the latter band. Trypsin or collagenase treatment, on the other hand, not only eliminated the Cr-PTA reaction but digested the band itself. These results suggest that the membranous structure between enamel and ameloblasts of a rat incisor is not so-called enamel cuticle but a basal lamina produced by overlying ameloblasts and that the basal lamina contains collagenous components even though it lies on enamel.
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PMID:Cytochemical studies of ameloblasts and the surface layer of enamel of the rat incisor at the maturation stage. 21 3

1. Both activities of hepatic collagenase and lysosomal enzymes (acid phosphatase, beta-glucuronidase and N-acetyl-beta-D-glucosaminidase) have been observed in the recovery from experimental hepatic fibrosis in rats treated with carbon tetrachloride for 6 to 20 weeks, and compared with the disappearance of newly formed collagen fibers in the recovery process. 2. In the process of experimental hepatic fibrosis, collagenase activity reached maximum on sethe accumulation of collagen fibers in reversible hepatic fibrosis, but decreased to the same level as that of non-treated rat liver in cirrhotic stage. In the reocvery from reversible hepatic fibrosis, collagenase activity reached maximum on second day after the discontinuation of carbon tetrachloride, and decreased to the same extent of that of non-treated rat liver on seventh day. 3. Lysosomal enzyme activity was parallel to the activity of hepatic collagenase and to the accumulation of collagen fibers in the process of hepatic fibrosis. In the recovery stage, lysosomal enzyme activity in mesenchymal cells within the septa increased markedly on second day after the discontinuation of toxic agent but turned to the same level of that of non-treated rat liver seven days later, which was consistent with the appearance and disappearance of collagenase activity. On the other hand the appearance of lysosomal enzymes activities in Kupffer cells and hepatocytes was different from that of collagenase activity. That is lysosomal enzyme activity in Kupffer cells decreased in early days but increased five days later, and the enzyme activity in hepatocytes markedly decreased but gradually recovered to normal level seven days later. 4. The appearance of collagenase was observed at the beginning of the recovery stage. It indicates that mammalian collagenase initiates the collagen degradation and lysosomal enzymes might have a role in the subsequent degradation of collagen.
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PMID:Different appearance of hepatic collagenase and lysosomal enzymes in recovery of experimental hepatic fibrosis. 22 Sep 94

Bone resorption is an important aspect of chronic otitis media contributing to many complications of this disease. It is postulated that the mechanism of this localized destructive process is chemical in origin. Collagenase, lysosomal enzymes, prostaglandins, and other cell mediators are thought to induce bone resorption, but the site of action and cellular origin of these substances remains unclear. In this report, we demonstrate the location and attempt to delineate the cellular origin of two enzymes, collagenase and the lysosomal enzyme acid phosphatase in guinea pig temporal bones and human ossicles from ears containing chronic otitis media. Tissue localization of these enzymes identifies sites of active bone resorption and demonstrates the cells initiating this process. Using immunohistochemical and immunocytochemical techniques, collagenase was seen surrounding mononuclear inflammatory cells of granulation tissue at bone resorbing margins and at the periphery of osteocyte lacunae adjacent to resorbing areas. Electron microscopic data suggests that collagenase is an extracellular enzyme foun at the periphery of osteocytes. In addition, abundant acid phosphatase activity was seen in the same cells that exhibited collagenase staining, lending credence to the destructive function of these cells. The chronic inflammatory reaction found in chronic otitis media appears to activate bone destruction through the dynamic activity of mononuclear inflammatory cells and stimulates bone cells to increase their destructive biochemical functions.
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PMID:Bone resorption in chronic otitis media. 22 14

Our investigation of normal, hyperplastic, and neoplastic prostatic tissue during the past 2 1/2 years has produced several findings which have been published or accepted for publication. (a) Cells from hamster prostates with intense histochemically demonstrable acid phosphatase activity (HDAP) after fixation with formaldehyde which we believe to be epithelial cells can be obtained in 97.2% +/- 0.8% purity by velocity sedimentation in a previously described isokinetic density gradient; (b) similarly, cells with HDAP, many of which contain lipofuscin granules, can be obtained as 81.0% +/- 12.2% of nucleated cells from hyperplastic human prostates and as 86.4% +/- 9.4% of nucleated cells from human prostatic carcinomas; (c) more cells were obtained from human hyperplastic prostates and prostates with prostatic carcinoma per gram of tissue with the aid of Pronase than were obtained with trypsin, collagenase, or mechanical methods; (d) more cells per gram of tissue were obtained from surgically removed prostates than from prostates obtained at even very rapid autopsies, and a much larger proportion of the cells from surgically removed prostates were viable as assessed both by dye exclusion and by plating efficiency; (e) none of several substrates and inhibitors which we tested were highly specific for acid phosphatase from purified prostatic epithelial cells compared with several other kinds of purified human cells; and (f) purified hamster prostatic epithelial cells incorporate large amounts of tritiated thymidine in 72-hour cultures.
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PMID:Separation and characterization of epithelial cells from prostates and prostatic carcinomas: a review. 87 27

Recent investigations have indicated that cytokines such as tumor necrosis factor-alpha (TNF-alpha) play a potential role in the bone resorption associated with inflammatory diseases. In this immunoperoxidase study, TNF-alpha was localized in mononuclear cells, macrophages, fibroblasts, osteoblasts, and osteoclasts adjacent to bone resorption areas in both human and experimental middle ear cholesteatomas. In vitro, TNF-alpha stimulated monocytes to form multinucleated cells that demonstrate tartrate-resistant acid phosphatase activity, a marker enzyme for osteoclasts. These multinucleated osteoclast-like cells induce resorption of devitalized bone. The extent of bone resorption was increased by the co-cultures of osteoblasts and osteoclasts in the presence of TNF-alpha, suggesting that cell to cell interaction plays a significant role in bone resorption. Moreover, TNF-alpha was capable of stimulating macrophages to produce acid phosphatase and collagenase, and osteoblasts to produce prostaglandin E2 and collagenase. These chemical mediators have been known to lead to bone resorption. Our findings suggest that TNF-alpha may play an important clinical role in the destructive process of cholesteatoma.
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PMID:The role of tumor necrosis factor-alpha in bone resorption of cholesteatoma. 165 Jan 49

During continuous culture with serial passage, the human osteosarcoma cell line SaOS-2 showed a time-dependent decrease in skeletal alkaline phosphatase (ALP) activity. Because this was indicative of heterogeneity, subpopulations of SaOS-2 cells were isolated from replicate low-density cultures. The subpopulations were less heterogeneous and more stable (with respect to ALP) than the parent population. ALP specific activity in the subpopulations ranged from 0.05 to 2.3 U/mg protein, and cytochemical analyses indicated multiple steady-state levels of ALP activity per cell. The amount of ALP activity in SaOS-2 subpopulations was proportional to collagen production ([3H]proline incorporation into collagenase-digestible protein; r = .84, P less than .005), and to parathyroid hormone (PTH)-linked synthesis of cyclic adenosine monophosphate (cAMP) (r = .88, P less than .01). From these data, we inferred that ALP activity in SaOS-2 cells can provide a useful index of the osteoblastic phenotype, and that ALP activity, collagen production, and PTH-linked adenylate cyclase were coordinately regulated in these osteoblast-like osteosarcoma cells (ie, selection of subpopulations for ALP activity coselected for collagen synthesis and PTH-linked synthesis of cAMP). Further comparative studies showed that micromolar fluoride concentrations stimulated cell proliferation ([3H]thymidine incorporation into DNA) in low-ALP SaOS-2 subpopulations, but not in high-ALP cells (P less than .001), and that this differential sensitivity to fluoride was associated with an inverse correlation between fluoride-sensitive acid phosphatase and ALP activities (r = -.91, P less than .001).
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PMID:Skeletal alkaline phosphatase specific activity is an index of the osteoblastic phenotype in subpopulations of the human osteosarcoma cell line SaOS-2. 165 38

Mediators released from injured human skin that initiate the inflammatory response have not been adequately identified. Organ culture of full-thickness skin explants enables us to do so, because injury to the skin can be made in vitro, eliminating the rapid leakage of serum and infiltration of leukocytes that occur in vivo. In our studies, the military vesicant sulfur mustard (SM) (10 microliters of a 0.01 to 1.0% dilution) was topically applied to injure the epidermis of the explant. Then, the explants were cultured in small Petri dishes, usually for 18 h at 36 degrees C, and the organ-culture fluids were assayed for various inflammatory mediators. We found that the culture fluids from SM-exposed and control explants contained similar amounts of angiotensin-converting enzyme, trypsin-like and chymotrypsin-like proteases, acid phosphatase, beta-glucuronidase, beta-galactosidase, lysozyme, deoxyribonuclease, ribonuclease, interleukin 1, and lactic dehydrogenase. However, the culture fluids from SM-exposed explants contained increased amounts of histamine and plasminogen-activating activity, and often prostaglandin E2, when compared to culture fluids from control explants. After 3 to 4 d in culture, full-thickness human skin explants, when exposed to 0.2% SM (but not when exposed to 1.0% SM), sometimes showed separation of the epidermis and increased collagenase activity (i.e., hydroxyproline release). Thus, histamine (from local mast cells), and prostaglandin E2 and plasminogen-activating activity (probably from both mast cells and epidermal cells) are apparently involved in early mediation of the inflammatory response.
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PMID:Mediators, initiating the inflammatory response, released in organ culture by full-thickness human skin explants exposed to the irritant, sulfur mustard. 171 Jun 39


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