Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of this study was to describe the normal distribution of calcitonin gene-related peptide (CGRP) and substance P (SP) containing fibres in the knee joint of the mouse and to obtain insight into the changes in innervation associated with degenerative processes in the joint. Arthrosis was induced by a single subpatellar intra-articular injection of bacterial collagenase. After decalcification in EDTA solutions, the CGRP and SP fibres were visualized by peroxidase-antiperoxidase pre-embedding immunocytochemistry for light microscopy. Control experiments on the mouse brain as a reference for the effect of EDTA on the immunostaining showed that the decalcification procedure with EDTA had not impaired the immunostaining. A rich innervation of thin varicose CGRP and SP immunoreactive fibres was found in most peri- and intra-articular tissue components. The periosteum, synovial tissues, the joint capsule and the intra-articular fat tissues were richly innervated. Less intense innervations were also found in the subchondral bone plates of the tibio-femoral joint and of the patella. Fibres were also found in the soft tissues between the patellar tendon and the femoral groove. No differences could be found between the location of CGRP and SP fibres with respect to the localization in the joint, but generally more CGRP fibres were found. The collagenase-induced osteoarthrosis was characterized by sclerosis of the subchondral bone, patellar dislocation, osteophyte formation, synovial proliferation and by severe cartilage abrasion, particularly on the medial side of the femoro-tibial joint. The overall distribution of CGRP and SP fibres was the same as in the control joints. However, major differences were found in all studied joints at specific locations around the cruciate ligaments, in the synovium around the patella, in the soft tissues lateral of the patella and in plica tissue between the patella and femoral groove. The CGRP and SP innervation was no longer detectable by immunolabelling with the antibodies. With a polyclonal antibody to the growth associated protein GAP-43/B-50, signs of degenerated axonal profiles were observed in these locations. At other peripheral locations, such as the muscles, the GAP-43/B-50 distribution was normal. In conclusion, the present study provides detailed information on the localization of CGRP and SP fibres, which may be involved in pain perception. Knowledge of the changes that occur during arthrosis may give more insight into the clinical symptoms.
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PMID:Calcitonin gene-related peptide, substance P and GAP-43/B-50 immunoreactivity in the normal and arthrotic knee joint of the mouse. 128 63

In a series of four studies, adult female Swiss-Webster mice were used to measure the effects of salmon calcitonin on two biochemical indices of local and systematic bone formation: (1) skeletal alkaline phosphatase activity--in serum and in extracts of calvaria and tibiae, and (2) calvarial collagenase-digestible protein synthesis--measured, acutely, in vitro. Subcutaneous calcitonin doses ranged from 50 to 400 mU/mouse/day (0.95-18.1 U/kg/day), and treatment schedules were continuous (daily) for 2-14 days, acute, or intermittent (2 days/week for 6 weeks). The effects of calcitonin on these bone formation indices (skeletal alkaline phosphatase and collagenase-digestible protein synthesis) were biphasic with respect to dose and treatment time, being increased in response to short-term, low-dose treatment, but not long-term, continuous treatment. The effects of long-term intermittent calcitonin treatment were dose-dependent increases in skeletal alkaline phosphatase in calvaria and serum (r = 0.948, P less than 0.02, and r = 0.960, P less than 0.01, respectively).
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PMID:Two biochemical indices of mouse bone formation are increased, in vivo, in response to calcitonin. 131 Aug 83

Transforming growth factor-beta (TGF beta) produced by osteoblasts is present in high levels in bone and influences bone formation, replication of bone cells, and expression of osteoblast protein products. Interactions between bone active hormones and locally released and activated TGF beta were studied by examining the influence of TGF beta preincubation on PTH, calcitonin (CT), and vitamin D receptors in an osteoblastic cell line (UMR 106-06). Preincubation of UMR 106-06 cells with 1 ng/ml TGF beta for 3 days increased specific binding of [125I]PTH-related protein (PTHrP)(1-84) to 140% of that in control cells, but [125I]salmon CT binding decreased to 50% of controls. Binding isotherms indicated that the changes in binding were due to altered receptor numbers since affinities for 125I-labeled PTH and CT remained unchanged. The effect on receptor levels was time dependent, requiring 24 h preincubation with TGF beta for measurable changes, and dose dependent, with maximal effects seen with 1 ng/ml TGF beta. Binding of [3H]1,25(OH)2 vitamin D3 was increased to 130% of control in cytosolic extracts of UMR 106-06 cells pretreated for 3 days with 1 ng/ml TGF beta. Scatchard plots suggested an increase in receptor number without change in affinity. The adenylate cyclase response to PTH increased to 150% of control cells after 3 days of treatment with 1 ng/ml TGF beta; however, the adenylate cyclase response to CT was little changed. Forskolin- and cholera toxin-stimulated adenylate cyclase responses were increased by TGF beta treatment to 130-160% of control, indicating an increase in the stimulatory subunit of the G protein. Increased abundance of both Gs and Gi proteins were indicated by increased cholera toxin- or pertussis toxin-dependent [32P] NAD ribosylation of 47-kilodalton (kDa) and 42-kDa or 40-kDa proteins, respectively, in TGF beta-treated cells. Our data support a complex regulatory effect of TGF beta on UMR 106-06 cells with increases in PTH receptors, vitamin D receptors, and G proteins, whereas there is an apparent down-regulation of CT receptors. TGF beta might induce a more differentiated osteoblast phenotype of these cells, which already express differentiated features such as high alkaline phosphatase activity, PTH and vitamin D receptors, and collagenase production. Since low doses of PTH stimulate bone formation in vivo, TGF beta released or activated at sites of new bone formation might locally modulate PTH activity be allowing increased PTH receptor and postreceptor effectiveness.
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PMID:Transforming growth factor-beta modulates receptor binding of calciotropic hormones and G protein-mediated adenylate cyclase responses in osteoblast-like cells. 132 61

PTH stimulates mammalian renal proximal tubule cell synthesis and secretion of 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3] by a Ca-dependent process. In the present study regulation of 1,25-(OH)2D3 secretion by PTH, phorbol ester 12-O-tetradecanoylphorbol 13-acetate, the Ca ionophore A23187, and calcitonin was evaluated in perifused rat proximal tubule cells isolated by collagenase digestion and centrifugation through Percoll. Tubules from rats fed a low Ca diet secreted 1,25-(OH)2D3 at a rate 2.5 times that of tubule cells from rats fed a normal Ca diet. Perifusion of tubules with human PTH-(1-34) (10(-7) M) induced an immediate and sustained increase in 1,25-(OH)2D3 secretion. Perifusion with either A23187 or 12-O-tetradecanoylphorbol 13-acetate caused transient increases in hormone secretion, while both agents perifused simultaneously resulted in a sustained increase in 1,25-(OH)2D3 secretion. Perifusion of tubule cells with the protein kinase-C (PKC) inhibitor staurosporine blocked the PTH-induced increase in 1,25-(OH)2D3 secretion. Calcitonin had no effect on 1,25-(OH)2D3 secretion rates. The results of the present studies show that an activator of PKC increases 1,25-(OH)2D3 secretion by mammalian proximal tubule cells and suggest that the phospholipase-C/PKC signalling system may mediate PTH stimulation of 1,25-(OH)2D3 secretion.
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PMID:Evidence that activation of protein kinase-C can stimulate 1,25-dihydroxyvitamin D3 secretion by rat proximal tubules. 132 62

The ability of low-dose tetracyclines to inhibit collagenase activity and inactivate osteoclasts suggests that these compounds have great potential as a prophylaxis for metabolic bone disease. However, the cellular mechanism by which tetracyclines interact with skeletal tissue is not yet clear. To better understand the effects of tetracyclines on bone metabolism, we examined their effect on osteoclast activity in vitro. Because tetracyclines can enter the cell and bind calcium and have been reported to directly interact with osteoclasts, we postulated that exposure to either of two tetracyclines, minocycline or doxycycline, would alter cytosolic Ca2+ regulation in rat osteoclasts. [Ca2+]i was measured in single rat osteoclasts utilizing fura-2. Addition of extracellular Ca2+ (5 mM CaCl2), a potent osteoclast inhibitor, increased [Ca2+]i in all osteoclasts, but 10(-6) M salmon calcitonin (sCT) did so only in a subpopulation of osteoclasts. Neither minocycline nor doxycycline (10 micrograms/ml) altered steady-state osteoclast [Ca2+]i. Further, neither minocycline nor doxycycline pretreatment affected the sCT-mediated increases in [Ca2+]i. However, tetracycline pretreatment significantly decreased the cytosolic Ca2+ response to extracellular CaCl2. Our results strongly suggest that tetracyclines have a specific effect on extracellular Ca(2+)-stimulated cytosolic Ca2+ mobilization in osteoclasts, which is not solely dependent on their ability to buffer Ca2+. Furthermore, these results point to the potential use of tetracyclines as probes to study cytosolic Ca2+ regulation. However, that tetracyclines attenuate a signal response associated with decreased osteoclastic resorption suggests that the reported antiresorptive attributes of tetracyclines must be achieved independently of an effect on osteoclastic cytosolic Ca2+.
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PMID:Regulation of cytoplasmic calcium concentration in tetracycline-treated osteoclasts. 146 56

A method for isolation of C-cells from rat fetuses was developed, and the morphological plasticity of the cells in primary culture systems was tested. Thyroid-parathyroid-ultimobranchial body (UB) complexes from 16-day rat fetuses were treated with 0.1% collagenase and 1000 PU/ml Dispase at 37 degrees C for 1 h. After dissociation by pipetting, UBs were obtained as remaining cell aggregates with diameters of 150-200 microns. The isolated UBs were cultured on untreated, fibronectin-coated, or laminin-coated substratum in Dulbecco's modified Eagle's medium/Ham's nutrient mixture F-12 (1:1) supplemented with 5% fetal calf serum. In some experiments, the medium was changed to serum-free medium after 24 h of incubation, until the UBs had formed cell sheets. At Day 4 in vitro, the cultures were subjected to immunostaining using anti-calcitonin antiserum. On untreated or fibronectin-coated substratum, most of the C-cells exhibited polygonal or ovoid shapes, and 5-8% of them were found to project processes. On laminin-coated substratum, the ratio of process-bearing C-cells to total C-cells was 23% in serum-supplemented medium and 51% in serum-free medium. The longest processes reached 150 microns in length. The processes were intensely reactive with anti-alpha-tubulin antibody and were completely disintegrated by colcemid, suggesting that the microtubule cytoskeleton participated in the maintenance of the processes. Thus it was demonstrated that fetal rat C-cells are still responsive to environmental signals, such as laminin, and extend neuritic processes.
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PMID:Laminin-induced process outgrowth from isolated fetal rat C-cells. 172 30

Hexoprenaline, a beta-adrenergic agonist of clinical importance in preventing preterm labor, and the calcitonin gene-related peptide (CGRP) that is known to have receptors in the plasmalemma of myometrial cells were investigated to ascertain whether in human myometrium K+(Ca++)channels are involved in the relaxant mechanism. Small sections from the fundus and the corpus of vaginal-dissected uteri were isolated under limitation of the operation collective (age of women 35-50 years). Strips of 1-cm length were cut for isometric measurement of contraction. After an equilibration of 60 min under 10 mN tension at 37 degrees C, spontaneous activity occurred and experiments were performed. By enzymatic disaggregation with papain and collagenase single cells were isolated. Electrophysiological experiments were performed using the patch-clamp technique in the cell-attached and excised inside-out configurations. We observed K+ channels with a conductance of 158 pS between -20 and 20 mV in [K+]o/[K+]i of 5.4/140 mM with a reversal potential at about -70 mV. The channel was sensitive to the free calcium concentration on the cytoplasmic side and open probability (Po) increased with membrane depolarization. 0.5 mM ATP facing the cytoplasmic side of the patches (at 40 mV depolarization and pCa of 6) showed no inhibition. Hexoprenaline and CGRP both increased the Po of the K+ (Ca++)channels in the cell-attached mode at steady-state kinetics. Forskolin failed to be an activator of K+ (Ca++)channels. In isometric measurements of human myometrial strips spontaneous activity is suppressed by hexoprenaline 10(-5) M and CGRP 10(-7) M, but these effects are antagonized by 2 mM TEA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Potassium channels and modulating factors of channel functions in the human myometrium. 179 17

Proteolytic enzymes acting at physiologic pH (neutral proteases) are involved in both the formation and modeling of new bone and the remodeling of mature bone. In endochondral ossification systems such as growth-plate calcification, fracture healing, osteophyte formation, and demineralized bone matrix-induced osteogenesis, neutral proteases are predominantly involved in modifying proteins and proteoglycans in the extracellular matrix in preparation for calcification. These enzymes are of low molecular weight (below 30,000 Mr), are poorly charged, metal ion dependent, and appear to become active only after being released from chondrocytes. These neutral proteases may be distributed to the extracellular matrix in association with matrix vesicles that are derived from chondrocyte plasma membranes. A similar mechanism of calcification may also exist during malignant osteogenesis in an osteosarcoma; however, the cell producing the neutral protease in this lesion is the osteoblast and the matrix being synthesized is osteoid. In remodeling bone, osteoblasts secrete neutral collagenase (as an inactive enzyme) and produce not only additional proteases capable of activating the collagenase but also a collagenase inhibitor. Osteoblast collagenase or neutral protease may act to remove unmineralized osteoid from bone surfaces, thus facilitating its subsequent degradation by osteoclasts. The production of all these factors by osteoblasts appears to be regulated by calciotropic hormones (e.g., parathyroid hormone, 1,25-dihydroxyvitamin D, and calcitonin), possibly in a concerted fashion. Other possible functions of neutral proteases involve direct actions on cells or on specific molecules (growth factors) residing in the extracellular matrix.
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PMID:Neutral proteases in regenerating bone. 184 59

Human calcitonin gene-related peptide (hCGRP-1) and human amylin (hA) have been reported to increase hepatic glucose output in vivo and to bind with high affinity to rat liver plasma membranes, resulting in increased cAMP production. These observations have led to the hypothesis that CGRP or amylin may be physiological regulators of liver glucose metabolism. Liver plasma membranes are derived from several cell types, including parenchymal (hepatocyte), Kupffer, endothelial, lipid storage, and smooth muscle cells. Because the parenchymal cell is responsible for the contribution of the liver to whole-body glucose homeostasis, it is important to verify the location and activity of the CGRP/amylin receptor to this cell. These studies separate liver cells prepared by collagenase digestion into parenchymal and nonparenchymal fractions by metrizamide gradient and differential centrifugation. 125I-labeled [Tyr-0]hCGRP-1 bound with high affinity to nonparenchymal cell fraction and was displaced by both hCGRP-1 and hA. hCGRP-1 bound with greater affinity than hA (Kd = 2.1 +/- 1.6 x 10(-11) vs. 2.6 +/- 1.2 x 10(-8) M) in a manner similar to the binding reported for liver plasma membrane fraction. Linear regression of receptor concentration against nonparenchymal cell count per milliliter was significant (r = 0.999, P = 0.026), leading to an estimate of 3000 receptors/cell. The parenchymal cell fraction bound very little 125I-[Tyr-0]hCGRP-1, and regression of receptor concentration against parenchymal cell count per milliliter was not significant (r = -0.708, P = 0.29), suggesting that binding was not due to parenchymal cells but instead to contamination by nonparenchymal cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Presence of liver CGRP/amylin receptors in only nonparenchymal cells and absence of direct regulation of rat liver glucose metabolism by CGRP/amylin. 184 87

Human chondrocyte proliferation and production of matrix components such as proteoglycans and type II collagen (coll. II) were studied in an in vitro model of differentiated chondrocytes. It clearly appears that several hormones such as growth hormone, calcitonin, androgens and parahormones such as insulin like growth factor I and epidermal growth factor stimulate chondrocyte proliferation and coll. II and proteoglycan synthesis. These hormones and parahormones have no effect on either prostaglandin production or release and activation of collagenase. From our investigations in vitro, articular chondrocytes are target cells for hormones and local factors mainly responsible of chondroformation.
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PMID:Effects of hormones and local growth factors on articular chondrocyte metabolism. 202 35


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