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)

A mouse monoclonal antibody designated IgG3(rct-30) has been prepared that reacts specifically with an antigen on the surface of all cells comprising the cortical and medullary rabbit renal collecting tubule including the arcades. Plastic culture dishes coated with IgG3(rct-30) were used to isolate collecting tubule cells from collagenase dispersions of rabbit renal cortical cells by immunoadsorption. Typically, 10(6) rabbit cortical collecting tubule (RCCT) cells were obtained from 5 g of renal cortex (2 kidneys). Initial purity was greater than 96% based on immunocytofluorescent staining with three different anti-collecting tubule antibodies. Between 20 and 30% of the RCCT cells were reactive with peanut lectin suggesting that RCCT cells are a mixture of principal and intercalated cells. Approximately 10(7) RCCT cells were obtained after 4 to 5 days in primary culture. Moreover, RCCT cells continued to proliferate after passaging with a doubling time of approximately 32 h. RCCT cells passaged once and then cultured 4-5 days were found 1) to synthesize cAMP in response to arginine vasopressin (AVP), prostaglandin E2 (PGE2), isoproterenol, and parathyroid hormone, but not calcitonin, prostaglandin D2, or prostaglandin I, and 2) to release PGE2 in response to bradykinin but not arginine vasopressin or isoproterenol. Our results indicate that cultured RCCT cells retain many of the hormonal, histochemical, and morphological properties expected for a mixture of principal and intercalated rabbit cortical collecting tubule epithelia. RCCT cells should prove useful both for studying hormonal interactions in the cortical collecting tubule and as a starting population for isolating intercalated collecting tubule epithelia.
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PMID:Immunodissection and culture of rabbit cortical collecting tubule cells. 301 26

A method has been developed for the quantitative extraction of collagenase from as little as one 19-day-fetal-mouse calvarium. About 20-40 munits of collagenase are extracted per mg of tissue, all in a latent form that, after proper activation, shows the typical properties of mammalian collagenase. Culturing the calvaria for 2 days with parathyroid hormone (PTH) increases their procollagenase content up to 3-fold and induces bone resorption. Both PTH effects are prevented by cycloheximide, but not by indomethacin. Calcitonin inhibits resorption without affecting the PTH-induced procollagenase synthesis. The role of this synthesis is discussed in relation to the mechanisms of bone resorption.
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PMID:Direct extraction and assay of bone tissue collagenase and its relation to parathyroid-hormone-induced bone resorption. 303 Feb 73

We modified and improved enzyme digestion and density gradient separation procedures to obtain fractions of proximal and distal renal tubules with high yield and viability. Kidneys from two anesthetized adult Wistar rats were flushed with Krebs-Henseleit buffer (KHB) and then perfused in situ with recirculated KHB containing collagenase and hyaluronidase at 125 mmHg. Cortices were excised, minced, and incubated in KHB containing enzymes for 35 min at 37 degrees C. Dissociated tubules were removed at 10-min intervals, rinsed, and placed in KHB containing 10% calf serum, vitamins, and amino acids at 4 degrees C. Separation was achieved by suspending the tissue in 45% isosmotic Percoll layered over an undiluted Percoll cushion and centrifuging. Proximal tubules sedimented near the cushion. Distal segments were isolated in the uppermost bands of a second 35% Percoll separation. Viability was greater than 95% as measured by lactate dehydrogenase leakage and quantitated by oxygen consumption and ATP content. Basal oxygen consumption was greater than 33 nmol O2 X min-1 X mg protein-1 in all fractions and was stimulated by succinate and inhibited by amiloride and ouabain. Basal ATP content averaged 9.7 nmol/mg ATP. An average 3.3-fold separation for the proximal fraction and 24.5-fold separation for the distal fraction was assessed by the enrichment of six specific enzyme markers, with several of the markers indicating separations up to 32-fold. Isolated tubules also displayed functional responses to parathyroid hormone and vasopressin. Distal, but not proximal, segments demonstrated significantly increased adenosine 3',5'-cyclic monophosphate formation with vasopressin.
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PMID:Improved separation method for rat proximal and distal renal tubules. 303 59

Potassium depletion in rabbits induces a renal concentrating defect in vivo and decreased hydrosmotic response to arginine vasopressin (AVP) in isolated cortical collecting tubules (CCT) perfused in vitro. The molecular basis of the AVP resistance in potassium depletion was investigated by comparing AVP-responsive adenylate cyclase activities in CCT from potassium-depleted and control rabbits. Vasopressin-responsive enzyme activity was impaired in CCT dissected from kidneys of potassium-depleted rabbits but not when kidneys were treated with collagenase to improve microdissection conditions. Potassium depletion also depressed parathyroid hormone (PTH)-stimulated adenylate cyclase activity in proximal straight tubules (PST) dissected from untreated but not collagenase-treated kidneys. Commercially available collagenase, which also contains other proteolytic enzymes, increased AVP-sensitive adenylate cyclase activity in control CCT, and trypsin treatment of CCT dissected without collagenase abolished the decrease in AVP-sensitive activity induced by potassium depletion. Inclusion of trypsin inhibitor during collagenase treatment of kidneys lowered AVP response in CCT from potassium-depleted rabbits. These results demonstrate that potassium depletion impairs hormone-sensitive adenylate cyclase of CCT (and PST) by a protease-sensitive mechanism.
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PMID:Protease effects on adenylate cyclase in potassium-depleted rabbit kidney. 305 38

Cells of the osteoblastic lineage exert a dominant influence on osteoclastic bone resorption. They form a communicating network of osteocytes, surface osteocytes and osteoblasts that seems well placed to monitor the structure and performance of bone and to judge where bone formation or resorption is appropriate. Osteoblasts produce prostaglandins (PGs) which strongly inhibit osteoclastic resorption. None of the agents that stimulate resorption in intact bone, such as parathyroid hormone (PTH), interleukin 1 (IL-1), 1,25-(OH)2 vitamin D3 (1,25-(OH)2D3) or tumour necrosis factors, affects isolated osteoclasts, but all induce osteoblastic cells to produce osteoclastic resorption stimulatory activity (ORSA) that acts directly on osteoclasts. Osteoblasts seem to initiate resorption as well as stimulating or inhibiting it. Contact with bone mineral appears to be necessary: osteoclasts resorb mineralized but not unmineralized bone. All bone surfaces are lined by unmineralized organic material. Osteoblastic cells secrete neutral proteases, including collagenase, in response to hormonal stimulators of bone resorption. Incubation of osteoblasts, in the presence of PTH, on such surfaces or preincubation of the bone with collagenase predisposes bone to osteoclastic resorption. Agents that stimulate resorption in organ cultures seem to share these osteoblast-mediated mechanisms for induction and stimulation of resorption but 1,25-(OH)2D3 stimulates it through an additional mechanism. We have found that osteoclasts can be induced from haemopoietic tissue (including haemopoietic spleen cells) in the presence of 1,25-(OH)2D3--PTH and IL-1 have no effect in this system. Because osteoclasts lack receptors for 1,25-(OH)2D3 these results suggest either that osteoclast precursors lose 1,25-(OH)2D3 receptors during differentiation, or that a 1,25-(OH)2D3-responsive accessory cell in bone marrow induces osteoclastic differentiation in the presence of 1,25-(OH)2D3.
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PMID:The regulation of osteoclastic development and function. 306 19

The effect of vasoactive intestinal peptide (VIP) upon adenylate cyclase (AC) activity has been determined in defined microdissected renal tubules isolated from collagenase-treated rabbit kidneys. In the presence of 10 microM GTP, 1 microM VIP gave marked stimulations of AC over basal values in the bright portion of the distal convoluted tubule (DCTb) (10.1-fold), and in the collecting tubule isolated from the inner stripe of the outer medulla (OMCTi, 7.8-fold). Less pronounced effects of VIP were found in the medullary collecting tubule isolated from the outer stripe (2.5-fold) and in the granular portion of the distal convoluted tubule (2.0-fold). VIP stimulation of AC activity in these segments amounted to 25 to 40% of the effect elicited by other agonists (arginine vasopressin, calcitonin or parathyroid hormone) in their respective target segments. A low response to VIP was observed in the cortical thick ascending limb (1.8-fold) which represented less than 5% of the calcitonin-stimulated AC activity. In the thin descending limb VIP produced a slight and variable stimulation of AC. VIP was without effect upon AC in the convoluted and straight portions of the proximal tubule, the medullary thick ascending limb and the cortical collecting tubule. Half-maximal stimulation of AC by VIP was observed at 26 +/- 10 nM (n = 3) in OMCTi and at 19 nM (n = 2) in DCTb. Related peptides glucagon, secretin and PHI gave lower stimulations of AC compared to VIP in OMCTi. Conversely for rat OMCTi, under identical conditions, glucagon was much more effective than VIP.
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PMID:Distribution of vasoactive intestinal peptide-sensitive adenylate cyclase activity along the rabbit nephron. 317 93

Until recently, the prevailing view regarding the function of osteoblasts and osteoclasts was to attribute bone formation to the former and bone resorption to the latter. While the capacity of the osteoclast to degrade bone matrix remains unquestioned, there is now provocative evidence indicating that the osteoblast plays a critical role in regulating osteoclast resorptive activity as well as in contributing directly to matrix dissolution. The first of these points follows from observations indicating that the osteoblast (but not the osteoclast) 1) exhibits receptors and/or responses to resorption-promoting agents (including parathyroid hormone and vitamin D), and 2) releases agents capable of stimulating bone resorption. The second point is derived from studies demonstrating that the osteoblast produces neutral collagenase (an enzyme specialized to degrade type I collagen, the principal organic constituent of bone matrix) and an inhibitor capable of blocking collagenase activity. The synthesis of both of these proteins is, in part, regulated by parathyroid hormone and other resorption-stimulating agents and appears to involve control at the transcriptional, translational, and secretory levels. Thus, in both physiologic bone remodeling and modeling, as well as the altered bone turnover associated with some disease states, it is the osteoblast rather than the osteoclast that may hold the key to understanding the mechanism of tissue form and function.
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PMID:New concepts in bone remodeling: an expanding role for the osteoblast. 332 80

A tissue culture technique which permits the simultaneous measurement of collagen synthesis and bone resorption has been developed. Cultured neonatal mouse calvaria undergo resorption when stimulated by a number of agents including parathyroid hormone, vitamin D, and prostaglandin E2. Mouse calvaria are of sufficient size to measure the extent of proline incorporation into collagenase-digestible protein. Four chemically diverse stimulators of bone resorption were tested for their effect on collagen synthesis. For each stimulator tested, the dose-response relationships for the stimulation of resorption and the inhibition of collagen synthesis were found to coincide.
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PMID:Simultaneous measurement of bone resorption and collagen synthesis in neonatal mouse calvaria. 345 44

Collagen autoimmunity has been suggested as one etiologic mechanism to otosclerosis. Although substantial studies relating this disease to collagen autoimmunity have been reported, a basic understanding of the pathogenic mechanism involved is lacking. Some otosclerosis patients have a high level of antibody to type II collagen. In addition, complement and antibody were deposited in the stapes from otosclerosis patients. Furthermore, the otic capsule and stapes have been found to contain type II collagen by immunohistologic studies and biochemical analysis. Otospongiosis-like lesions have also been produced in rats by immunizing them with type II collagen. This finding led us to postulate a hypothesis of an autoimmunity to type II collagen as an etiopathogenesis of this illness. Our initial hypothesis has been updated to incorporate new findings in the field of cell biology. The role of interleukin 1, osteoclasts, osteoblasts, bone resorption, and other factors such as minor collagens, calcitonin, vitamin D, parathyroid hormone, collagenase, and prostaglandins are incorporated in this updated hypothesis.
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PMID:Enchondral cartilage rests collagen-induced autoimmunity: a possible pathogenetic mechanism of otosclerosis. 350 78

Parathyroid cells were obtained by collagenase digestion of 2 g of human parathyroid tissue obtained at surgery from a patient with end stage renal failure and hypercalcemia. Cells were placed into monolayer culture in supplemented Waymouth's MB752/1. Secretion of parathyroid hormone (PTH) from monolayer cultures was inhibited for 3 weeks by 2.5 mM compared to 0.5 mM calcium. The inhibition was 50% on day 3 of culture, and decreased to 19% by day 21. When cultures were incubated with [3H]leucine, radioactive PTH and COOH-terminal PTH fragments were secreted. Sequence analyses were performed on material in radioactive and immunoreactive peaks following gel filtration and high performance liquid chromatography of media. The results indicated that cleavage of PTH or fragments thereof occurred at the 23-24, 27-28, and 33-34 peptide bonds. NH2-terminal fragments of PTH were not detected in media.
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PMID:Structural analysis of parathormone fragments elaborated by cells cultured from a hyperplastic human parathyroid gland. 350 16


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