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)

By applying Western blot analysis using anti-phosphotyrosine antibodies, primary human dermal fibroblasts were examined after having been cultured on type I collagen-coated surfaces or in free-floating type I collagen gels. In both systems cells showed enhanced tyrosine phosphorylation of a M(r) 120,000 protein (pp120) and of a M(r) 42,000 protein (pp42). Phosphorylation was apparent 6 h at the latest after initiation of the culture and was only slightly induced on polylysine or on plastic. In contrast to pp42, pp120 was rapidly dephosphorylated in cells suspended by trypsinization or released from collagen gels by collagenase treatment, but regained phosphorylation in cells cultured in/on type I collagen. Two human sarcoma cell lines (HT-1080 and RD) exhibited identical tyrosine phosphorylation of pp120 but not of pp42. pp120 is identical with pp125FAK, a novel tyrosine kinase localized in focal adhesions, as proved by immunological cross-reactivity with anti-pp125FAK antibodies. Our results suggest that tyrosine phosphorylation is involved in signal transduction triggered by two- and three-dimensional type I collagen-fibroblast contact.
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PMID:Three-dimensional contact with type I collagen mediates tyrosine phosphorylation in primary human fibroblasts. 812 56

Treatment of cells with agents that damage DNA leads to the induction of numerous genes. Recent studies aimed at understanding the events preceding the transcriptional activation of some of these DNA damage-inducible genes in mammalian cells have demonstrated that various extranuclear protein kinases are involved in the signaling cascades. The mammalian GADD153 gene, a member of the CCAAT enhancer-binding protein family of transcription factors, is highly induced by a variety of DNA-damaging agents as well as by certain growth arrest conditions and oxidative stresses. We have examined the effects of numerous protein kinase and phosphatase inhibitors on the DNA damage-induced expression of GADD153, to identify the signal transduction components involved in its transcriptional regulation. In contrast to the transcriptional activation of c-jun and collagenase in response to DNA damage, GADD153 induction involves neither protein kinase C nor tyrosine kinases but does appear to require an unidentified serine-threonine-kinase. Elevation of intracellular glutathione levels by treatment with N-acetylcysteine did not affect the methyl methanesulfonate-induced expression of the GADD153 gene, although it did diminish cadmium chloride-induced expression. These findings suggest that oxidative stress and DNA damage regulate GADD153 transcription through different pathways. Based on our findings and those of others with respect to other DNA damage-inducible genes, we propose a model depicting the complex pathways which appear to be involved in the regulation of mammalian genes in response to genotoxic stress and in which the DNA damage-induced expression of GADD153 represents a unique pathway independent of either protein kinase C or tyrosine kinase.
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PMID:The pathway regulating GADD153 induction in response to DNA damage is independent of protein kinase C and tyrosine kinases. 813 9

A cDNA coding for a new human matrix metalloproteinase (MMP) has been cloned from a cDNA library derived from a breast tumor. The isolated cDNA contains an open reading frame coding for a polypeptide of 471 amino acids. The predicted protein sequence displays extensive similarity to the previously known MMPs and presents all the structural features characteristic of the members of this protein family, including the well conserved PRCGXPD motif, involved in the latency of the enzyme and the zinc-binding domain (HEXGHXXXXXHS). In addition, this novel human MMP contains in its amino acid sequence several residues specific to the collagenase subfamily (Tyr-214, Asp-235, and Gly-237) and lacks the 9-residue insertion present in the stromelysins. According to these structural characteristics, the MMP described herein has been tentatively called collagenase-3, since it represents the third member of this subfamily, composed at present of fibroblast and neutrophil collagenases. The collagenase-3 cDNA was expressed in a vaccinia virus system, and the recombinant protein was able to degrade fibrillar collagens, providing support to the hypothesis that the isolated cDNA codes for an authentic collagenase. Northern blot analysis of RNA from normal and pathological tissues demonstrated the existence in breast tumors of three different mRNA species, which seem to be the result of the utilization of different polyadenylation sites present in the 3'-noncoding region of the gene. By contrast, no collagenase-3 mRNA was detected either by Northern blot or RNA polymerase chain reaction analysis with RNA from other human tissues, including normal breast, mammary fibroadenomas, liver, placenta, ovary, uterus, prostate, and parotid gland. On the basis of the increased expression of collagenase-3 in breast carcinomas and the absence of detectable expression in normal tissues, a possible role for this metalloproteinase in the tumoral process is proposed.
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PMID:Molecular cloning and expression of collagenase-3, a novel human matrix metalloproteinase produced by breast carcinomas. 820

A lactose-binding lectin from rat lung (RL-29) and a related lectin from Madin-Darby canine kidney (MDCK) cells have been analyzed with the primary goal of identifying post-translational modifications. The sequences show that RL-29 and the dog lectin are homologues of a lectin designated here as L-29 and elsewhere as CBP-35, epsilon BP, Mac-2, or L-34. RL-29 has a 140-amino-acid COOH-terminal carbohydrate-binding domain, a 20-amino-acid NH2-terminal domain, and an intervening domain consisting of 11 repeating elements rich in Pro, Gly, and Tyr (R-domain). The dog homologue has 14 repeating elements in its R-domain explaining its larger size. The sensitivity of the R-domain to bacterial collagenase allowed us to isolate the NH2-terminal domain and show that the NH2 terminus was blocked by acetylation and, in the accompanying paper (Huflejt, M. E., Turck, C. W., Lindstedt, R., Barondes, S. H., and Leffler, H. (1993) J. Biol. Chem. 268, 26712-26718), that the NH2-terminal domain is phosphorylated. In addition, we unexpectedly found an endogenous component, resembling 92-kDa type IV collagenase, that co-purified with L-29 and slowly digested the R-domain. Hence, L-29 is a substrate for bacterial and tissue collagenases even though the R-domain is non-collagenous. Moreover, the co-purification suggests a non-enzymatic interaction between 92-kDa collagenase and L-29.
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PMID:Primary structure of the soluble lactose binding lectin L-29 from rat and dog and interaction of its non-collagenous proline-, glycine-, tyrosine-rich sequence with bacterial and tissue collagenase. 825 5

The synthesis of a series of thiol-containing, modified dipeptide inhibitors (8) of human collagenase, which incorporate various carboxylic acid derivatives at the presumed P1 position, beta to the thiol group, is described. The compounds were evaluated, in vitro, for their ability to inhibit the degradation of rat skin type 1 collagen by purified human lung fibroblast collagenase, and structure-activity relationship studies are described. Optimum potency (IC50 values in the nanomolar range) was achieved by incorporating methyl (compounds 43a, 56a, and 57ab) or benzyl esters (44a) at the P1 position. Small amides were also accommodated (e.g. primary amide 47a), but in general, increasing the size of the P1 amide substituent lowered potency. PheNHMe, TrpNHMe, and Tyr(Me)NHMe substituents were found to be approximately equipotent P2'-residues. The results of testing all four diastereoisomers 56a-d of the compound with (S)-TrpNHMe at the P2' position indicated that the S,S,S diastereoisomer 56a possessed highest potency (IC50 2.5 nM) and that the second most potent diastereoisomer was 56d (IC50 12 nM) with the R,R,S configuration. It appeared that the orientation of the P1' and the thiol-bearing centers to each other is a more critical influence on potency than any absolute stereochemical requirements. It is suggested that the high potency of the beta-mercapto carboxylic acid derivatives may be a consequence of bidentate coordination of the thiol and carbonyl groups to the active-site zinc ion in the collagenase enzyme.
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PMID:Synthesis of novel modified dipeptide inhibitors of human collagenase: beta-mercapto carboxylic acid derivatives. 825 25

The mitogen-activated protein kinases (MAP kinases) p42mapk and p44mapk are serine/threonine kinases rapidly activated in cells stimulated with various extracellular signals by dual phosphorylation of tyrosine and threonine residues. They are thought to play a pivotal role in integrating and transmitting transmembrane signals required for growth and differentiation. Here we demonstrate that activation of these ubiquitously expressed MAP kinases is essential for growth. To specifically suppress MAP kinase activation in fibroblasts, we transiently expressed either the entire p44mapk antisense RNA or p44mapk kinase-deficient mutants (T192A or Y194F). As expected, and through independent mechanisms, both approaches strongly inhibited MAP kinase activation. The antisense reduced the expression of endogenous p42mapk and p44mapk by 90%, whereas overexpression of the T192A mutant inhibited growth factor activation of both endogenous MAP kinases by up to 70%. As a consequence, we found that the antisense as well as the T192A mutant of p44mapk inhibited growth factor-stimulated gene transcription (collagenase promoter assay with chloramphenicol acetyltransferase reporter) and cell growth. These effects were proportional to the extent of MAP kinase inhibition and reversed by coexpression of the wild-type p44mapk. Therefore we conclude that growth factor activation of p42mapk and p44mapk is an absolute requirement for triggering the proliferative response.
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PMID:Mitogen-activated protein kinases p42mapk and p44mapk are required for fibroblast proliferation. 839 1

The reorganization of extracellular matrix (ECM) is an important function in many biological and pathophysiological processes. Culture of fibroblasts in a three-dimensional collagenous environment represents a suitable system to study the underlying mechanisms resulting from cell-ECM interaction, which leads to reprogramming of fibroblast biosynthetic capacity. The aim of this study was to identify receptors that transduce ECM signals into cellular events, resulting in reprogramming of connective tissue metabolism. Our data demonstrate that in human skin fibroblasts alpha 1 beta 1 and alpha 2 beta 1 integrins are the major receptors responsible for regulating ECM remodeling: alpha 1 beta 1 mediates the signals inducing downregulation of collagen gene expression, whereas the alpha 2 beta 1 integrin mediates induction of collagenase (MMP-1). Applying mAb directed against different integrin subunits resulted in triggering the heterodimeric receptors and enhancing the normal biochemical response to receptor ligation. Different signal transduction inhibitors were tested for their influence on gel contraction, expression of alpha 1(I) collagen and MMP-1 in fibroblasts within collagen gels. Ortho-vanadate and herbimycin A displayed no significant effect on any of these three processes. In contrast, genistein reduced lattice contraction, and completely inhibited induction of MMP-1, whereas type I collagen down-regulation was unaltered. Calphostin C inhibited only lattice contraction. Taken together, these data indicate a role of tyrosine-specific protein kinases in mediating gel contraction and induction of MMP-1, as well as an involvement of protein kinase C in the contraction process. The data presented here indicate that different signaling pathways exist leading to the three events discussed here, and that these pathways do not per se depend upon each other.
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PMID:Collagen and collagenase gene expression in three-dimensional collagen lattices are differentially regulated by alpha 1 beta 1 and alpha 2 beta 1 integrins. 855 56

Cardiac fibroblasts appear to be important in producing and maintaining the extracellular matrix (ECM) of the heart. The abnormal proliferation of cardiac fibroblasts and deposition of the ECM protein, collagen, associated with hypertension and myocardial infarction, may adversely affect the performance of the heart. Several groups of factors affect collagen gene expression and/or growth of cardiac fibroblasts. Angiotensin II, aldosterone and endothelins play a central role in the remodeling of the ECM in hypertension, and decrease collagenase activity and/or increase collagen synthesis in cultured cells. Regulatory peptides that are generally elevated at sites of injury, such as TGF-beta 1 and PDGF, increase collagen synthesis and/or stimulate mitogenesis. Mechanical stretch enhances collagen expression and cell proliferation, responses which could in part be due to integrin activation. Cytokines may stimulate or inhibit cell growth, the latter through prostaglandin formation. Angiotensin II is a principal determinant in vivo of cardiac fibroplasia and synthesis of the ECM proteins, collagen and fibronectin. Cardiac fibroblasts possess G-protein-coupled AT1 receptors for angiotensin II that couple to activation of multiple signalling pathways, including: phospholipase C-beta, with the subsequent release of Ca2+ from intracellular stores and activation of protein kinase C, mitogen-activated protein kinases, tyrosine kinases, phospholipase D, phosphatidic acid formation, and the STAT family of transcription factors. Cardiac fibroblasts respond to angiotensin II with hyperplastic/hypertrophic growth, and increased expression of collagen, fibronectin, and integrins. The mechanisms by which the AT1 receptor activates multiple signalling pathways are not known, although the receptor might interact at some level with both integrins and cytokine receptors. Different signalling pathways of the AT1 receptor may subserve different cellular responses, such as mitogenesis, ECM synthesis, or an inflammatory/stress response. Crosstalk among the signalling pathways of the AT1 receptor, and those of G-protein, cytokine, and growth-factor receptors, may determine the ultimate response of the cell.
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PMID:Molecular signalling mechanisms controlling growth and function of cardiac fibroblasts. 857 2

Increased elastin production and accumulation is a rapid and sensitive response to elevated vascular wall stress in both systemic and pulmonary hypertension. While initially protecting the vessel wall, these structural changes may in the longer term result in reinforcement of the hypertensive state and contribute to the persistence of the pathology of hypertension. Rapid responses apparently uncorrelated with increased elastin mRNA, at least in the case of systemic vessels, suggest novel mechanisms perhaps including increased efficiency of message translation or matrix accumulation of the protein. Investigations using in vitro organ and cell culture models have indicated a role for phospholipases and protein kinases, including protein kinase C, in stretch-induced elastin synthesis. In addition, tyrosine phosphorylation of membrane/sub-membrane/cytoskeletal sensors, including focal adhesion kinase and members of the lipocortin family, have been shown to be important in this transduction mechanism. Because its turnover is normally very slow, additional vascular elastin accumulated during hypertensive episodes, together with its consequences for the physical properties of the vessel wall, may persist long after blood pressure is restored to normal levels. Thus, recent interest has been drawn to the possibility of achieving regression of accumulated matrix elastin by promoting turnover of this protein through activation of endogenous vascular elastase and collagenase activities.
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PMID:Elastin in systemic and pulmonary hypertension. 857 61

Bone remodeling requires regulated tyrosine phosphorylation mediated by specific protein tyrosine kinases, such as c-src and c-fms, and to date, unknown protein tyrosine phosphatases (PTPs). We previously reported the isolation of a novel bone-specific receptor PTP, named osteotesticular PTP (OST-PTP), which is regulated during osteoblast differentiation and after exposure to PTH. To determine the relevance of this PTH regulation, we characterized the PTH-induced increase in OST-PTP messenger RNA (mRNA) in UMR 106 cells in comparison with PTH effects on a related receptor PTP and a PTH regulated gene, rat collagenase. Treatment of cells with rat PTH 1-34 (rPTH) resulted in a dramatic concentration and time-dependent increase in OST-PTP mRNA with a threshold at 4 h (= or < 1nM rPTH) and maximal response of 6- 10-fold above control levels at 8 h (100 nM rPTH). An increase in collagenase mRNA was detectable 2 h earlier at 100 pM rPTH with a maximal response at least 5-fold greater than that observed for OST- PTP. Levels of mRNA for the structurally similar PTP, rat leucocyte antigen-related molecule, were unaffected by rPTH treatment. Administration of cycloheximide (5-100 microM) abolished the OST-PTP and collagenase responses to PTH. The cAMP analogs, CPT-cAMP (0.01-1mM; 8 h) or Sp-cAMP (0.1 and 0.5 mM) were equal or greater in their effectiveness to enhance both OST-PTP and collagenase mRNA as compared with rPTH. In contrast, phorbol esters, calcium ionophore, bovine PTH (3-34), or human PTHrP (7-34) had no effect on either transcript. Interestingly, 36 h of pretreatment of cells with epidermal growth factor (10 ng/ml), a growth factor known to modulate PTH's actions, resulted in a significant decrease in the abundance of OST-PTP mRNA after rPTH exposure. These studies suggest that regulation of OST-PTP mRNA is a secondary response to PTH stimulation that is dependent on protein synthesis and that may be primarily by activation of the protein kinase A pathway. This specific modulation of a bone receptor PTP may prove to be a critical component in the PTH modulation of osteoblast function.
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PMID:Parathyroid hormone regulates the expression of the receptor protein tyrosine phosphatase, OST-PTP, in rat osteoblast-like cells. 860 5


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