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15 Riser BL, Cortes P, Heilig C, Grondin J, Ladson-Wofford S, Patterson D, et al. Cyclic stretching force selectively up-regulates transforming growth factor-beta isoforms in cultured rat mesangial cells. Am J Pathol 1996; 148:1915-1923.
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Gene therapy by transforming growth factor-beta receptor-IgG Fc chimera suppressed extracellular matrix accumulation in experimental glomerulonephritis
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18 Isaka Y, Akagi Y, Ando Y, Tsujie M, Sudo T, Ohno N, et al. Gene therapy by transforming growth factor-beta receptor-IgG Fc chimera suppressed extracellular matrix accumulation in experimental glomerulonephritis [see Comments]. Kidney Int 1999; 55:465-475.
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19 Yamamoto T, Noble NA, Miller DE, Border WA. Sustained expression of TGF-beta 1 underlies development of progressive kidney fibrosis. Kidney Int 1994; 45:916-927.
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Tyrosine kinase dependent expression of TGF-beta induced by stretch in mesangial cells
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20 Hirakata M, Kaname S, Chung UG, Joki N, Hori Y, Noda M, et al. Tyrosine kinase dependent expression of TGF-beta induced by stretch in mesangial cells. Kidney Int 1997; 51:1028-1036.
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21
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Mechanical strain-and high glucose-induced alterations in mesangial cell collagen metabolism: Role of TGF-beta
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21 Riser BL, Cortes P, Yee J, Sharba AK, Asano K, Rodriguez-Barbero A, et al. Mechanical strain-and high glucose-induced alterations in mesangial cell collagen metabolism: role of TGF-beta. J Am Soc Nephrol 1998; 9:827-836.
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22
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7144257847
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Antilatent TGF-beta binding protein-1 antibody or synthetic oligopeptides inhibit extracellular matrix expression induced by stretch in cultured rat mesangial cells
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22 Hori Y, Katoh T, Hirakata M, Joki N, Kaname S, Fukagawa M, et al. Antilatent TGF-beta binding protein-1 antibody or synthetic oligopeptides inhibit extracellular matrix expression induced by stretch in cultured rat mesangial cells. Kidney Int 1998; 53:1616-1625.
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0032807286
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TGF-B receptor expression and binding in rat mesangial cells: Modulation by glucose and cyclic mechanical strain
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This article employed classical ligand binding analysis, ligand cross-linking, mRNA analysis, and immunostaining to characterize TGF-β receptors on MC, and demonstrates increased mRNA, protein expression, and elevated binding in response to cyclic stretch or high glucose exposure
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24 Riser B, Ladson-Wofford S, Sharba A, Cortes P, Drake K, Guerin C, et al. TGF-B receptor expression and binding in rat mesangial cells: Modulation by glucose and cyclic mechanical strain. Kidney Int 1999; 56:428-439. This article employed classical ligand binding analysis, ligand cross-linking, mRNA analysis, and immunostaining to characterize TGF-β receptors on MC, and demonstrates increased mRNA, protein expression, and elevated binding in response to cyclic stretch or high glucose exposure.
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Riser, B.1
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25
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Mechanical stretch induces vascular permeability factor in human mesangial cells: Mechanisms of signal transduction
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25 Gruden G, Thomas S, Burt D, Lane S, Chusney G, Sacks S, et al. Mechanical stretch induces vascular permeability factor in human mesangial cells: mechanisms of signal transduction. Proc Natl Acad Sci USA 1997; 94:12112-12116.
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26
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0032983409
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Interaction of angiotensin II and mechanical stretch on vascular endothelial growth factor production by human mesangial cells
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This article investigated the interaction of angiotensin II and mechanical stretch on MC production of VEGF. It demonstrated that although neither angiotensin II nor TGF-β mediates stretch-induced VEGF protein secretion, prestretching magnifies the production induced by angiotensin II
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26 Gruden G, Thomas S, Burt D, Zhou W, Chusney G, Gnudi L, et al. Interaction of angiotensin II and mechanical stretch on vascular endothelial growth factor production by human mesangial cells. J Am Soc Nephrol 1999; 10:730-737. This article investigated the interaction of angiotensin II and mechanical stretch on MC production of VEGF. It demonstrated that although neither angiotensin II nor TGF-β mediates stretch-induced VEGF protein secretion, prestretching magnifies the production induced by angiotensin II.
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Gruden, G.1
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A novel transforming growth factor beta response element controls the expression of the connective tissue growth factor gene
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27 Grotendorst GR, Okochi H, Hayashi N. A novel transforming growth factor beta response element controls the expression of the connective tissue growth factor gene. Cell Growth Differen 1996; 7:469-480.
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28
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0033957976
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Regulation of connective tissue growth factor activity in cultured rat mesangial cells and its expression in experimental diabetic glomerulosclerosis
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This article demonstrated for the first time that CTGF is able to induce ECM production in MC, and is induced in these same cells by TGF-β, high glucose or mechanical strain, all factors in diabetic glomerulosclerosis. It also showed that renal CTGF transcripts are markedly upregulated early in the course of experimental diabetes
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28 Riser B, DeNichilo M, Cortes P, Baker C, Grondin J, Yee J, et al. Regulation of connective tissue growth factor activity in cultured rat mesangial cells and its expression in experimental diabetic glomerulosclerosis. J Am Soc Nephrol 1999; 11:2000. This article demonstrated for the first time that CTGF is able to induce ECM production in MC, and is induced in these same cells by TGF-β, high glucose or mechanical strain, all factors in diabetic glomerulosclerosis. It also showed that renal CTGF transcripts are markedly upregulated early in the course of experimental diabetes.
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J Am Soc Nephrol
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Riser, B.1
DeNichilo, M.2
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29
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0027991524
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Mechanical stretch/relaxation of cultured rat mesangial cells induces protooncogenes and cyclooxygenase
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29 Akai Y, Homma T, Burns KD, Yasuda T, Badr KF, Harris RC. Mechanical stretch/relaxation of cultured rat mesangial cells induces protooncogenes and cyclooxygenase. Am J Physiol 1994; 267:C482-490.
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Akai, Y.1
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30
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Autoinduction of transforming growth factor beta 1 is mediated by the AP-1 complex
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30 Kim SJ, Angel P, Lafyatis R, Hattori K, Kim KY, Sporn MB, et al. Autoinduction of transforming growth factor beta 1 is mediated by the AP-1 complex. Mol Cell Biol 1990; 10:1492-1497.
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31
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0033016843
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Stretch-induced overproduction of fibronectin in mesangial cells is mediated by the activation of mitogen-activated protein kinase
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This article demonstrated that mechanical stretch of cultured mesangial cells activates ERK and enhances DNA-binding activity of AP-1. It also showed that the blockade of these pathways prevented the stretch-induced production of fibronectin
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31 Ishida T, Haneda M, Maeda S, Koya D, Kikkawa R. Stretch-induced overproduction of fibronectin in mesangial cells is mediated by the activation of mitogen-activated protein kinase. Diabetes 1999; 48:595-602. This article demonstrated that mechanical stretch of cultured mesangial cells activates ERK and enhances DNA-binding activity of AP-1. It also showed that the blockade of these pathways prevented the stretch-induced production of fibronectin.
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Ishida, T.1
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32
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0032938758
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Activation of mesangial cell signaling cascades in response to mechanical strain
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This paper showed that high amplitude cyclic stretch leads to MC proliferation preceded by marked activation of MAPK p44/42 and p38HOG, whereas moderate amplitude stretch induces only modest p44/42 activity and no proliferation
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32 Ingram AJ, Ly H, Thai K, Kang M, Scholey JW. Activation of mesangial cell signaling cascades in response to mechanical strain. Kidney Int 1999; 55:476-485. This paper showed that high amplitude cyclic stretch leads to MC proliferation preceded by marked activation of MAPK p44/42 and p38HOG, whereas moderate amplitude stretch induces only modest p44/42 activity and no proliferation.
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Kidney Int
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Ingram, A.J.1
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33
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Stretch-and glucose-induced cytoskeleton (CYTOS) and matrix (ECM changes of mesangial cells (MC)
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33 Cortes P, Riser B, Rucker C, Alviani R, Szamosfalvi B, Yee J. Stretch-and glucose-induced cytoskeleton (CYTOS) and matrix (ECM) changes of mesangial cells (MC). J Am Soc Nephrol 1999; 10:569A-.
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34
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0032481302
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High pressure conditions promote the proliferation of rat cultured mesangial cells in vitro
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34 Kawata Y, Fujii Z, Sakumura T, Kitano M, Suzuki N, Matsuzaki M. High pressure conditions promote the proliferation of rat cultured mesangial cells in vitro. Biochim Biophys Acta 1998; 1401:195-202.
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Kawata, Y.1
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35
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0032479168
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Applied pressure enhances cell proliferation through mitogen-activated protein kinase activation in mesangial cells
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35 Kawata Y, Mizukami Y, Fujii Z, Sakumura T, Yoshida K, Matsuzaki M. Applied pressure enhances cell proliferation through mitogen-activated protein kinase activation in mesangial cells. J Biol Chem 1998; 273:16905-16912.
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Kawata, Y.1
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Matsuzaki, M.6
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36
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0031795129
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Pressure oscillation regulates human mesangial cell growth and collagen synthesis
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This study used an oscillating pressure chamber to demonstrate that such cyclic pressure decreases MC proliferation and at the same time increases the release of medium-associated collagen
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36 Mertens PR, Espenkott V, Venjakob B, Heintz B, Handt S, Sieberth HG. Pressure oscillation regulates human mesangial cell growth and collagen synthesis. Hypertension 1998; 32:945-952. This study used an oscillating pressure chamber to demonstrate that such cyclic pressure decreases MC proliferation and at the same time increases the release of medium-associated collagen.
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Mertens, P.R.1
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Heintz, B.4
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Sieberth, H.G.6
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