Adam RM, Eaton SH, Estrada C, Nimgaonkar A, Shih SC, Smith LE, Kohane IS, Bagli D, Freeman MR. Mechanical stretch is a highly selective regulator of gene expression in human bladder smooth muscle cells. Physiol Genomics 20(1):36-44, 2004.
Adam RM, Roth JA, Cheng HL, Rice DC, Khoury J, Bauer SB, Peters CA, Freeman MR. Signaling through PI3K/Akt mediates stretch and PDGF-BB-dependent DNA synthesis in bladder smooth muscle cells. J Urol 169(6):2388-2393, 2003.
Aitken KJ, Block G, Lorenzo A, Herz D, Sabha N, Dessouki O, Fung F, Szybowska M, Craig L, Bagli DJ. Mechanotransduction of extracellular signal-regulated kinases 1 and 2 mitogen-activated protein kinase activity in smooth muscle is dependent on the extracellular matrix and regulated by matrix metalloproteinases. Am J Pathol 169(2):459-470, 2006.
Aitken KJ, Tolg C, Panchal T, Leslie B, Yu J, Elkelini M, Sabha N, Tse DJ, Lorenzo AJ, Hassouna M, Bägli DJ. Mammalian target of rapamycin (mTOR) induces proliferation and de-differentiation responses to three coordinate pathophysiologic stimuli (mechanical strain, hypoxia, and extracellular matrix remodeling) in rat bladder smooth muscle. Am J Pathol 176(1):304-319, 2010.
Chaqour B, Yang R, Sha Q. Mechanical stretch modulates the promoter activity of the profibrotic factor CCN2 through increased actin polymerization and NF-B activation. J Biol Chem 281(29):20608-20622, 2006.
Estrada CR, Adam RM, Eaton SH, Bägli DJ, Freeman MR. Inhibition of EGFR signaling abrogates smooth muscle proliferation resulting from sustained distension of the urinary bladder. Lab Invest 86(12):1293-1302, 2006.
Galvin DJ, Watson RW, Gillespie JI, Brady H, Fitzpatrick JM. Mechanical stretch regulates cell survival in human bladder smooth muscle cells in vitro. Am J Physiol Renal Physiol 283(6):F1192-F1199, 2002.
Halachmi S, Aitken KJ, Szybowska M, Sabha N, Dessouki S, Lorenzo A, Tse D, Bagli DJ. Role of signal transducer and activator of transcription 3 (STAT3) in stretch injury to bladder smooth muscle cells. Cell Tissue Res 326(1):149-158, 2006.
Hubschmid U, Leong-Morgenthaler PM, Basset-Dardare A, Ruault S, Frey P. In vitro growth of human urinary tract smooth muscle cells on laminin and collagen type I-coated membranes under static and dynamic conditions. Tissue Engineering 11(1-2):161-171, 2005.
Kushida N, Kabuyama Y, Yamaguchi O, Homma Y. Essential role for extracellular Ca2+ in JNK activation by mechanical stretch in bladder smooth muscle cells. Am J Physiol Cell Physiol 281(4):C1165-C1172, 2001.
Nguyen HT, Adam RM, Bride SH, Park JM, Peters CA, Freeman MR. Cyclic stretch activates p38 SAPK2-, ErbB2-, and AT1-dependent signaling in bladder smooth muscle cells. Am J Physiol Cell Physiol 279(4):C1155-C1167, 2000.
Orsola A, Adam RM, Peters CA, Freeman MR. The decision to undergo DNA or protein synthesis is determined by the degree of mechanical deformation in human bladder muscle cells. Urology 59(5):779-783, 2002.
Orsola A, Estrada CR, Nguyen HT, Retik AB, Freeman MR, Peters CA, Adam RM. Growth and stretch response of human exstrophy bladder smooth muscle cells: molecular evidence of normal intrinsic function. BJU Int 95(1):144-148, 2005.
Park JM, Adam RM, Peters CA, Guthrie PD, Sun Z, Klagsbrun M, Freeman MR. AP-1 mediates stretch-induced expression of HB-EGF in bladder smooth muscle cells. Am J Physiol Cell Physiol 277:C294-C301, 1999.
Park JM, Borer JG, Freeman MR, Peters CA. Stretch activates heparin-binding EGF-like growth factor expression in bladder smooth muscle cells. Am J Physiol Cell Physiol 275:C1247-C1254, 1998.
Park JM, Yang T, Arend LJ, Schnermann JB, Peters CA, Freeman MR, Briggs JP. Obstruction stimulates COX-2 expression in bladder smooth muscle cells via increased mechanical stretch. Am J Physiol Renal Physiol 276:F129-F136, 1999.
Persson K, Sando JJ, Tuttle JB, Steers WD. Protein kinase C in cyclic stretch-induced nerve growth factor production by urinary tract smooth muscle cells. Am J Physiol Cell Physiol 269:C1018-C1024, 1995.
Steers WD, Broder SR, Persson K, Bruns DE, Ferguson JE 2nd, Bruns ME, Tuttle JB. Mechanical stretch increases secretion of parathyroid hormone-related protein by cultured bladder smooth muscle cells. J Urol 160(3 Pt 1):908-912, 1998.
Upadhyay J, Aitken KJ, Damdar C, Bolduc S, Bagli DJ. Integrins expressed with bladder extracellular matrix after stretch injury in vivo mediate bladder smooth muscle cell growth in vitro. J Urol 169(2):750-755, 2003.
Wang Y, Xiong Z, Gong W, Zhou P, Xie Q, Zhou Z, Lu G. Expression of heat shock protein 27 correlates with actin cytoskeletal dynamics and contractility of cultured human bladder smooth muscle cells. Exp Cell Res 338(1):39-44, 2015.
Yang R, Amir J, Liu H, Chaqour B. Mechanical strain activates a program of genes functionally involved in paracrine signaling of angiogenesis. Physiol Genomics 36(1):1-14, 2008.
Yu G, Bo S, Xiyu J, Enqing X. Effect of bladder outlet obstruction on detrusor smooth muscle cell: an in vitro study. Journal of Surgical Research 114(2):202-209, 2003.
Zhou D, Herrick DJ, Rosenbloom J, Chaqour B. Cyr61 mediates the expression of VEGF, alphav-integrin, and alpha-actin genes through cytoskeletally based mechanotransduction mechanisms in bladder smooth muscle cells. J Appl Physiol 98(6):2344-2354, 2005.
Allison DA, Wight TN, Ripp NJ, Braun KR, Grande-Allen KJ. Endogenous overexpression of hyaluronan synthases within dynamically cultured collagen gels: implications for vascular and valvular disease. Biomaterials 29:2969-2976, 2008.
Arnold C, Demirel E, Feldner A, Genové G, Zhang H, Sticht C, Wieland T, Hecker M, Heximer S, Korff T. Hypertension-evoked RhoA activity in vascular smooth muscle cells requires RGS5. FASEB J 2018 Jan 5:fj201700384RR. doi: 10.1096/fj.201700384RR. [Epub ahead of print]
Arnold C, Feldner A, Pfisterer L, Hödebeck M, Troidl K, Genové G, Wieland T, Hecker M, Korff T. RGS5 promotes arterial growth during arteriogenesis. EMBO Mol Med 6(8):1075-89, 2014.
Bai X, Mangum KD, Dee RA, Stouffer GA, Lee CR, Oni-Orisan A, Patterson C, Schisler JC, Viera AJ, Taylor JM, Mack CP. Blood pressure-associated polymorphism controls ARHGAP42 expression via serum response factor DNA binding. J Clin Invest 127(2):670-680, 2017.
Birukov KG, Shirinsky VP, Stepanova OV, Tkachuk VA, Hahn AW, Resink TJ, Smirnov VN. Stretch affects phenotype and proliferation of vascular smooth muscle cells. Mol Cell Biochem 144(2):131-139, 1995.
Capers Q 4th, Alexander RW, Lou P, De Leon H, Wilcox JN, Ishizaka N, Howard AB, Taylor WR. Monocyte chemoattractant protein-1 expression in aortic tissues of hypertensive rats. Hypertension 30(6):1397-1402, 1997.
Cattaruzza M, Berger MM, Ochs M, Fayyazi A, Fuzesi L, Richter J, Hecker M. Deformation-induced endothelin B receptor-mediated smooth muscle cell apoptosis is matrix-dependent. Cell Death Differ 9(2):219-226, 2002.
Cattaruzza M, Dimigen C, Ehrenreich H, Hecker M. Stretch-induced endothelin B receptor-mediated apoptosis in vascular smooth muscle cells. FASEB J 14(7):991-998, 2000.
Chang H, Shyu KG, Wang BW, Kuan P. Regulation of hypoxia-inducible factor-1 by cyclical mechanical stretch in rat vascular smooth muscle cells. Clin Sci (Lond) 105(4):447-456, 2003.
Chapman GB, Durante W, Hellums JD, Schafer AI. Physiological cyclic stretch causes cell cycle arrest in cultured vascular smooth muscle cells. Am J Physiol Heart Circ Physiol 278:H748-H754, 2000.
Chen AH, Gortler DS, Kilaru S, Araim O, Frangos SG, Sumpio BE. Cyclic strain activates the pro-survival Akt protein kinase in bovine aortic smooth muscle cells. Surgery 130(2):378-381, 2001.
Chen Q, Li W, Quan Z, Sumpio BE. Modulation of vascular smooth muscle cell alignment by cyclic strain is dependent on reactive oxygen species and P38 mitogen-activated protein kinase. J Vasc Surg 37(3):660-668, 2003.
Cheng J, Du J. Mechanical stretch simulates proliferation of venous smooth muscle cells through activation of the insulin-like growth factor-1 receptor. Arterioscler Thromb Vasc Biol 27(8):1744-1751, 2007.
Cheng J, Zhang J, Merched A, Zhang L, Zhang P, Truong L, Boriek AM, Du J. Mechanical stretch inhibits oxidized low density lipoprotein-induced apoptosis in vascular smooth muscle cells by up-regulating integrin alphaVbeta3 and stablization of PINCH-1. J Biol Chem 282(47):34268-34275, 2007.
Cheng WP, Hung HF, Wang BW, Shyu KG. The molecular regulation of GADD153 in apoptosis of cultured vascular smooth muscle cells by cyclic mechanical stretch. Cardiovascular Research 77:551–559, 2008.
Cheng WP, Wang BW, Chen SC, Chang H, Shyu KG. Mechanical stretch induces the apoptosis regulator PUMA in vascular smooth muscle cells. Cardiovasc Res 93(1):181-9, 2012.
Chiu CZ, Wang BW, Shyu KG. Effects of cyclic stretch on the molecular regulation of myocardin in rat aortic vascular smooth muscle cells. J Biomed Sci 20:50, 2013.
Clements ML, Banes AJ, Faber JE. Effect of mechanical loading on vascular alpha1D- and alpha1B-adrenergic receptor expression. Hypertension 29(5):1156-1164, 1997.
Clements ML, Faber JE. Mechanical load opposes angiotensin-mediated decrease in vascular alpha1-adrenoceptors. Hypertension 29(5):1165-1172, 1997.
Colombo A, Guha S, Mackle JN, Cahill PA, Lally C. Cyclic strain amplitude dictates the growth response of vascular smooth muscle cells in vitro: role in in-stent restenosis and inhibition with a sirolimus drug-eluting stent. Biomech Model Mechanobiol 12(4):671-83, 2013.
Cunningham JJ, Linderman JJ, Mooney DJ. Externally applied cyclic strain regulates localization of focal contact components in cultured smooth muscle cells. Ann Biomed Eng 30(7):927-935, 2002.
Dangers M, Kiyan J, Grote K, Schieffer B, Haller H, Dumler I. Mechanical stress modulates SOCS-1 expression in human vascular smooth muscle cells. J Vasc Res 47(5):432-440, 2010.
Davis MG, Ali S, Leikauf GD, Dorn GW 2nd. Tyrosine kinase inhibition prevents deformation-stimulated vascular smooth muscle growth. Hypertension 24(6):706-713, 1994.
Dethlefsen SM, Shepro D, D'Amore PA. Comparison of the effects of mechanical stimulation on venous and arterial smooth muscle cells in vitro. J Vasc Res 33(5):405-413, 1996.
de Waard V, Arkenbout EK, Vos M, Mocking AI, Niessen HW, Stooker W, de Mol BA, Quax PH, Bakker EN, VanBavel E, Pannekoek H, de Vries CJ. TR3 nuclear orphan receptor prevents cyclic stretch-induced proliferation of venous smooth muscle cells. Am J Pathol 168:2027–2035, 2006.
Dinardo CL, Venturini G, Zhou EH, Watanabe IS, Campos LC, Dariolli R, da Motta-Leal-Filho JM, Carvalho VM, Cardozo KH, Krieger JE, Alencar AM, Pereira AC. Variation of mechanical properties and quantitative proteomics of VSMC along the arterial tree. Am J Physiol Heart Circ Physiol 306(4):H505-16, 2014.
Eschrich J, Meyer R, Kuk H, Wagner AH, Noppeney T, Debus S, Hecker M, Korff T. Varicose remodeling of veins is suppressed by 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors. J Am Heart Assoc 5(2), pii: e002405, 2016.
Faber JE, Yang N, Xin X. Expression of alpha-adrenoceptor subtypes by smooth muscle cells and adventitial fibroblasts in rat aorta and in cell culture. J Pharmacol Exp Ther 298(2):441-452, 2001.
Ghosh S, Kollar B, Nahar T, Suresh Babu S, Wojtowicz A, Sticht C, Gretz N, Wagner AH, Korff T, Hecker M. Loss of the mechanotransducer zyxin promotes a synthetic phenotype of vascular smooth muscle cells. J Am Heart Assoc 4(6):e001712, 2015.
Granata A, Serrano F, Bernard WG, McNamara M, Low L, Sastry P, Sinha S. An iPSC-derived vascular model of Marfan syndrome identifies key mediators of smooth muscle cell death. Nat Genet 49(1):97-109, 2017. doi: 10.1038/ng.3723. Epub 2016 Nov 28.
Grote K, Bavendiek U, Grothusen C, Flach I, Hilfiker-Kleiner D, Drexler H, Schieffer B. Stretch-inducible expression of the angiogenic factor CCN1 in vascular smooth muscle cells is mediated by Egr-1. J Biol Chem 279(53):55675-55681, 2004.
Grote K, Flach I, Luchtefeld M, Akin E, Holland SM, Drexler H, Schieffer B. Mechanical stretch enhances mRNA expression and proenzyme release of matrix metalloproteinase-2 (MMP-2) via NAD(P)H oxidase-derived reactive oxygen species. Circ Res 92(11):e80-86, 2003.
Hamada K, Takuwa N, Yokoyama K, Takuwa Y. Stretch activates Jun N-terminal kinase/stress-activated protein kinase in vascular smooth muscle cells through mechanisms involving autocrine ATP stimulation of purinoceptors. J Biol Chem 273(11):6334-6340, 1998.
Han O, Takei T, Basson M, Sumpio BE. Translocation of PKC isoforms in bovine aortic smooth muscle cells exposed to strain. J Cell Biochem 80(3):367-372, 2001.
Hipper A, Isenberg G. Cyclic mechanical strain decreases the DNA synthesis of vascular smooth muscle cells. Pflugers Arch 440(1):19-27, 2000.
Hishikawa K, Oemar BS, Yang Z, Luscher TF. Pulsatile stretch stimulates superoxide production and activates nuclear factor-B in human coronary smooth muscle. Circ Res 81(5):797-803, 1997.
Hitomi H, Fukui T, Moriwaki K, Matsubara K, Sun GP, Rahman M, Nishiyama A, Kiyomoto H, Kimura S, Ohmori K, Abe Y, Kohno M. Synergistic effect of mechanical stretch and angiotensin II on superoxide production via NADPH oxidase in vascular smooth muscle cells. J Hypertens 24(6):1097-1104, 2006.
Hödebeck M, Scherer C, Wagner AH, Hecker M, Korff T. TonEBP/NFAT5 regulates ACTBL2 expression in biomechanically activated vascular smooth muscle cells. Front Physiol 5:467, 2014.
Howard AB, Alexander RW, Nerem RM, Griendling KK, Taylor WR. Cyclic strain induces an oxidative stress in endothelial cells. Am J Physiol Cell Physiol 272(2):C421-C427, 1997.
Hu B, Song JT, Qu HY, Bi CL, Huang XZ, Liu XX, Zhang M. Mechanical stretch suppresses microRNA-145 expression by activating extracellular signal-regulated kinase 1/2 and upregulating angiotensin-converting enzyme to alter vascular smooth muscle cell phenotype. PLoS One 9(5):e96338, 2014.
Hu Y, Bock G, Wick G, Xu Q. Activation of PDGF receptor in vascular smooth muscle cells by mechanical stress. FASEB J 12(12):1135-1142, 1998.
Huang K, Bao H, Yan ZQ, Wang L, Zhang P, Yao QP, Shi Q, Chen XH, Wang KX, Shen BR, Qi YX, Jiang ZL. MicroRNA-33 protects against neointimal hyperplasia induced by arterial mechanical stretch in the grafted vein. Cardiovasc Res 113(5):488-497, 2017.
Iwasaki H, Eguchi S, Ueno H, Marumo F, Hirata Y. Mechanical stretch stimulates growth of vascular smooth muscle cells via epidermal growth factor receptor. Am J Physiol Heart Circ Physiol 278(2):H521-H529, 2000.
Iwasaki H, Yoshimoto T, Sugiyama T, Hirata Y. Activation of cell adhesion kinase beta by mechanical stretch in vascular smooth muscle cells. Endocrinology 144(6):2304-2310, 2003.
Jia LX, Zhang WM, Li TT, Liu Y, Piao CM, Ma YC, Lu Y, Wang Y, Liu TT, Qi YF, Du J. ER stress dependent microparticles derived from smooth muscle cells promote endothelial dysfunction during thoracic aortic aneurysm and dissection. Clin Sci (Lond) 131(12):1287-1299, 2017.
Jia LX, Zhang WM, Zhang HJ, Li TT, Wang YL, Qin YW, Gu H, Du J. Mechanical stretch-induced endoplasmic reticulum stress, apoptosis and inflammation contribute to thoracic aortic aneurysm and dissection. J Pathol 236(3):373-83, 2015.
Jiang J, Qi YX, Zhang P, Gu WT, Yan ZQ, Shen BR, Yao QP, Kong H, Chien S, Jiang ZL. Involvement of Rab28 in NF-kB nuclear transport in endothelial cells. PLoS One 8(2):e56076, 2013.
Jiang MJ, Yu YJ, Chen YL, Lee YM, Hung LS. Cyclic strain stimulates monocyte chemotactic protein-1 mRNA expression in smooth muscle cells. J Cell Biochem 76(2):303-310, 1999.
Jiang WJ, Ren WH, Liu XJ, Liu Y, Wu FJ, Sun LZ, Lan F, Du J, Zhang HJ. Disruption of mechanical stress in extracellular matrix is related to Stanford type A aortic dissection through down-regulation of Yes-associated protein. Aging (Albany NY) 8(9):1923-1939, 2016.
Kakisis JD, Pradhan S, Cordova A, Liapis CD, Sumpio BE. The role of STAT-3 in the mediation of smooth muscle cell response to cyclic strain. Int J Biochem Cell Biol 37(7):1396-1406, 2005.
Kawabe J, Okumura S, Lee MC, Sadoshima J, Ishikawa Y. Translocation of caveolin regulates stretch-induced ERK activity in vascular smooth muscle cells. Am J Physiol Heart Circ Physiol 286(5):H1845-1852, 2004.
Kim BS, Nikolovski J, Bonadio J, Mooney DJ. Cyclic mechanical strain regulates the development of engineered smooth muscle tissue. Nat Biotech 17(10):979-983, 1999.
Kogata N, Tribe RM, Fässler R, Way M, Adams RH. Integrin-linked kinase controls vascular wall formation by negatively regulating Rho/ROCK-mediated vascular smooth muscle cell contraction. Genes Dev 23(19):2278-2283, 2009.
Kona S, Chellamuthu P, Xu H, Hills SR, Nguyen KT. Effects of cyclic strain and growth factors on vascular smooth muscle cell responses. Open Biomed Eng J 3:28-38, 2009.
Kozai T, Eto M, Yang Z, Shimokawa H, Luscher TF. Statins prevent pulsatile stretch-induced proliferation of human saphenous vein smooth muscle cells via inhibition of Rho/Rho-kinase pathway. Cardiovasc Res 68(3):475-482, 2005.
Kurpinski K, Park J, Thakar RG, Li S. Regulation of vascular smooth muscle cells and mesenchymal stem cells by mechanical strain. Mol Cell Biomech 3(1):21-34, 2006.
Lee EL, Bendre HH, Kalmykov A, Wong JY. Surface modification of uniaxial cyclic strain cell culture platform with temperature-responsive polymer for cell sheet detachment. J Mater Chem B Mater Biol Med 3(40):7899-7902, 2015.
Li C, Hu Y, Mayr M, Xu Q. Cyclic strain stress-induced mitogen-activated protein kinase (MAPK) phosphatase 1 expression in vascular smooth muscle cells is regulated by Ras/Rac-MAPK pathways. J Biol Chem 274(36):25273-25280, 1999.
Li C, Hu Y, Sturm G, Wick G, Xu Q. Ras/Rac-Dependent activation of p38 mitogen-activated protein kinases in smooth muscle cells stimulated by cyclic strain stress. Arterioscler Thromb Vasc Biol 20(3):E1-E9, 2000.
Li Q, Muragaki Y, Hatamura I, Ueno H, Ooshima A. Stretch-induced collagen synthesis in cultured smooth muscle cells from rabbit aortic media and a possible involvement of angiotensin II and transforming growth factor-. J Vasc Res 35(2):93-103, 1998.
Li W, Chen Q, Mills I, Sumpio BE. Involvement of S6 kinase and p38 mitogen activated protein kinase pathways in strain-induced alignment and proliferation of bovine aortic smooth muscle cells. J Cell Physiol 195(2):202-209, 2003.
Licht AH, Nübel T, Feldner A, Jurisch-Yaksi N, Marcello M, Demicheva E, Hu JH, Hartenstein B, Augustin HG, Hecker M, Angel P, Korff T, Schorpp-Kistner M. Junb regulates arterial contraction capacity, cellular contractility, and motility via its target Myl9 in mice. J Clin Invest 120(7):2307-2318, 2010.
Lindsey-Hoffmann SE, Tribe RM, Songu-Mize E. Cyclic Stretch decreases TRPC4 protein and capacitative calcium entry in rat vascular smooth muscle cells. Life Sciences, 83(1-2):29-34, 2008.
Ling S, Deng G, Ives HE, Chatterjee K, Rubanyi GM, Komesaroff PA, Sudhir K. Estrogen inhibits mechanical strain-induced mitogenesis in human vascular smooth muscle cells via down-regulation of Sp-1. Cardiovascular Research 50(1):108-114, 2001.
Liu B, Qu MJ, Qin KR, Li H, Li ZK, Shen BR, Jiang ZL. Role of cyclic strain frequency in regulating the alignment of vascular smooth muscle cells in vitro. Biophys J 94:1497-1507, 2008.
Liu G, Hitomi H, Hosomi N, Lei B, Pelisch N, Nakano D, Kiyomoto H, Ma H, Nishiyama A. Mechanical stretch potentiates angiotensin II-induced proliferation in spontaneously hypertensive rat vascular smooth muscle cells. Hypertens Res 33(12):1250-1257, 2010.
Liu X, Hymel LJ, Songu-Mize E. Role of Na+ and Ca2+ in stretch-induced Na+-K+-ATPase -subunit regulation in aortic smooth muscle cells. Am J Physiol Heart Circ Physiol 274:H83–H89, 1998.
Lundberg MS, Sadhu DN, Grumman VE, Chilian WM, Ramos KS. Actin isoform and 1B-adrenoceptor gene expression in aortic and coronary smooth muscle is influenced by cyclical stretch. In Vitro Cell Dev Biol Anim 31(8):595-600, 1995.
Mantella LE, Quan A, Verma S. Variability in vascular smooth muscle cell stretch-induced responses in 2D culture. Vasc Cell 7:7, 2015
Mayr M, Li C, Zou Y, Huemer U, Hu Y, Xu Q. Biomechanical stress-induced apoptosis in vein grafts involves p38 mitogen-activated protein kinases. FASEB J 14(2):261-270, 2000.
Metzler B, Abia R, Ahmad M, Wernig F, Pachinger O, Hu Y, Xu Q. Activation of heat shock transcription factor 1 in atherosclerosis. Am J Pathol 162(5):1669-1676, 2003.
Mills I, Cohen CR, Kamal K, Li G, Shin T, Du W, Sumpio BE. Strain activation of bovine aortic smooth muscle cell proliferation and alignment: study of strain dependency and the role of protein kinase A and C signaling pathways. J Cell Physiol 170(3):228-34, 1997.
Mills I, Murata K, Packer CS, Sumpio BE. Cyclic strain stimulates dephosphorylation of the 20kDa regulatory myosin light chain in vascular smooth muscle cells. Biochem Biophys Res Commun 205(1):79-84, 1994. Erratum in: Biochem Biophys Res Commun 207(3):1058, 1995.
Mohanty MJ, Li X. Stretch-induced Ca2+ release via an IP3-insensitive Ca2+ channel. Am J Physiol Cell Physiol 283(2):C456-C462, 2002.
Molostvov G, Hiemstra TF, Fletcher S, Bland R, Zehnder D. Arterial expression of the calcium-sensing receptor is maintained by physiological pulsation and protects against calcification. PLoS One 10(10):e0138833, 2015.
Morawietz H, Ma YH, Vives F, Wilson E, Sukhatme VP, Holtz J, Ives HE. Rapid induction and translocation of Egr-1 in response to mechanical strain in vascular smooth muscle cells. Circ Res 84(6):678-687, 1999.
Morrow D, Scheller A, Birney YA, Sweeney C, Guha S, Cummins PM, Murphy R, Walls D, Redmond EM, Cahill PA. Notch-mediated CBF-1/RBP-Jkappa-dependent regulation of human vascular smooth muscle cell phenotype in vitro. Am J Physiol Cell Physiol 289(5):C1188-C1196, 2005.
Morrow D, Sweeney C, Birney YA, Cummins PM, Walls D, Redmond EM, Cahill PA. Cyclic strain inhibits Notch receptor signaling in vascular smooth muscle cells in vitro. Circ Res 96(5):567-575, 2005.
Morrow D, Sweeney C, Birney YA, Guha S, Collins N, Cummins PM, Murphy R, Walls D, Redmond EM, Cahill PA. Biomechanical regulation of hedgehog signaling in vascular smooth muscle cells in vitro and in vivo. Am J Physiol Cell Physiol 292(1):C488-C496, 2007.
Noda M, Katoh T, Takuwa N, Kumada M, Kurokawa K, Takuwa Y. Synergistic stimulation of parathyroid hormone-related peptide gene expression by mechanical stretch and angiotensin II in rat aortic smooth muscle cells. J Biol Chem 269(27):17911-17917, 1994.
Noda M, Takuwa Y, Katoh T, Kurokawa K. Stretch-induced parathyroid hormone-related peptide gene expression: implication in the regulation of myogenic tone. Curr Opin Nephrol Hypertens 4(5):383-387, 1995.
Numaguchi K, Eguchi S, Yamakawa T, Motley ED, Inagami T. Mechanotransduction of rat aortic vascular smooth muscle cells requires RhoA and intact actin filaments. Circ Res 85(1):5-11, 1999.
O'Callaghan CJ, Williams B. Mechanical strain-induced extracellular matrix production by human vascular smooth muscle cells: role of TGF-beta1. Hypertension 36(3):319-324, 2000.
Pfisterer L, Feldner A, Hecker M, Korff T. Hypertension impairs myocardin function: a novel mechanism facilitating arterial remodelling. Cardiovasc Res 96(1):120-9, 2012.
Ping S, Li Y, Liu S, Zhang Z, Wang J, Zhou Y, Liu K, Huang J, Chen D, Wang J, Li C. Simultaneous increases in proliferation and apoptosis of vascular smooth muscle cells accelerate diabetic mouse venous atherosclerosis. PLoS One 10(10):e0141375, 2015.
Putnam AJ, Cunningham JJ, Dennis RG, Linderman JJ, Mooney DJ. Microtubule assembly is regulated by externally applied strain in cultured smooth muscle cells. J Cell Sci 111(Pt 22):3379-3387, 1998.
Pyle AL, Atkinson JB, Pozzi A, Reese J, Eckes B, Davidson JM, Crimmins DL, Young PP. Regulation of the atheroma-enriched protein, SPRR3, in vascular smooth muscle cells through cyclic strain is dependent on integrin alpha1beta1/collagen interaction. Am J Pathol 173(5):1577-1588, 2008.
Qi YX, Yao QP, Huang K, Shi Q, Zhang P, Wang GL, Han Y, Bao H, Wang L, Li HP, Shen BR, Wang Y, Chien S, Jiang ZL. Nuclear envelope proteins modulate proliferation of vascular smooth muscle cells during cyclic stretch application. Proc Natl Acad Sci U S A 113(19):5293-8, 2016.
Qu M, Liu B, Jiang Z. Effect of frequency of cyclic tensile strain on extracellular matrix of rat vascular smooth muscle cells in vitro. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi 25(4):826-830, 2008.
Qu MJ, Liu B, Qi YX, Jiang ZL. Role of Rac and Rho-GDI alpha in the frequency-dependent expression of h1-calponin in vascular smooth muscle cells under cyclic mechanical strain. Ann Biomed Eng 36(9):1481-1488, 2008.
Qu MJ, Liu B, Wang HQ, Yan ZQ, Shen BR, Jiang ZL. Frequency-dependent phenotype modulation of vascular smooth muscle cells under cyclic mechanical strain. J Vasc Res 44(5):345-353, 2007.
Rakugi H, Yu H, Kamitani A, Nakamura Y, Ohishi M, Kamide K, Nakata Y, Takami S, Higaki J, Ogihara T. Links between hypertension and myocardial infarction. American Heart Journal 132(1 Pt 2 Su):213-221, 1996.
Regnault V, Perret-Guillaume C, Kearney-Schwartz A, Max JP, Labat C, Louis H, Wahl D, Pannier B, Lecompte T, Weryha G, Challande P, Safar ME, Benetos A, Lacolley P. Tissue factor pathway inhibitor: a new link among arterial stiffness, pulse pressure, and coagulation in postmenopausal women. Arterioscler Thromb Vasc Biol 31(5):1226-1232, 2011.
Reusch P, Wagdy H, Reusch R, Wilson E, Ives HE. Mechanical strain increases smooth muscle and decreases nonmuscle myosin expression in rat vascular smooth muscle cells. Circ Res 79(5):1046-1053, 1996.
Reyna SV, Ensenat D, Johnson FK, Wang H, Schafer AI, Durante W. Cyclic strain stimulates L-proline transport in vascular smooth muscle cells. American Journal of Hypertension 17(8):712-717, 2004.
Richard MN, Deniset JF, Kneesh AL, Blackwood D, Pierce GN. Mechanical stretching stimulates smooth muscle cell growth, nuclear protein import, and nuclear pore expression through mitogen-activated protein kinase activation. J Biol Chem 282(32):23081-23088, 2007.
Ruiz-Velasco V, Mayer MB, Hymel LJ. Dihydropyridine-sensitive Ca2+ influx modulated by stretch in A7r5 vascular smooth muscle cells. European Journal of Pharmacology 296(3):327-334, 1996.
Schad JF, Meltzer KR, Hicks MR, Beutler DS, Cao TV, Standley PR. Cyclic strain upregulates VEGF and attenuates proliferation of vascular smooth muscle cells. Vasc Cell 3:21, 2011.
Scherer C, Pfisterer L, Wagner AH, Hödebeck M, Cattaruzza M, Hecker M, Korff T. Arterial wall stress controls NFAT5 activity in vascular smooth muscle cells. J Am Heart Assoc 3(2):e000626, 2014.
Sedding DG, Hermsen J, Seay U, Eickelberg O, Kummer W, Schwencke C, Strasser RH, Tillmanns H, Braun-Dullaeus RC. Caveolin-1 facilitates mechanosensitive protein kinase B (Akt) signaling in vitro and in vivo. Circ Res 96(6):635-642, 2005.
Sedding DG, Homann M, Seay U, Tillmanns H, Preissner KT, Braun-Dullaeus RC. Calpain counteracts mechanosensitive apoptosis of vascular smooth muscle cells in vitro and in vivo. FASEB J 22(2):579-589, 2008.
Sedding DG, Widmer-Teske R, Mueller A, Stieger P, Daniel JM, Gündüz D, Pullamsetti S, Nef H, Moellmann H, Troidl C, Hamm C, Braun-Dullaeus R. Role of the phosphatase PTEN in early vascular remodeling. PLoS One 8(3):e55445, 2013.
Seo KW, Lee SJ, Kim YH, Bae JU, Park SY, Bae SS, Kim CD. Mechanical stretch increases MMP-2 production in vascular smooth muscle cells via activation of PDGFR-β/Akt signaling pathway. PLoS One 8(8):e70437, 2013.
Sevieux N, Alam J, Songu-Mize E. Effect of cyclic stretch on alpha-subunit mRNA expression of Na+-K+-ATPase in aortic smooth muscle cells. Am J Physiol Cell Physiol 280(6):C1555-C1560, 2001.
Sevieux N, Alam J, Songu-Mize E. Effect of cyclic stretch on transcriptional regulation of the alpha subunits of Na+, K+-ATPase in aortic smooth muscle cells [abstract]. FASEB J 14:A331, 272.5, 2000.
Sevieux N, Ark M, Hornick C, Songu-Mize E. Short-term stretch translocates the alpha-1-subunit of the Na pump to plasma membrane. Cell Biochem Biophys 38(1):23-32, 2003.
Shah MR, Wedgwood S, Czech L, Kim GA, Lakshminrusimha S, Schumacker PT, Steinhorn RH, Farrow KN. Cyclic stretch induces inducible nitric oxide synthase and soluble guanylate cyclase in pulmonary artery smooth muscle cells. Int J Mol Sci 14(2):4334-48, 2013.
Shyu KG, Chao YM, Wang BW, Kuan P. Regulation of discoidin domain receptor 2 by cyclic mechanical stretch in cultured rat vascular smooth muscle cells. Hypertension 46(3):614-621, 2005.
Songu-Mize E, Jacobs M, Shreves A. Acute cyclic stretch induces upregulation of the Na-pump of aortic smooth muscle cells in culture by cytoplasmic translocation [abstract]. FASEB J 13:351.5, 1999.
Songu-Mize E, Jacobs M. Effect of cyclic in vitro stretch on aortic smooth muscle cell p42 and p44 mitogen acticated kinases [abstract]. FASEB J 12(Part I):A403, 2342, 1998.
Songu-Mize E, Liu X, Hymel LJ. Effect of mechanical strain on expression of Na+, K+-ATPase alpha subunits in rat aortic smooth muscle cells. Amer J Med Sci 316(3):196-199, 1998.
Songu-Mize E, Liu X, Stones JE, Hymel LJ. Regulation of Na+, K+-ATPase alpha-subunit expression by mechanical strain in aortic smooth muscle cells. Hypertension 27:827-832, 1996.
Songu-Mize E, Sevieux N, Liu X, Jacobs M. Effect of short-term cyclic stretch on sodium pump activity in aortic smooth muscle cells. Amer J Physiol Heart Circ Physiol 281:H2072-H2078, 2001.
Standley PR, Camaratta A, Nolan BP, Purgason CT, Stanley MA. Cyclic stretch induces vascular smooth muscle cell alignment via NO signaling. Am J Physiol Heart Circ Physiol 283(5):H1907-H1914, 2002.
Standley PR, Obards TJ, Martina CL. Cyclic stretch regulates autocrine IGF-I in vascular smooth muscle cells: implications in vascular hyperplasia. Am J Physiol Endocrinol Metab 276:E697-E705, 1999.
Standley PR, Stanley MA, Senechal P. Activation of mitogenic and antimitogenic pathways in cyclically stretched arterial smooth muscle. Am J Physiol Endocrinol Metab 281(6):E1165-E1171, 2001.
Stanley AG, Knight AL, Williams B. Mechanical strain sensitizes human vascular smooth muscle cells to angiotensin II. American Journal of Hypertension 13(4 Suppl 1):S12, 2000.
Stanley AG, Patel H, Knight AL, Williams B. Mechanical strain-induced human vascular matrix synthesis: the role of angiotensin II. J Renin Angiotensin Aldosterone Syst 1(1):32-35, 2000.
Su BY, Shontz KM, Flavahan NA, Nowicki PT. The effect of phenotype on mechanical stretch-induced vascular smooth muscle cell apoptosis. J Vasc Res 43(3):229-237, 2006.
Sumpio BE, Banes AJ, Link WG, Johnson G Jr. Enhanced collagen production by smooth muscle cells during repetitive mechanical stretching. Arch Surg 123(10):1233-1236, 1988.
Sumpio BE, Banes AJ. Response of porcine aortic smooth muscle cells to cyclic tensional deformation in culture. J Surg Res 44(6):696-701, 1988.
Tamura K, Chen YE, Lopez-Ilasaca M, Daviet L, Tamura N, Ishigami T, Akishita M, Takasaki I, Tokita Y, Pratt RE, Horiuchi M, Dzau VJ, and Umemura S. Molecular mechanism of fibronectin gene activation by cyclic stretch in vascular smooth muscle cells. J Biol Chem 275(44):34619-34627, 2000.
Tan W, Scott D, Belchenko D, Qi HJ, Xiao L. Development and evaluation of microdevices for studying anisotropic biaxial cyclic stretch on cells. Biomed Microdevices 10(6):869-882, 2008.
Tock J, Van Putten V, Stenmark KR, Nemenoff RA. Induction of SM--actin expression by mechanical strain in adult vascular smooth muscle cells is mediated through activation of JNK and p38 MAP kinase. Biochem Biophys Res Commun 301(4):1116-1121, 2003.
van Wamel AJ, Ruwhof C, van der Valk-Kokshoom LE, Schrier PI, van der Laarse A. The role of angiotensin II, endothelin-1 and transforming growth factor- as autocrine/paracrine mediators of stretch-induced cardiomyocyte hypertrophy. Mol Cell Biochem 218(1-2):113-124, 2001.
van Wamel AJ, Ruwhof C, van der Valk-Kokshoorn LJ, Schrier PI, van der Laarse A. Stretch-induced paracrine hypertrophic stimuli increase TGF-1 expression in cardiomyocytes. Mol Cell Biochem 236(1-2):147-153, 2002.
von Offenberg Sweeney N, Cummins PM, Birney YA, Redmond EM, Cahill PA. Cyclic strain-induced endothelial MMP-2: role in vascular smooth muscle cell migration. Biochemical and Biophysical Research Communications 320:325–333, 2004.
Walker-Caprioglio HM, Hunter DD, McGuire PG, Little SA, McGuffee LJ. Composition in situ and in vitro of vascular smooth muscle laminin in the rat. Cell Tissue Res 281(1):187-196, 1995.
Wedgwood S, Lakshminrusimha S, Schumacker PT, Steinhorn RH. Hypoxia inducible factor signaling and experimental persistent pulmonary hypertension of the newborn. Front Pharmacol 6:47, 2015.
Wernig F, Mayr M, Xu Q. Mechanical stretch-induced apoptosis in smooth muscle cells is mediated by 1-integrin signaling pathways. Hypertension 41(4):903-911, 2003.
Wiersbitzky M, Mills I, Sumpio BE, Gewirtz H. Chronic cyclic strain reduces adenylate cyclase activity and stimulatory G protein subunit levels in coronary smooth muscle cells. Exp Cell Res 210(1):52-55, 1994.
Wilson E, Mai Q, Sudhir K, Weiss RH, Ives HE. Mechanical strain induces growth of vascular smooth muscle cells via autocrine action of PDGF. J Cell Biol 123(3):741-747, 1993.
Wilson E, Vives F, Collins T, Ives HE. Strain-responsive regions in the platelet-derived growth factor-A gene promoter. Hypertension 31(1 Pt 2):170-175, 1998.
Yang Z, Noll G, Luscher TF. Calcium antagonists differently inhibit proliferation of human coronary smooth muscle cells in response to pulsatile stretch and platelet- derived growth factor. Circulation 88:832-836, 1993.
Yao QP, Xie ZW, Wang KX, Zhang P, Han Y, Qi YX, Jiang ZL. Profiles of long noncoding RNAs in hypertensive rats: long noncoding RNA XR007793 regulates cyclic strain-induced proliferation and migration of vascular smooth muscle cells. J Hypertens 35(6):1195-1203, 2017.
Yao QP, Zhang P, Qi YX, Chen SG, Shen BR, Han Y, Yan ZQ, Jiang ZL. The role of SIRT6 in the differentiation of vascular smooth muscle cells in response to cyclic strain. Int J Biochem Cell Biol 49:98-104, 2014.
Zampetaki A, Zhang Z, Hu Y, Xu Q. Biomechanical stress induces IL-6 expression in smooth muscle cells via Ras/Rac1-p38 MAPK-NF-kappaB signaling pathways. Am J Physiol Heart Circ Physiol 288(6):H2946-H2954, 2005.
Bonacci JV, Harris T, Stewart AG. Impact of extracellular matrix and strain on proliferation of bovine airway smooth muscle. Clin Exp Pharmacol Physiol 30(5-6):324-328, 2003.
Fairbank NJ, Connolly SC, Mackinnon JD, Wehry K, Deng L, Maksym GN. Airway smooth muscle cell tone amplifies contractile function in the presence of chronic cyclic strain. Am J Physiol Lung Cell Mol Physiol 295(3):L479-L488, 2008.
Hasaneen NA, Zucker S, Cao J, Chiarelli C, Panettieri RA, Foda HD. Cyclic mechanical strain-induced proliferation and migration of human airway smooth muscle cells: role of EMMPRIN and MMPs. FASEB J 19(11):1507-1509, 2005.
Hasaneen NA, Zucker S, Lin RZ, Vaday GG, Panettieri RA, Foda HD. Angiogenesis is induced by airway smooth muscle strain. Am J Physiol Lung Cell Mol Physiol 293(4):L1059-L1068, 2007.
Hirst SJ, Martin JG, Bonacci JV, Chan V, Fixman ED, Hamid QA, Herszberg B, Lavoie JP, McVicker CG, Moir LM, Nguyen TT, Peng Q, Ramos-Barbon D, Stewart AG. Proliferative aspects of airway smooth muscle. Journal of Allergy and Clinical Immunology 114(2 Suppl):S2-S17, 2004.
Kumar A, Knox AJ, Boriek AM. CCAAT/enhancer-binding protein and activator protein-1 transcription factors regulate the expression of interleukin-8 through the mitogen-activated protein kinase pathways in response to mechanical stretch of human airway smooth muscle cells. J Biol Chem 278(21):18868-18876, 2003.
Mata-Greenwood E, Grobe A, Kumar S, Noskina Y, and Black SM. Cyclic stretch increases VEGF expression in pulmonary arterial smooth muscle cells via TGF-1 and reactive oxygen species: a requirement for NAD(P)H oxidase. Am J Physiol Lung Cell Mol Physiol 289(2):L288-L289, 2005.
Mohamed JS, Boriek AM. Loss of desmin triggers mechanosensitivity and up-regulation of Ankrd1 expression through Akt-NF-B signaling pathway in smooth muscle cells. FASEB J 26(2):757-65, 2012.
Mohamed JS, Boriek AM. Stretch augments TGF-beta1 expression through RhoA/ROCK1/2, PTK, and PI3K in airway smooth muscle cells. Am J Physiol Lung Cell Mol Physiol 299(3):L413-L424, 2010.
Mohamed JS, Lopez MA, Boriek AM. Mechanical stretch up-regulates microRNA-26a and induces human airway smooth muscle hypertrophy by suppressing glycogen synthase kinase-3β. J Biol Chem 285(38):29336-29347, 2010.
Ochoa CD, Baker H, Hasak S, Matyal R, Salam A, Hales CA, Hancock W, Quinn DA. Cyclic stretch affects pulmonary endothelial cell control of pulmonary smooth muscle cell growth. Am J Respir Cell Mol Biol 39(1):105-112, 2008.
Pasternyk SM, D'Antoni ML, Venkatesan N, Siddiqui S, Martin JG, Ludwig MS. Differential effects of extracellular matrix and mechanical strain on airway smooth muscle cells from ovalbumin- vs. saline-challenged Brown Norway rats. Respir Physiol Neurobiol 181(1):36-43, 2012.
Quinn TP, Schlueter M, Soifer SJ, Gutierrez JA. Cyclic mechanical stretch induces VEGF and FGF-2 expression in pulmonary vascular smooth muscle cells. Am J Physiol Lung Cell Mol Physiol 282(5):L897-L903, 2002.
Shah MR, Wedgwood S, Czech L, Kim GA, Lakshminrusimha S, Schumacker PT, Steinhorn RH, Farrow KN. Cyclic stretch induces inducible nitric oxide synthase and soluble guanylate cyclase in pulmonary artery smooth muscle cells. Int J Mol Sci 14(2):4334-48, 2013.
Smith PG, Deng L, Fredberg JJ, Maksym GN. Mechanical strain increases cell stiffness through cytoskeletal filament reorganization. Am J Physiol Lung Cell Mol Physiol 285(2):L456-L463, 2003.
Smith PG, Garcia R, Kogerman L. Strain reorganizes focal adhesions and cytoskeleton in cultured airway smooth muscle cells. Exp Cell Res 232(1):127-136, 1997.
Smith PG, Roy C, Dreger J, Brozovich F. Mechanical strain increases velocity and extent of shortening in cultured airway smooth muscle cells. Am J Physiol Lung Cell Mol Physiol 277:L343-L348, 1999.
Smith PG, Roy C, Fisher S, Huang QQ, Brozovich F. Mechanical strain increases force production and calcium sensitivity in cultured airway smooth muscle cells. J Appl Physiol 89(5):2092-2098, 2000.
Smith PG, Roy C, Zhang YN, Chauduri S. Mechanical stress increases RhoA activation in airway smooth muscle cells. Am J Respir Cell Mol Biol 28(4):436-442, 2003.
Smith PG, Tokui T, Ikebe M. Mechanical strain increases contractile enzyme activity in cultured airway smooth muscle cells. Am J Physiol 268(6 Pt 1):L999-L1005, 1995.
Trempus CS, Song W, Lazrak A, Yu Z, Creighton JR, Young BM, Heise RL, Yu YR, Ingram JL, Tighe RM, Matalon S, Garantziotis S. A novel role for primary cilia in airway remodeling. Am J Physiol Lung Cell Mol Physiol 313(2):L328-L338, 2017.
Vogel E, Britt RD, Faksh A, Prakash YS, Martin RJ, MacFarlane P, Pabelick C. Mechanical stretch induces remodeling of developing human airway smooth muscle. Am J Respir Crit Care Med 191:A5577, 2015.
Wang L, Liu HW, McNeill KD, Stelmack G, Scott JE, Halayko AJ. Mechanical strain inhibits airway smooth muscle gene transcription via protein kinase C signaling. American Journal of Respiratory Cell Molecular Biology 31:54-61, 2004.
Wedgwood S, Devol JM, Grobe A, Benavidez E, Azakie A, Fineman JR, Black SM. Fibroblast growth factor-2 expression is altered in lambs with increased pulmonary blood flow and pulmonary hypertension. Pediatr Res 61(1):32-36, 2007.
Wedgwood S, Lakshminrusimha S, Schumacker PT, Steinhorn RH. Hypoxia inducible factor signaling and experimental persistent pulmonary hypertension of the newborn. Front Pharmacol 6:47, 2015.
Dalrymple A, Mahn K, Poston L, Songu-Mize E, Tribe R. Mechanical stretch regulates TrpC proteins and calcium entry in human myometrial smooth muscle cells [abstract]. J Soc Gynecol Invest 11(2 Suppl):225A, 2004.
Dalrymple A, Mahn K, Poston L, Songu-Mize E, Tribe RM. Mechanical stretch regulates TRPC expression and calcium entry in human myometrial smooth muscle cells. Mol Hum Reprod 13(3):31-39, 2007.
Loudon JA, Sooranna SR, Bennett PR, Johnson MR. Mechanical stretch of human uterine smooth muscle cells increases IL-8 mRNA expression and peptide synthesis. Mol Hum Reprod 10(12):895-899, 2004.
Mitchell JA, Shynlova O, Langille BL, Lye SJ. Mechanical stretch and progesterone differentially regulate activator protein-1 transcription factors in primary rat myometrial smooth muscle cells. Am J Physiol Endocrinol Metab 287(3):E439-E445, 2004.
Oldenhof AD, Shynlova OP, Liu M, Langille BL, Lye SJ. Mitogen-activated protein kinases mediate stretch-induced c-fos mRNA expression in myometrial smooth muscle cells. Am J Physiol Cell Physiol 283(5):C1530-C1539, 2002.
Shynlova OP, Oldenhof AD, Liu M, Langille L, Lye SJ. Regulation of c-fos expression by static stretch in rat myometrial smooth muscle cells. Am J Obstet Gynecol 186(6):1358-1365, 2002.
Shynlova O, Tsui P, Dorogin A, Lye SJ. Monocyte chemoattractant protein-1 (CCL-2) integrates mechanical and endocrine signals that mediate term and preterm labor. J Immunol 181(2):1470-1479, 2008.
Sooranna SR, Engineer N, Liang Z, Bennett PR, Johnson MR; Imperial College Parturition Research Group. Stretch and interleukin 1beta: pro-labour factors with similar mitogen-activated protein kinase effects but differential patterns of transcription factor activation and gene expression. J Cell Physiol 212(1):195-206, 2007.
Sooranna SR, Grigsby P, Myatt L, Bennett PR, Johnson MR. Prostanoid receptors in human uterine myocytes: the effect of reproductive state and stretch. Mol Hum Reprod 11(12):859-864, 2005.
Sooranna SR, Grigsby PL, Engineer N, Liang Z, Sun K, Myatt L, Johnson MR. Myometrial prostaglandin E2 synthetic enzyme mRNA expression: spatial and temporal variations with pregnancy and labour. Mol Hum Reprod 12(10):625-631, 2006.
Terzidou V, Sooranna SR, Kim LU, Thornton S, Bennett PR, Johnson MR. Mechanical stretch up-regulates the human oxytocin receptor in primary human uterine myocytes. J Clin Endocrinol Metab 90(1):237-246, 2005.
Sevieux N, Ark M, Hornick C, Songu-Mize E. Acute stretch translocates Na-pump alpha-1 subunit to plasma membrane in smooth muscle cells. Cell Biochem Biophys. 38(1):23-32, 2003.
Choi K, Mollapour E, Shears SB. Signal transduction during environmental stress: InsP8 operates within highly restricted contexts. Cellular Signalling 17(12):1533-1541, 2005.
Li F, Lin YM, Sarna SK, Shi XZ. Cellular mechanism of mechanotranscription in colonic smooth muscle cells. Am J Physiol Gastrointest Liver Physiol 303(5):G646-56, 2012.
Lin YM, Li F, Shi XZ. Mechanical stress is a pro-inflammatory stimulus in the gut: in vitro, in vivo and ex vivo evidence. PLoS One 9(9):e106242, 2014.
Shi XZ, Lin YM, Powell DW, Sarna SK. Pathophysiology of motility dysfunction in bowel obstruction: role of stretch-induced COX-2. Am J Physiol Gastrointest Liver Physiol 300(1):G99-G108, 2011.
Wehner S, Buchholz BM, Schuchtrup S, Rocke A, Schaefer N, Lysson M, Hirner A, Kalff JC. Mechanical strain and TLR4 synergistically induce cell-specific inflammatory gene expression in intestinal smooth muscle cells and peritoneal macrophages. Am J Physiol Gastrointest Liver Physiol 299(5):G1187-G1197, 2010.
Yang S, Dong F, Li D, Sun H, Wu B, Sun T, Wang Y, Shen P, Ji F, Zhou D. Persistent distention of colon damages interstitial cells of Cajal through Ca2+ -ERK-AP-1-miR-34c-SCF deregulation. J Cell Mol Med 21(9):1881-1892, 2017.
