Ecto-5′-nucleotidase promotes invasion, migration and adhesion of human breast cancer cells
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Airas L, Salmi M, Jalkanen S (1993) Lymphocyte-vascular adhesion protein-2 is a novel 70-Kda molecule involved in lymphocyte adhesion to vascular endothelium. J Immunol 151:4228–4238
Airas L, Hellman J, Salmi M, Bono P, Puurunen T, Smith DJ, Jalkanen S (1995) Cd73 is involved in lymphocyte binding to the endothelium—characterization of lymphocyte vascular adhesion protein-2 identifies it as Cd73. J Exp Med 182:1603–1608
Airas L, Niemela J, Jalkanen S (2000) CD73 engagement promotes lymphocyte binding to endothelial cells via a lymphocyte function-associated antigen-1-dependent mechanism. J Immunol 165:5411–5417
Arvilommi AM, Salmi M, Airas L, Kalimo K, Jalkanen S (1997) CD73 mediates lymphocyte binding to vascular endothelium in inflamed human skin. Eur J Immunol 27:248–254
Bachmeier BE, Nerlich AG, Lichtinghagen R, Sommerhoff CP (2001) Matrix metalloproteinases (MMPs) in breast cancer cell lines of different tumorigenicity. Anticancer Res 21:3821–3828
Barcz E, Sommer E, Sokolnicka I, Gawrychowski K, Roszkowska-Purska K, Janik P, Skopinska-Rozewska E (1998) The influence of theobromine on angiogenic activity and proangiogenic cytokines production of human ovarian cancer cells. Oncol Rep 5:517–520
Blay J, White TD, Hoskin DW (1997) The extracellular fluid of solid carcinomas contains immunosuppressive concentrations of adenosine. Cancer Res 57:2602–2605
Canbolat O, Durak I, Cetin R, Kavutcu M, Demirci S, Ozturk S (1996) Activities of adenosine deaminase, 5′-nucleotidase, guanase, and cytidine deaminase enzymes in cancerous and non-cancerous human breast tissues. Breast Cancer Res Treat 37:189–193
Elvin P, Garner AP (2005) Tumour invasion and metastasis: challenges facing drug discovery. Curr Opinion Pharmacol 5:374–381
Eroglu A, Canbolat O, Demirci S, Kocaoglu H, Eryavuz Y, Akgul H (2000) Activities of adenosine deaminase and 5′ -nucleotidase in cancerous and noncancerous human colorectal tissues. Medical Oncology 17:319–324
Fenoglio C, Necchi D, Civallero M, Ceroni M, Nano R (1997) Cytochemical demonstration of nitric oxide synthase and 5′nucleotidase in human glioblastoma. Anticancer Res 17:2507–2511
Fishman P, Bar-Yehuda S, Barer F, Madi L, Multani AS, Pathak S (2001) The A3 adenosine receptor as a new target for cancer therapy and chemoprotection. Exp Cell Res 269:230–236
Gilles C, Bassuk JA, Pulyaeva H, Sage EH, Foidart JM, Thompson EW (1998) SPARC/osteonectin induces matrix metalloproteinase 2 activation in human breast cancer cell lines. Cancer Res 58:5529–5536
Kamath L, Meydani A, Foss F, Kuliopulos A (2001) Signaling from protease-activated receptor-1 inhibits migration and invasion of breast cancer cells. Cancer Res 61:5933–5940
Khoo HE, Ho CL, Chhatwal VJS, Chan STF, Ngoi SS, Moochhala SM (1996) Differential expression of adenosine A1 receptors in colorectal cancer and related mucosa. Cancer Lett 106:17–21
Kondo T, Nakazawa T, Murata SI, Katoh R (2006) Expression of CD73 and its ecto-5′-nucleotidase activity are elevated in papillary thyroid carcinomas. Histopathology 48:612–614
Lee H, Lin ECK, Liu LM, Smith JW (2003) Gene expression profiling of tumor xenografts: In vivo analysis of organ-specific metastasis. Int J Cancer 107:528–534
Lelievre V, Muller JM, Falcon J (1998) Adenosine modulates cell proliferation in human colonic carcinoma. II. Differential behavior of HT29, DLD-1, Caco-2 and SW403 cell lines. Eur J Pharmacol 341:299–308
Lennon PF, Taylor CT, Stahl GL, Colgan SP (1998) Neutrophil-derived 5 ′-adenosine monophosphate promotes endothelial barrier function via CD73-mediated conversion to adenosine and endothelial A(2B) receptor activation. J Exp Med 188:1433–1443
Lu J, Pierron A, Ravid K (2003) An adenosine analogue, IB-MECA, down-regulates estrogen receptor a and suppresses human breast cancer cell proliferation. Cancer Res 63:6413–6423
Lutty GA, McLeod DS (2003) Retinal vascular development and oxygen-induced retinopathy: a role for adenosine. Prog Retin Eye Res 22:95–111
Lutty GA, Mathews MK, Merges C, McLeod DS (1998) Adenosine stimulates canine retinal microvascular endothelial cell migration and tube formation. Curr Eye Res 17:594–607
Madi L, Bar-Yehuda S, Barer F, Ardon E, Ochaion A, Fishman P (2003) A3 adenosine receptor activation in melanoma cells—association between receptor fate and tumor growth inhibition. J Biol Chem 278:42121–42130
Manni A, Washington S, Griffith JW, Verderame MF, Mauger D, Demers LM, Samant RS, Welch DR (2002) Influence of polyamines on in vitro and in vivo features of aggressive and metastatic behavior by human breast cancer cells. Clin Exp Metastasis 19:95–105
Merighi S, Mirandola P, Milani D, Varani K, Gessi S, Klotz KN, Leung E, Baraldi PG, Borea PA (2002) Adenosine receptors as mediators of both cell proliferation and cell death of cultured human melanoma cells. J Invest Dermatol 119:923–933
Merighi S, Mirandola P, Varani K, Gessi S, Leung E, Baraldi PG, Tabrizi MA, Borea PA (2003) A glance at adenosine receptors: novel target for antitumor therapy. Pharmacol Ther 100:31–48
Mujoomdar M, Bennett A, Hoskin D, Blay J (2004) Adenosine stimulation of proliferation of breast carcinoma cell lines: Evaluation of the [H-3]thymidine assay system and modulatory effects of the cellular microenvironment in vitro. J Cell Physiol 201:429–438
Mullen P, Ritchie A, Langdon SP, Miller WR (1996) Effect of matrigel on the tumorigenicity of human breast and ovarian carcinoma cell lines. Int J Cancer 67:816–820
Narravula S, Lennon PF, Mueller BU, Colgan SP (2000) Regulation of endothelial CD73 by adenosine: paracrine pathway for enhanced endothelial barrier functions. J Immunol 165:5262–5268
Natori Y, Baba T, Moriguchi M, Takeshita I, Fukui M (1992) Effects of Theophylline on the selective increases in intratumoral blood-flow induced by intracarotid infusion of adenosine and adenosine-triphosphate in C6 glioma-transplanted rat brains. Surg Neurol 37:8–14
Okusa MD, Linden J, Huang LP, Rieger JM, Macdonald TL, Huynh LP (2000) A(2A) adenosine receptor-mediated inhibition of renal injury and neutrophil adhesion. Am Physiol Renal Physiol 279:F809-F818
Panjehpour M, Castro M, Klotz KN (2005) Human breast cancer cell line MDA-MB-231 expresses endogenous A(2B) adenosine receptors mediating a Ca2+ signal. Br J Pharmacol 145:211–218
Parr C, Jiang WG (2003) Quantitative analysis of lymphangiogenic markers in human colorectal cancer. Int J Oncol 23:533–539
Rathbone MP, Middlemiss PJ, Kim JK, Gysbers JW, Deforge SP, Smith RW, Hughes DW (1992) Adenosine and its nucleotides stimulate proliferation of chick astrocytes and human astrocytoma-cells. Neurosci Res 13:1–17
Richard LF, Dahms TE, Webster RO (1998) Adenosine prevents permeability increase in oxidant-injured endothelial monolayers. Am J Physiol Heart Circ Physiol 43:H35–H42
Sadej R, Spychala J, Skladanowski AC (2006) Expression of ecto-5′-nucleotidase (eN, CD73) in cell lines from various stages of human melanoma. Melanoma Res 16:213–222
Schoen SW, Graeber MB, Toth L, Kreutzberg GW (1988) 5′-Nucleotidase in postnatal ontogeny of rat cerebellum: a marker for migrating nerve cells? Brain Res 467:125–136
Sitkovsky MV (2003) Use of the A(2A) adenosine receptor as a physiological immunosuppressor and to engineer inflammation in vivo. Biochem Pharmacol 65:493–501
Sommers CL, Byers SW, Thompson EW, Torri JA, Gelmann EP (1994) Differentiation State and Invasiveness of Human Breast-Cancer Cell-Lines. Breast Cancer Res Treat 31:325–335
Spychala J, Lazarowski E, Ostapkowicz A, Ayscue LH, Jin A, Mitchell BS (2004) Role of estrogen receptor in the regulation of ecto-5′-nucleotidase and adenosine in breast cancer. Clin Cancer Res 10:708–717
Stochaj U, Dieckhoff J, Mollenhauer J, Cramer M, Mannherz HG (1989) Evidence for the direct interaction of chicken gizzard 5′-nucleotidase with laminin and fibronectin. Biochimica et Biophysica Acta 992:385–392
Su AI, Welsh JB, Sapinoso LM, Kern SG, Dimitrov P, Lapp H, Schultz PG, Powell SM, Moskaluk CA, Frierson HF, Hampton GM (2001) Molecular classification of human carcinomas by use of gene expression signatures. Cancer Res 61:7388–7393
Tey HB, Khoo HE, Tan CH (1992) Adenosine Modulates Cell-Growth in Human Epidermoid Carcinoma (a431) Cells. Biochem Biophys Res Commun 187:1486–1492
Thompson EW, Paik SM, Brunner N, Sommers CL, Zugmaier G, Clarke R, Shima TB, Torri J, Donahue S, Lippman ME, Martin GR, Dickson RB (1992) Association of increased basement-membrane invasiveness with absence of estrogen-receptor and expression of vimentin in human breast-cancer cell-lines. J Cell Physiol 150:534–544
Ujhazy P, Klobusicka M, Babusikova O, Strausbauch P, Mihich E, Ehrke MJ (1994) Ecto-5′-Nucleotidase (Cd73) in Multidrug-Resistant Cell-Lines Generated by Doxorubicin. International Journal of Cancer 59:83–93
Ujhazy P, Berleth ES, Pietkiewicz JM, Kitano H, Skaar JR, Ehrke MJ, Mihich E (1996) Evidence for the involvement of ecto-5′-nucleotidase (CD73) in drug resistance. International Journal of Cancer 68:493–500
Vogel M, Kowalewski HJ, Zimmermann H, Janetzko A, Margolis RU, Wollny HE (1991) Association of the Hnk-1 epitope with 5′-nucleotidase from torpedo-marmorata (electric ray) electric organ. Biochem J 278:199–202
Woodhouse EC, Amanatullah DF, Schetz JA, Liotta LA, Stracke ML, Clair T (1998) Adenosine receptor mediates motility in human melanoma cells. Biochem Biophys Res Commun 246:888–894
Zajchowski DA, Bartholdi MF, Gong Y, Webster L, Liu HL, Munishkin A, Beauheim C, Harvey S, Ethier SP, Johnson PH (2001) Identification of gene expression profiles that predict the aggressive behavior of breast cancer cells. Cancer Res 61:5168–5178
Zernecke A, Bidzhekov K, Ozuyaman B, Fraemohs L, Liehn EA, Luscher-Firzlaff JM, Luscher B, Schrader J, Weber C (2006) CD73/Ecto-5 ′-nucleotidase protects against vascular inflammation and neointima formation. Circulation 113:2120–2127
Zhou TT, Zhou P (2006) Crucial role for ecto-5′-nucleotidase(CD73) in invasion and migration of human breast cancer cell lines. Chin J Pathophysiol 22:360–364