Referencias:

• Aicher, A., Heeschen, C., Mildner-Rihm, C., Urbich, C., Ihling, C., Technau-Ihling, K., Essential role of endothelial nitric oxide synthase for mobilization of stem and progenitor cells (2003) Nat. Med., 9, pp. 1370-1376
• Albini, A., Morini, M., Agostini, F.D., Ferrari, N., Campelli, F., Arena, G., Inhibition of angiogenesis-driven Kaposi's sarcoma tumor growth in nude mice (2001) Cancer Res., 61, pp. 8171-8178
• Anagnostou, A., Lee, E.S., Kessimian, N., Levinson, R., Steiner, M., Erythropoietin has a mitogenic and positive chemotactic effect on endothelial cells (1990) Proc. Natl. Acad. Sci. U. S. A., 87, pp. 5978-5982
• Anagnostou, A., Liu, Z., Steiner, M., Chin, K., Lee, E.S., Kessimian, N., Erythropoietin receptor mRNA expression in human endothelial cells (1994) Proc. Natl. Acad. Sci. U. S. A., 91, pp. 3974-3978
• Arcasoy, M.O., The non-haematopoietic biological effects of erythropoietin (2008) Br. J. Haematol., 141, pp. 14-31
• Bennis, Y., Guillet, B., Pellegrini, L., Priming of late endothelial progenitor cells with erythropoietin before transplantation requires the CD131 receptor subunit and enhances their angiogenic potential (2012) J. Thromb. Haemost., 10, pp. 1914-1928
• Callero, M.A., Pérez, G.M., Vittori, D.C., Vota, D.M., Pregi, N., Nesse, A.B., Modulation of protein tyrosine phosphatase 1 B by erythropoietin in UT-7 cell line (2007) Cell. Physiol. Biochem., 20, pp. 319-328
• Chamorro, M.E., Wenker, S.D., Vota, D.M., Vittori, D.C., Nesse, A.B., Signaling pathways of cell proliferation are involved in the differential effect of erythropoietin and its carbamylated derivative (2013) Biochim. Biophys. Acta − Mol. Cell Res., 1833, pp. 1960-1968
• Chamorro, M.E., Maltaneri, R.E., Vittori, D.C., Nesse, A.B., Protein tyrosine phosphatase 1 B (PTP1B) is involved in the defective erythropoietic function of carbamylated erythropoietin (2015) Int. J. Biochem. Cell Biol., 61, pp. 63-71
• Chateauvieux, S., Grigorakaki, C., Morceau, F., Dicato, M., Diederich, M., Erythropoietin, erythropoiesis and beyond (2011) Biochem. Pharmacol., 82, pp. 1291-1303
• Chattopadhyay, A., Choudhury, T.D., Bandyopadhyay, D., Datta, A.G., Protective effect of erythropoietin on the oxidative damage of erythrocyte membrane by hydroxyl radical (2000) Biochem. Pharmacol., 59, pp. 419-425
• Chu, X., Tong, Q., Cheung, J.Y., Wozney, J., Conrad, K., Mazack, V., Interaction of TRPC2 and TRPC6 in erythropoietin modulation of calcium influx (2004) J. Biol. Chem., 279, pp. 10514-10522
• Coleman, T.R., Westenfelder, C., Tögel, F.E., Yang, Y., Hu, Z., Swenson, L., Cytoprotective doses of erythropoietin or carbamylated erythropoietin have markedly different procoagulant and vasoactive activities (2006) Proc. Natl. Acad. Sci. U. S. A., 103, pp. 5965-5970
• Colotta, F., Bussolino, F., Polentarutti, N., Guglielmetti, A., Sironi, M., Bocchietto, E., Differential expression of the common β and specific α chains of the receptors for GM-CSF, IL-3, and IL-5 in endothelial cells (1993) Exp. Cell Res., 206, pp. 311-317
• De Beuf, A., Hou, X., Haese, P., Verhulst, A., Epoetin delta reduces oxidative stress in primary human renal tubular cells (2010) J. Biomed. Biotechnol., 2010, p. 395785
• Du, G., Zhu, H., Yu, P., Wang, H., He, J., Ye, L., SMND-309 promotes angiogenesis in human umbilical vein endothelial cells through activating erythropoietin receptor/STAT3/VEGF pathways (2013) Eur. J. Pharmacol., 700, pp. 173-180
• Edgell, C.J., McDonald, C.C., Graham, J.B., Permanent cell line expressing human factor VIII-related antigen established by hybridization (1983) Proc. Natl. Acad. Sci. U. S. A., 80, pp. 3734-3737
• Ergul, A., Alhusban, A., Fagan, S.C., Angiogenesis a harmonized target for recovery after stroke (2012) Stroke, 43, pp. 2270-2274
• Fukumura, D., Gohongi, T., Kadambi, A., Izumi, Y., Ang, J., Yun, C., Predominant role of endothelial nitric oxide synthase in vascular endothelial growth factor-induced angiogenesis and vascular permeability (2001) Proc. Natl. Acad. Sci. U. S. A., 98, pp. 2604-2609
• Ge, R., Tai, Y., Sun, Y., Zhou, K., Yang, S., Cheng, T., Critical role of TRPC6 channels in VEGF-mediated angiogenesis (2009) Cancer Lett., 283, pp. 43-51
• Giannone, G., Rondé, P., Gaire, M., Beaudouin, J., Haiech, J., Ellenberg, J., Calcium rises locally trigger focal adhesion disassembly and enhance residency of focal adhesion kinase at focal adhesions (2004) J. Biol. Chem., 279, pp. 28715-28723
• Heeschen, C., Aicher, A., Lehmann, R., Fichtlscherer, S., Vasa, M., Urbich, C., Erythropoietin is a potent physiologic stimulus for endothelial progenitor cell mobilization (2003) Blood, 102, pp. 1340-1346
• Heikal, L., Ghezzi, P., Mengozzi, M., Stelmaszczuk, B., Feelisch, M., Ferns, G.A., Erythropoietin and a nonerythropoietic peptide analog promote aortic endothelial cell repair under hypoxic conditions: role of nitric oxide (2016) Hypoxia, 4, pp. 121-133
• Imamura, R., Okumi, M., Isaka, Y., Ichimaru, N., Moriyama, T., Imai, E., Carbamylated erythropoietin improves angiogenesis and protects the kidneys from ischemia-reperfusion injury (2008) Cell Transplant., 17, pp. 135-141
• Laemmli, U.K., Cleavage of structural protein during the assembly for the head of bacteriophage T4 (1970) Nature, 227, pp. 680-685
• Lanahan, A.A., Lech, D., Dubrac, A., Zhang, J., Zhuang, Z.W., Eichmann, A., PTP1b is a physiologic regulator of vascular endothelial growth factor signaling in endothelial cells (2014) Circulation, 130, pp. 902-909
• Lee, S.R., Kwon, K.S., Kim, S.R., Rhee, S.G., Reversible inactivation of protein-tyrosine phosphatase 1 B in A431 cells stimulated with epidermal growth factor (1998) J. Biol. Chem., 273, pp. 15366-15372
• Leist, M., Derivatives of erythropoietin that are tissue protective but not erythropoietic (2004) Science, 305, pp. 239-242
• Masuda, S., Nagao, M., Takahata, K., Konishi, Y., Gallyas, F., Jr., Tabira, T., Functional erythropoietin receptor of the cells with neural characteristics: comparison with receptor properties of erythroid cells (1993) J. Biol. Chem., 268, pp. 11208-11216
• Maurice, T., Mustafa, M.-H., Desrumaux, C., Keller, E., Naert, G., García-Barceló, M., Intranasal formulation of erythropoietin (EPO) showed potent protective activity against amyloid toxicity in the Aβ25-35 non-transgenic mouse model of Alzheimerós disease (2013) J. Psychopharmacol., 27, pp. 1044-1057
• McKinney, M., Arcasoy, M.O., Erythropoietin for oncology supportive care (2011) Exp. Cell Res., 317, pp. 1246-1254
• Miller, B.A., Scaduto, R.C., Jr., Tillotson, D.L., Botti, J.J., Cheung, J.Y., Erythropoietin stimulates a rise in intracellular free calcium concentration in single early human erythroid precursors (1988) J. Clin. Invest., 82, pp. 309-315
• Moon, C., Krawczyk, M., Paik, D., Coleman, T., Brines, M., Juhaszova, M., Erythropoietin, modified to not stimulate red blood cell production, retains its cardioprotective properties (2006) J. Pharmacol. Exp. Ther., 316, pp. 999-1005
• Nakamura, Y., Patrushev, N., Inomata, H., Mehta, D., Urao, N., Kim, H.W., Role of protein tyrosine phosphatase 1 B in vascular endothelial growth factor signaling and cell?cell adhesions in endothelial cells (2008) Circ. Res., 102, pp. 1182-1191
• Ramirez, R., Carracedo, J., Nogueras, S., Buendia, P., Merino, A., Cañadillas, S., Carbamylated darbepoetin derivative prevents endothelial progenitor cell damage with no effect on angiogenesis (2009) J. Mol. Cell. Cardiol., 47, pp. 781-788
• Ribatti, D., Presta, M., Vacca, A., Ria, R., Giuliani, R., Dell'Era, P., Human erythropoietin induces a pro-angiogenic phenotype in cultured endothelial cells and stimulates neovascularization in vivo (1999) Blood, 93, pp. 2627-2636
• p38 MAP kinase activation by vascular endothelial growth factor mediates actin reorganization and cell migration in human endothelial cells (1997) Oncogene, 15, pp. 2169-2177
• Santhanam, A.V.R., Smith, L., Nath, K., Katusic, Z.S., In vivo stimulatory effect of erythropoietin on endothelial nitric oxide synthase in cerebral arteries (2006) Am. J. Physiol. Heart Circ. Physiol., 291, pp. H781-H786
• Sautina, L., Sautin, Y., Beem, E., Zhou, Z., Schuler, A., Brennan, J., Induction of nitric oxide by erythropoietin is mediated by the β common receptor and requires interaction with VEGF receptor 2 (2010) Blood, 115, pp. 896-905
• Schmidt, R., Green, K., Feng, D., Dorsey, D., Parvin, C., Lee, J., Erythropoietin and its carbamylated derivative prevent the development of experimental diabetic autonomic neuropathy in STZ-induced diabetic NOD-SCID mice (2008) Exp. Neurol., 209, pp. 161-170
• Su, K., Shyue, S., Kou, Y., Ching, L., Chiang, A., Yu, Y., β common receptor integrates the erythropoietin signaling in activation of endothelial nitric oxide synthase (2011) J. Cell. Physiol., 226, pp. 3330-3339
• Toba, H., Kojima, Y., Wang, J., Noda, K., Tian, W., Kobara, M., Erythropoietin attenuated vascular dysfunction and inflammation by inhibiting NADPH oxidase-derived superoxide production in nitric oxide synthase-inhibited hypertensive rat aorta (2012) Eur. J. Pharmacol., 691, pp. 190-197
• Tong, Q., Hirschler-Laszkiewicz, I., Zhang, W., Conrad, K., Neagley, D.W., Barber, D.L., TRPC3 is the erythropoietin-regulated calcium channel in human erythroid cells (2008) J. Biol. Chem., 283, pp. 10385-10395
• Vagnucci, A.H., Li, W.W., Alzheimer's disease and angiogenesis (2003) Lancet, 361, pp. 605-608
• Villa, P., van Beek, J., Larsen, A.K., Gerwien, J., Christensen, S., Cerami, A., Reduced functional deficits, neuroinflammation, and secondary tissue damage after treatment of stroke by nonerythropoietic erythropoietin derivatives (2007) J. Cereb. Blood Flow Metab., 27, pp. 552-563
• Vogel, V., Kramer, H.J., Bäcker, A., Meyer-Lehnert, H., Jelkmann, W., Fandrey, J., Effects of erythropoietin on endothelin-1 synthesis and the cellular calcium messenger system in vascular endothelial cells (1997) Am. J. Hypertens, 10, pp. 289-296
• Wang, Y., Zang, Q.S., Liu, Z., Regulation of VEGF-induced endothelial cell migration by mitochondrial reactive oxygen species (2011) Am. J. Physiol. Cell Physiol., 301, pp. C695-C704
• Xiong, Y., Mahmood, A., Zhang, Y., Meng, Y., Zhang, Z., Qu, C., Effects of posttraumatic carbamylated erythropoietin therapy on reducing lesion volume and hippocampal cell loss, enhancing angiogenesis and neurogenesis, and improving functional outcome in rats following traumatic brain injury (2011) J. Neurosurg., 114, pp. 549-559
• Zafarullah, M., Li, W.Q., Sylvester, J., Ahmad, M., Molecular mechanisms of N-acetylcysteine actions (2003) Cell. Mol. Life Sci., 60, pp. 6-20

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