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McGrath KE, Koniski AD, Maltby KM, McGann JK, Palis J (1999) Embryonic expression and function of the chemokine SDF-1 and its receptor, CXCR4. Developm Biol 213: 442–456
Nagasawa T, Hirota S, Tachibana K, Takakura N, Nishikawa S-I, Kitamura Y, Yoshida N, Kikutani H, Kishimoto T (1996) Defects of B-cell lymphopoiesis and bone-marrow myelopoiesis in mice lacking the CXC chemokine PBSF/SDF1. Nature 382: 635–638
Tachibana K, Hirota S, Iizasa H, Yoshida H, Kawabata K, Kataoka Y, Kitamura Y, Matsushima K, Yoshida N, Nishikawa S-I et al (1998). The chemokine receptor CXCR4 is essential for vascularization of the gastrointestinal tract. Nature 393: 591–594
Grone H-J, Cohen CD, Grone E, Schmidt C, Kretzler M, Schlondorff D, Nelson PJ (2002) Spatial and temporally restricted expression of chemokines and chemokine receptors in the developing human kidney. J Am Soc Nephrol 13: 957–967
Stebler J, Spieler D, Slanchev K, Molyneaux KA, Richter U, Cojocaru V, Tarabykin V, Wylie C, Kessel M, Raz E (2004). Primordial germ cell migration in the chick and mouse embryo: the role of the chemokine SDF-1/CXCL12. Developm Biol 272: 351–361
Sato Y, Higuchi T, Yoshioka S, Tatsumi K, Fujiwara H, Fujii S (2003) Trophoblasts acquire a chemokine receptor, CCR1, as they differentiate towards invasive phenotype. Development 130: 5519–5532
Haringman JJ, Kraan MC, Smeets TJ, Zwinderman KH, Tak PP (2003) Chemokine blockade and chronic inflammatory disease: proof of concept in patients with rheumatoid arthritis. Ann Rheum Dis 62: 715–721
Dogan RN, Karpus WJ (2004) Chemokines and chemokine receptors in autoimmune encephalomyelitis as a model for central nervous system inflammatory disease regulation. Front Biosci 9: 1500–1505
MacDermott RP, Sanderson IR, Reinecker HC (1998) The central role of chemokines (chemotactic cytokines) in the immunopathogenesis of ulcerative colitis and Crohn’s disease. Inflamm Bowel Dis 4: 54–67
D’Ambrosio D, Mariani M, Panina-Bordignon P, Sinigaglia F (2001) Chemokines and their receptors guiding T lymphocyte recruitment in lung inflammation. Am J Respir Crit Care Med 164: 1266–1275
Agostini C, Meneghin A, Semenzato G (2002) T-lymphocytes and cytokines in sarcoidosis. Curr Opin Pulm Med 8: 435–440
Bisset LR, Schmid-Grendelmeier P (2005) Chemokines and their receptors in the pathogenesis of allergic asthma: progress and perspective. Curr Opin Pulm Med 11: 35–42
Boisvert WA (2004) Modulation of atherogenesis by chemokines Trends Cardiovasc Med 14: 161–165
Wakugawa M, Nakamura K, Akatsuka M, Kim SS, Yamada Y, Kawasaki H, Tamaki K, Furue M (2001) Expression of CC chemokine receptor 3 on human keratinocytes in vivo and in vitro —upregulation by RANTES. J Dermatol Sci 25: 229–235
Kulke R, Bornscheuer E, Schluter C, Bartels J, Rowert J, Sticherling M, Christophers E (1998) The CXC receptor 2 is overexpressed in psoriatic epidermis. J Invest Dermatol 110: 90–94
Satish L, Blair HC, Glading A, Wells A (2005) Interferon-inducible protein 9 (CXCL11)-induced cell motility in keratinocytes requires calcium flux-dependent activation of mucalpain. Mol Cell Biol 25: 1922–1941
Lundien MC, Mohammed KA, Nasreen N, Tepper RS, Hardwick JA, Sanders KL, Van Horn RD, Antony VB (2002) Induction of MCP-1 expression in airway epithelial cells: role of CCR2 receptor in airway epithelial injury. J Clin Immunol 22: 144–152
Stellato C, Brummet ME, Plitt JR, Shahabuddin S, Baroody FM, Liu MC, Ponath PD, Beck LA (2001) Expression of the C-C chemokine receptor CCR3 in human airway epithelial cells. J Immunol 166: 1457–1461
Eddleston J, Christiansen SC, Zuraw BL (2002) Functional expression of the C-X-C chemokine receptor CXCR4 by human bronchial epithelial cells: regulation by proinflammatory mediators. J Immunol 169: 6445–6451
Dwinell MB, Eckmann L, Leopard JD, Varki NM, Kagnoff MF (1999) Chemokine receptor expression by human intestinal epithelial cells. Gastroenterology 117: 359–367
Yang CC, Ogawa H, Dwinell MB, McCole DF, Eckmann L, Kagnoff MF (2005) Chemokine receptor CCR6 transduces signals that activate p130Cas and alter cAMP-stimulated ion transport in human intestinal epithelial cells. Am J Physiol Cell Physiol 288: C321–C328
Vlahakis SR, Villasis-Keever A, Gomez TS, Bren GD, Paya CV (2003) Human immunodeficiency virus-induced apoptosis of human hepatocytes via CXCR4. J Infect Dis 188: 1455–1460
Efsen E, Grappone C, DeFranco RM, Milani S, Romanelli RG, Bonacchi A, Caligiuri A, Failli P, Annunziato F, Pagliai G et al (2002) Up-regulated expression of fractalkine and its receptor CX3CR1 during liver injury in humans. J Hepatol 37: 39–47
Patterson BK, Landay A, Andersson J, Brown C, Behbahani H, Jiyamapa D, Burki Z, Stanislawski D, Czerniewski MA, Garcia P (1998) Repertoire of chemokine receptor expression in the female genital tract: implications for human immunodeficiency virus transmission. Am J Pathol 153: 481–490
Huber TB, Reinhardt HC, Exner M, Burger JA, Kerjaschki D, Saleem MA, Pavenstadt H (2002) Expression of functional CCR and CXCR chemokine receptors in podocytes. J Immunol 168: 6244–6252
Han GD, Koike H, Nakatsue T, Suzuki K, Yoneyama H, Narumi S, Kobayashi N, Mundel P, Shimizu F, Kawachi H (2003) IFN-inducible protein-10 has a differential role in podocyte during Thy 1.1 glomerulonephritis. J Am Soc Nephrol 14: 3111–3126
Gharaee-Kermani M, Denholm EM, Phan SH (1996) Costimulation of fibroblast collagen and transforming growth factor beta1 gene expression by monocyte chemoattractant protein-1 via specific receptors. J Biol Chem 271: 17779–17784
Wang X, Yue TL, Ohlstein EH, Sung CP, Feuerstein GZ (1996) Interferon-inducible protein-10 involves vascular smooth muscle cell migration, proliferation, and inflammatory response. J Biol Chem 271: 24286–24293
Schecter AD, Rollins BJ, Zhang YJ, Charo IF, Fallon JT, Rossikhina M, Giesen PL, Nemerson Y, Taubman MB (1997) Tissue factor is induced by monocyte chemoattractant protein-1 in human aortic smooth muscle and THP-1 cells. J Biol Chem 272: 28568–28573
Marra F, Romanelli RG, Giannini C, Failli P, Pastacaldi S, Arrighi MC, Pinzani M, Laffi G, Montalto P, Gentilini P (1999) Monocyte chemotactic protein-1 as a chemoattractant for human hepatic stellate cells. Hepatology 29: 140–148
Romagnani P, Beltrame C, Annunziato F, Lasagni L, Luconi M, Galli G, Cosmi L, Maggi E, Salvadori M, Pupilli C et al (1999) Role for interactions between IP-10/Mig and CXCR3 in proliferative glomerulonephritis. J Am Soc Nephrol 10: 2518–2525
Banas B, Luckow B, Moller M, Klier C, Nelson PJ, Schadde E, Brigl M, Halevy D, Holthofer H, Reinhart B et al (1999) Chemokine and chemokine receptor expression in a novel human mesangial cell line. J Am Soc Nephrol 10: 2314–2322
Schecter AD, Calderon TM, Berman AB, McManus CM, Fallon JT, Rossikhina M, Zhao W, Christ G, Berman JW, Taubman MB (2000) Human vascular smooth muscle cells possess functional CCR5. J Biol Chem 275: 5466–5471
Hayes IM, Jordan NJ, Towers S, Smith G, Paterson JR, Earnshaw JJ, Roach AG, Westwick J, Williams RJ (1998) Human vascular smooth muscle cells express receptors for CC chemokines. Arterioscler Thromb Vasc Biol 18: 397–403
Ikeda U, Ikeda M, Seino Y, Takahashi M, Kasahara T, Kano S, Shimada K (1993) Expression of intercellular adhesion molecule-1 on rat vascular smooth muscle cells by pro-inflammatory cytokines. Atherosclerosis 104: 61–68
Schecter AD, Rollins BJ, Zhang YJ, Charo IF, Fallon JT, Rossikhina M, Giesen PL, Nemerson Y, Taubman MB (1997) Tissue factor is induced by monocyte chemoattractant protein-1 in human aortic smooth muscle and THP-1 cells. J Biol Chem 272: 28568–28573
Wang N, Tabas I, Winchester R, Ravalli S, Rabbani LE, Tall A (1996) Interleukin 8 is induced by cholesterol loading of macrophages and expressed by macrophage foam cells in human atheroma. J Biol Chem 271: 8837–8842
Gao JL, Kuhns DB, Tiffany HL, McDermott D, Li X, Francke U, Murphy PM (1993) Structure and functional expression of the human macrophage inflammatory protein 1 alpha/RANTES receptor. J Exp Med 177: 1421–1427
Kitaura M, Nakajima T, Imai T, Harada S, Combadiere C, Tiffany HL, Murphy PM, Yoshie O (1996) Molecular cloning of human eotaxin, an eosinophil-selective CC chemokine, and identification of a specific eosinophil eotaxin receptor, CC chemokine receptor 3. J Biol Chem 271: 7725–7730
Youn BS, Kim SH, Lyu MS, Kozak CA, Taub DD, Kwon BS (1997) Molecular cloning and characterization of a cDNA, CHEMR1, encoding a chemokine receptor with a homology to the human C-C chemokine receptor, CCR-4. Blood 89: 4448–4460
Hora K, Satriano JA, Santiago A, Mori T, Stanley ER, Shan Z, Schlöndorff D (1992) Receptors for IgG complexes activate synthesis of monocyte chemoattractant peptide 1 and colony-stimulating factor 1. Proc Natl Acad Sci USA 89: 1745–1749
Pai R, Ha H, Kirschenbaum MA, Kamanna VS (1996) Role of tumor necrosis factoron mesangial cell MCP-1 expression and monocyte migration: Mechanisms mediated by signal transduction. J Am Soc Nephrol 7: 914–923
Largen PJ, Tam FW, Rees AJ, Cattell V (1995). Rat mesangial cells have a selective role in macrophage recruitment and activation. Exp Nephrol 3: 34–39
Wolf G, Aberle S, Thaiss F, Nelson PJ, Krensky AM, Neilson EG, Stahl RA (1993) TNF alpha induces expression of the chemoattractant cytokine RANTES in cultured mouse mesangial cells. Kidney Int 44: 795–804
Schwarz M, Radeke HH, Resch K, Uciechowski P (1997) Lymphocyte-derived cytokines induce sequential expression of monocyte-and T cell-specific chemokines in human mesangial cells. Kidney Int 52: 1521–1531
Brown Z, Strieter RM, Chensue SW, Ceska M, Lindley I, Neild GH, Kunkel SL, Westwick J (1991) Cytokine-activated human mesangial cells generate the neutrophil chemoattractant, interleukin 8. Kidney Int 40: 86–90
Robson RL, Westwick J, Brown Z (1995) Interleukin-1-induced IL-8 and IL-6 gene expression and production in human mesangial cells is differentially regulated by cAMP. Kidney Int 48: 1767–1777
Gomez Chiarri M, Hamilton TA, Egido J, Emancipator SN (1993) Expression of IP-10, a lipopolysaccharide-and interferon-gamma-inducible protein, in murine mesangial cells in culture. Am J Pathol 142: 433–439
Duque N, Gomez Guerrero C, Egido J (1999) Interaction of IgA with Fc alpha receptors of human mesangial cells activates transcription factor nuclear factor-B and induces expression and synthesis of monocyte chemoattractant protein-1, IL-8, and IFN-inducible protein 10. J Immunol 159: 3474–3482
Bonacchi A, Romagnani P, Romanelli RG, Efsen E, Annunziato F, Lasagni L, Francalanci M, Serio M, Laffi G, Pinzani M et al (2001) Signal transduction by the chemokine receptor CXCR3. J Biol Chem 276: 9945–9954
Banas B, Wörnle M, Berger T, Nelson PJ, Cohen CD, Kretzler M, Pfirstinger J, Mack M, Lipp M, Gröne HJ et al (2002) Roles of SLC/CCL21 and CCR7 in human kidney for mesangial proliferation, migration, apoptosis and tissue homeostasis. J Immunol 168: 4301–4307
Banas B, Wornle M, Merkle M, Gonzalez-Rubio M, Schmid H, Kretzler M, Pietrzyk MC, Fink M, de Lema GP, Schlondorff D (2004) Binding of the chemokine SLC/CCL21 to its receptor CCR7 increases adhesive properties of human mesangial cells. Kidney Int 66: 2256–2263
Marra F, Valente AJ, Pinzani M, Abboud HE (1993) Cultured human liver fat-storing cells produce monocyte chemotactic protein-1. Regulation by proinflammatory cytokines. J Clin Invest 92: 1674–1680
Czaja MJ, Geerts A, Xu J, Schmiedeberg P, Ju Y (1994) Monocyte chemoattractant protein 1 (MCP-1) expression occurs in toxic rat liver injury and human liver disease. J Leukoc Biol 55: 120–126
Marra F, DeFranco R, Grappone C, Milani S, Pastacaldi S, Pinzani M, Romanelli RG, Laffi G, Gentilizi P (1998) Increased expression of Monocyte Chemotactic Protein-1 during active hepatic fibrogenesis: Correlation with monocyte infiltration. Am J Pathol 152: 423–430
Marra F, Romanelli RG, Giannini C, Failli P, Pastacaldi S, Arrighi MC, Pinzani M, Laffi G, Montalto P, Gentilini P (1999) Monocyte chemotactic protein-1 as a chemoattractant for human hepatic stellate cells. Hepatology 29:140–148
Bonacchi A, Petrai I, Defranco RM, Lazzeri E, Annunziato F, Efsen E, Cosmi L, Romagnani P, Milani S, Failli P et al (2003) The chemokine CCL21 modulates lymphocyte recruitment and fibrosis in chronic hepatitis C. Gastroenterology 125: 1060–1076
Schwabe RF, Bataller R, Brenner DA (2003) Human hepatic stellate cells express CCR5 and RANTES to induce proliferation and migration. Am J Physiol Gastrointest Liver Physiol 285: G949–G958
Griffioen AW, Molema G (2000) Angiogenesis: potentials for pharmacologic intervention in the treatment of cancer, cardiovascular diseases, and chronic inflammation. Pharmacol Rev 52: 237–268
Spinetti G, Camarda G, Bernardini G, Romano Di Peppe S, Capogrossi MC, Napolitano M (2001) The chemokine CXCL13 (BCA-1) inhibits FGF-2 effects on endothelial cells. Biochem Biophys Res Commun 289: 19–24
Werner S, Grose R (2003) Regulation of wound healing by growth factors and cytokines. Physiol Rev 83: 835–870
Gillitzer R, Goebeler M (2001) Chemokines in cutaneous wound healing. J Leukoc Biol 69: 513–521
Shuman MA, Levine SP (1978) Thrombin generation and secretion of platelet Factor 4 during blood clotting. J Clin Invest 61: 1102–1106
Engelhardt E, Toksoy A, Goebeler M, Debus S, Brocker EB, Gillitzer R (1998) Chemokines IL-8, GROalpha, MCP-1, IP-10, and Mig are sequentially and differentially expressed during phase-specific infiltration of leukocyte subsets in human wound healing. Am J Pathol 153: 1849–1860
Kemeny L, Szolnoky G, Kenderessy AS, Gyulai R, Kiss M, Michel G, Nagy K, Ruzicka T, Dobozy A (1994) Role of interleukin-8 receptor in skin. Int Arch Allergy Immunol 104: 317–322
Devalaraja RM, Nanney LB, Du J, Qian Q, Yu Y, Devalaraja MN, Richmond A (2000) Delayed wound healing in CXCR2 knockout mice. J Invest Dermatol 115: 234–244
Dipietro LA, Reintjes MG, Low QE, Levi B, Gamelli RL (2001) Modulation of macrophage recruitment into wounds by monocyte chemoattractant protein-1. Wound Repair Regen 9: 28–33
Fedyk ER, Jones D, Critchley HO, Phipps RP, Blieden TM, Springer TA (2001) Expression of stromal-derived factor-1 is decreased by IL-1 and TNF in dermal wound healing. J Immunol 166: 5749–5755
Zlotnik A, Yoshie O (2000) Chemokines: a new classification system and their role in immunity. Immunity 12: 121–127
Rossi D, Zlotnik A (2000) The biology of chemokines and their receptors. Ann Rev Immunol 18: 217–242
Lasagni L, Francalanci M, Annunziato F, Lazzeri E, Giannini S, Cosmi L, Sagrinati C, Mazzinghi B, Orlando C, Maggi E et al (2003) An alternatively spliced variant of CXCR3 mediates the IP-10, Mig and I-TAC induced-inhibition of endothelial cell growth and acts as functional receptor for PF-4. J Exp Med 197: 1537–1549
Iocono JA, Colleran KR, Remick DG, Gillespie BW, Ehrlich HP, Garner WL (2000) Interleukin-8 levels and activity in delayed-healing human thermal wounds. Wound Repair Regen 8: 216–225
Rennekampff HO, Hansbrough JF, Kiessig V, Dore C, Sticherling M, Schroder JM (2000) Bioactive interleukin-8 is expressed in wounds and enhances wound healing. J Surg Res 93: 41–54
Shiraha H, Glading A, Gupta K, Wells A (1999) IP-10 inhibits epidermal growth factorinduced motility by decreasing epidermal growth factor receptor-mediated calpain activity. J Cell Biol 146: 243–254
Salcedo R, Oppenheim JJ (2003) Role of chemokines in angiogenesis: CXCL12/SDF-1 and CXCR4 interaction, a key regulator of endothelial cell responses. Microcirculation 10: 359–370
Salcedo R, Wasserman K, Young HA, Grimm MC, Howard OM, Anver MR, Kleinman HK, Murphy WJ, Oppenheim JJ (1999) Vascular endothelial growth factor and basic fibroblast growth factor induce expression of CXCR4 on human endothelial cells: in vivo neovascularization induced by stromal-derived factor-1alpha. Am J Pathol 154: 1125–1135
Staller P, Sulitkova J, Lisztwan J, Moch H, Oakeley EJ, Krek W (2003) Chemokine receptor CXCR4 downregulated by Von Hippel-Lindau tumor suppressor pVHL. Nature 425: 307–311
Sulpice E, Bryckaert M, Lacour J, Contreres JO, Tobelem G (2002) Platelet factor 4 inhibits FGF2-induced endothelial cell proliferation via the extracellular signal-regulated kinase pathway but not by the phosphatidylinositol 3-kinase pathway. Blood 100: 3087–3094
Gentilini G, Kirschbaum NE, Augustine JA, Aster RH, Visentin GP (1999) Inhibition of human umbilical vein endothelial cell proliferation by the CXC chemokine, platelet factor 4 (PF-4), is associated with impaired downregulation of p21Cip1/WAF1. Blood 93: 25–33
Jouan V, Canron X, Alemany M, Caen JP, Quentin G, Plouet J, Bikfalvi A (1999) Inhibition of in vitro angiogenesis by platelet factor-4-derived peptides and mechanism of action. Blood 94: 984–993
Romagnani P, Annunziato F, Lasagni L, Lazzeri E, Beltrame C, Francalanci M, Uguccioni M, Galli G, Cosmi L, Maurenzig L et al (2001) Cell cycle-dependent expression of CXC chemokine receptor 3 by endothelial cells mediates angiostatic activity. J Clin Invest 107: 53–63
Strieter RM, Belperio JA, Phillips RJ, Keane MP (2004) CXC chemokines in angiogenesis of cancer. Semin Cancer Biol 14: 195–200
Zucker MB, Katz IR (1991) Platelet factor 4: production, structure, and physiologic and immunologic action. Proc Soc Exp Biol Med 198: 693–702
Romagnani P, Lazzeri E, Lasagni L, Mavilia C, Beltrame C, Francalanci M, Rotondi M, Annunziato F, Maurenzig L, Cosmi L (2002) IP-10 and Mig production by glomerular cells in human proliferative glomerulonephritis and regulation by nitric oxide. J Am Soc Nephrol 13: 53–64
Zhao DX, Hu Y, Miller GG, Luster AD, Mitchell RN, Libby P (2002) Differential expression of the IFN-{gamma}-inducible CXCR3-binding chemokines, IFN-inducible protein 10, monokine induced by IFN, and IFN-inducible T Cell {alpha} chemoattractant in human cardiac allografts: association with cardiac allograft vasculopathy and acute rejection. J Immunol 169: 1556–1560
Wang X, Yue TL, Ohlstein EH, Sung CP, Feuerstein GZ (1996) Interferon-inducible protein-10 involves vascular smooth muscle cell migration, proliferation, and inflammatory response. J Biol Chem 271: 24286–24293
Struyf S, Burdick MD, Proost P, Van Damme J, Strieter RM (2004) Platelets release CXCL4L1, a nonallelic variant of the chemokine platelet factor 4/CXCL4 and potent inhibitor of angiogenesis. Circulation Res 95: 855–857
Ehlert JE, Addison CA, Burdick MD, Kunkel SL, Strieter RM (2004) Identification and partial characterization of a variant of human CXCR3 generated by posttranscriptional exon skipping. J Immunol 173: 6234–6240
Bergers G, Benjamin LE (2003) Tumorigenesis and the angiogenic switch. Nat Rev Cancer 3: 401–410
Rofstad EK, Halsor ER (2000) Vascular endothelial growth factor, interleukin 8, platelet-derived endothelial cell growth factor, and basic fibroblast growth factor promote angiogenesis and metastasis in human melanoma xenografts. Cancer Res 60: 4932–4938
Desbaillets I, Diserens AC, Tribolet N, Hamou NF, Van Meir EG (1997) Upregulation of interleukin 8 by oxygen-deprived cells in glioblastoma suggests a role in leukocyte activation, chemotaxis, and angiogenesis. J Exp Med 186: 1201–1212
Lane BR, Liu J, Bock PJ, Schols D, Coffey MJ, Strieter RM, Polverini PJ, Markovitz DM (2002) Interleukin-8 and growth-regulated oncogene α mediate angiogenesis in Kaposi’s sarcoma. J Virol 76: 11570–11583
Yamaguchi J, Kusano KF, Masuo O, Kawamoto A, Silver M, Murasawa S, Bosch-Marce M, Masuda H, Losordo DW, Isner JM et al (2003) Stromal cell-derived factor-1 effects on ex vivo expanded endothelial progenitor cell recruitment for ischemic neovascularization. Circulation 107: 1322–1328
Tanaka T, Manome Y, Wen P, Kufe DW, Fine HA (1997) Viral vector-mediated transduction of a modified platelet factor 4 cDNA inhibits angiogenesis and tumor growth. Nat Med 3: 437–442
Homey B, Muller A, Zlotnik A (2002) Chemokines: agents for the immunotherapy of cancer? Nat Rev Immunol 2: 175–184
Krathwohl MD, Kaiser JL (2004) Chemokines promote quiescence and survival of human neural progenitors. Stem Cells 22: 109–118
Glabinski AR, Ransohoff RM (1999) Chemokines and chemokine receptors in CNS pathology. J Neurovirol 5: 3–12
Zhang L, He T, Talal A, Wang G, Framkel SS, Ho DD (2000) Chemokines and chemokine receptors in the pathogenesis of multiple sclerosis. Mult Scler 6: 3–13
Flynn G, Maru S, Loughlin J, Romero JA, Male D (2003) Regulation of chemokine receptor expression in human microglia and astrocytes. J Neuroimmunol 136: 84–93
Yu X, Collin-Osdoby P, Osdopy P (2003) SDF-1 increases recruitment of osteoclast precursors by upregulation of matrix metalloproteinase-9 activity. Connect Tissue Res 44suppl 1: 79–84
Bendre MS, Montague DC, Peery T, Akel NS, Gaddy, D, Suva LJ (2003) Interleukin-8 stimulation of osteoclastogenesis and bone resorption is a mechanism for the increased osteolysis of metastatic bone disease. Bone 33: 28–37
Lean JM, Murphy C, Fuller K, Chambers TJ (2002) CCL9/MIP-1γ and its receptor CCR1 are the major chemokine ligand/receptor species expressed by osteoclasts. J Cell Biochem 87: 386–393
Choi SJ, Cruz JC, Craig F, Chung H, Devlin RD, Roodman GD, Alsina M (2000) Macrophage inflammatory protein 1α is a potential osteoclast stimulatory factor in multiple myeloma. Blood 15: 671–675
Okamatsu Y, Kim D, Battaglino R, Sasaki H, Spate U, Stashenko P (2004) MIP-1γ promotes receptor activator of NF-κB ligand-induced osteoclast formation and survival. J Immunol 173: 2084–2090
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Romagnani, P., Lasagni, L., Romagnani, S. (2006). Chemokine receptors in tissue cells and angiogenesis. In: Moser, B., Letts, G.L., Neote, K. (eds) Chemokine Biology — Basic Research and Clinical Application. Progress in Inflammation Research. Birkhäuser Basel. https://doi.org/10.1007/3-7643-7423-3_12
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