Subscribe to RSS
DOI: 10.1055/s-0032-1304597
Entzündliche Erkrankungen und Osteoporose – Potenzial der RANKL-Hemmung am Beispiel der Rheumatoiden Arthritis
Inflammatory Diseases and Osteoporosis – Potential of RANKL Inhibition in Rheumatoid ArthritisPublication History
Publication Date:
06 March 2012 (online)
Zusammenfassung
Die Rheumatoide Arthritis ist initial durch eine gelenknahe Osteoporose, im weiteren Verlauf durch eine zunehmende Gelenkdestruktion, aber auch durch eine der chronischen Entzündung geschuldete systemische Osteoporose charakterisiert. Beide Manifestationen werden wesentlich durch eine sowohl periartikulär als auch systemisch gesteigerte Osteoklastenaktivität verursacht. Verantwortlich hierfür ist eine relativ erhöhte Expression/Synthese von RANKL. Mit Denosumab, einem humanen RANKL-Antikörper, kann sowohl die knöcherne Gelenkdestruktion als auch die systemische Osteoporose aufgehalten werden. Denosumab vermag aber nicht die entzündliche Aktivität oder die damit verbundenen Schmerzen und funktionellen Einschränkungen zu beeinflussen.
Abstract
Rheumatoid arthritis is characterised by juxtaarticular osteoporosis in the early stage, and by increasing articular destruction in the further course, but also by systemic osteoporosis caused by chronic inflammation. These 2 manifestations are driven especially by increased activity of osteoclasts, both periarticular and systemic. The reason for this intensive osteoclast generation and functional activity is the high expression and synthesis of RANKL. With the application of denosumab, a fully human RANKL antibody, we are not only able to interrupt the articular destruction process but also to improve the bone mineral density. Denosumab, however, has no influence on inflammatory activity, pain and functional disability.
-
Literatur
- 1 Jakob F, Benisch P, Ebert R. Pathophysiologie der Osteoporose. DBI 2010; 30: 110-118
- 2 Hofbauer LC, Heufelder AE. Role of receptor activator of nuclear factor -kB ligand and osteoprotegerin in bone cell biology. J Mol Med 2001; 79: 243-253
- 3 Kong Y-Y, Yoshida H, Sarosi I et al. OPGL is a key regulator of osteoclastogenesis, lymphocyte development and lymph-node organogenesis. Nature 1999; 397: 315-323
- 4 Wong BR, Rho J, Arron J et al. TRANCE is a novel ligand of the tumor necrosis factor receptor family that activates c-Jun N-terminal kinases in T-cells. J Biol Chem 1997; 272: 25190-25194
- 5 Kong Y-Y, Feige U, Sarosi I et al. Activated T-cells regulate bone loss and joint destruction in adjuvant arthritis through osteoprotegerin ligand. Nature 1999; 402: 304-309
- 6 Yeo L, Toellner KM, Salmon M et al. Cytokine mRNA profiling identifies B-cells as the major source of RANKL in rheumatoid arthritis. Ann Rheum Dis 2011; 70: 2022-2024
- 7 Lam J, Takeshita S, Barker JE et al. TNF alpha induces osteoclasto-genesis by direct stimulation of macrophages exposed to permissive levels of RANK ligand. J Clin Invest 2000; 106: 1481-1488
- 8 Lacey DL, Timms E, Tan HL et al. Osteoprotegerin ligand is a cytokine that regulates osteoclast differentiation and activation. Cell 1998; 93: 165-176
- 9 Bekker PJ, Holloway DL, Rasmussen AS et al. A single-dose placebo-controlled study of AMG 162, a fully human monoclonal antibody to RANKL, in postmenopausal women. J Bone Mineral Res 2004; 19: 1059-1066
- 10 Hofbauer LC, Khosla S, Dunstan CR et al. The roles of osteoprotegerin and osteoprotegerinligand in the paracrine regulation of bone resorption. J Bone Mineral Res 2000; 15: 2-12
- 11 Schett G. Review: Immune cells and mediators of inflammatory arthritis. Autoimmunity 2008; 41: 224-229
- 12 Hein G, Meister M, Oelzner P et al. SRANKL and OPG in serum and syn-ovial fluid in patients with rheumatoid arthritis in comparison to non-destructive chronic arthritis. Rheumatol Intern 2008; 28: 765-769
- 13 Stolina M, Adamu S, Ominsky M et al. RANKL is a marker and medi-ator of local and systemic bone loss in two rat models of inflammatory arthritis. J Bone Mineral Res 2005; 20: 1756-1765
- 14 Neumann T, Oelzner P, Petrow PK et al. Osteoprotegerin reduces the loss of periartikular bone mass in primary and secundary spongiosa but does not influence inflammation in rat antigen-induced arthritis. Inflamm Res 2006; 55: 32-39
- 15 Oelzner P, Franke S, Lehmann G et al. Soluble receptor activator of Nfkappa B ligand and osteoprotegerin in rheumatoid arthritis – relatioship with bone mineral density, disease activity and bone turnover. Clin Rheumatol 2007; 26: 2127-2135
- 16 Gough AK, Lilley J, Eyre S et al. Generalized bone loss in patients with early rheumatoid arthritis. Lancet 1994; 344: 23-27
- 17 Böttcher JA, Pfeil A, Petrovitch A et al. Metacarpal index estimated by digital x-ray radiogrammetry as a tool for differentiating rheumatoid arthritis related periarticular osteopenia. IJBS 2006; 2: 241-250
- 18 Foley-Nolan D, Stack JP, Ryan M et al. Magnetic resonance imaging in assessment of rheumatoid arthritis in comparison with plain film radiographs. Br J Rheumatol 1991; 30: 101-106
- 19 McQueen FM, Steward N, Crabbe J et al. Magnetic resonance imaging of the wrist in early rheumatoid arthritis reveals a high prevalence of erosions at four months after symptom onset. Ann Rheum Dis 1998; 57: 350-356
- 20 McGonagle Conaghan PG, O’Connor P. et al. The ralationship between synovitis and bone changes in early untreated rheumatoid arthritis: a control-magnetic resonance imaging study. Arthritis Rheum 1999; 42: 1706-1711
- 21 Shigeyama Y, Pap T, Kunzler P et al. Expression of osteoclast differentiation factor in rheumatoid arthritis. Arthritis Rheum 2000; 43: 2523-2530
- 22 Gravallese EM, Manning C, Tsay A et al. Synovial tissue in rheumatoid arthritis is a sorce of osteoclast differentation factor. Arthritis Rheum 2000; 43: 250-258
- 23 Rau R, Herborn G. Healing phenomena of erosive changes in rheumatoid arthritis patients undergoing disease modifying antirheumatic drug therapy. Arthritis Rheum 1996; 39: 162-168
- 24 Strand V, Cohen S, Schiff M et al. Treatment of active rheumatoid ar-thritis with leflunomide compared with placebo and methotrexate. Arch Intern Med 1999; 159: 2542-2550
- 25 Mandema JW, Salinger DH, Baumgartner SW et al. A dose-response meta-analysis for quantifying relative efficacy of biologics in rheumatoid arthritis. Clin Pharmacol Ther 2011; 90: 828-835
- 26 Emery P, Dörner T. Optimising treatment in rheumatoid arthritis: a review of potential biological markers of response. Ann Rheum Dis 2011; 70: 2063-2070
- 27 Deodhar AA, Woolf AD. Bone mass measurement and bone metabolism in rheumatoid arthritis. A review. Br J Rheumatol 1996; 35: 309-322
- 28 Wang SY, Lin YY, Ye H et al. Circulating Dickkopf-1 is correlated with bone erosion and inflammation in rheumatoid arthritis. J Rheumatol 2011; 38: 821-827
- 29 Schett G, Sieper J. Inflammation and repair mechanisms. Clin Exp Rheumatol 2009; 27 (Suppl. 55) S33-S35
- 30 Toritsuka Y, Nakamura N, Lee SB et al. Osteoclastogenesis in iliac bone marrow of patients with rheumatoid arthritis. J Rheumatol 1997; 24: 1690-1696
- 31 Lobo ED, Hansen JR, Balthasar JP. Antibody pharmacokinetics and pharmacodynamics. J Pharm Sci 2004; 93: 2645-2668
- 32 Miller PD, Bolognese MA, Lewiecki EM et al. Effect of denosumab on bone density and turnover in postmenopausal women with low bone mass after long-term continued, discontinued, and restarting of therapy: a randomized blinded phase 2 clinical trial. Bone 2008; 43: 222-229
- 33 Cummings SR, San Martin J, McClung MR et al. Denosumab for prevention of fractures in postmenopausal women with osteoporosis. N Engl J Med 2009; 261: 756-765
- 34 Cohen SB, Dore RK, Lane NE et al. Denosumab treatment effects on structural damage, bone mineral density, and bone turnover in rheumatoid arthritis: a twelve-month, multicenter, randomized, double-blind, placebo-controlled, phase II clinical trial. Arthritis Rheum 2008; 58: 1299-1309
- 35 Van der Hejde DM. Joint erosions and patients with early rheumatoid arthritis. Br J Rheumatol 1995; 34: 74-76
- 36 Deodhar A, Dore RK, Mandel D et al. Denosumab-mediated increase in hand bone mineral density associated with decreased progression of bone erosion in rheumatoid arthritis patients. Arthritis Care Res (Hoboken) 2010; 62: 569-574
- 37 Sharp JT, Tsuji W, Ory P et al. Denosumab prevents metacarpal shaft cortical bone loss in patients with erosive rheumatoid arthritis. Arthritis Care Res (Hoboken) 2010; 62: 537-544
- 38 Dore RK, Cohen SB, Lane NE et al. Effect of denosumab on bone mineral density and bone turnover in patients with rheumatoid arthritis receiving concurrent glucocorticoids or bisphosphonates. Ann Rheum Dis 2010; 69: 872-875
- 39 Ferrari-Lacraz S, Ferrari S. Do RANKL inhibitors (denosumab) affect inflammation and immunity?. Osteoporos Int 2011; 22: 435-446
- 40 Steger BB, Bartsch R. Denosumab for the treatment of bone metastasis in breast cancer: evidence and opinion. Ther Adv Med Oncol 2011; 3: 233-243