Abstract
The basis for rheumatoid synovitis is a cellular immune response in the sublining tissue of the rheumatoid synovial membrane (RSM). As a consequence of this reaction, cytokines and growth factors are released which mediate a nonspecific amplification of the initial inflammatory focus, proliferation of the synovial tissue, and immunoglobulin and rheumatoid factor synthesis.
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References
Hynes RO (1987) A family of cell surface receptors. Cell 49:549–554
Hogg N (1989) The leukocyte integrins. Immunology Today 10:111–114
Keizer GD, Borst J, Figdor GD, Spits H, Miedma F, Terhorst C, De Vries JE (1985) Biochemical and functional characteristics of the human leukocyte membrane family LFA-1, Mo-1 and p150,95. Eur J Immunol 15:1142–1147
Anderson DC, Miller LJ, Schmalstieg FC, Rothlein RR, Springer T (1986) Contributions of the Mac-1 glycoprotein family to adherence dependent granulocute function assessments employing subunit-specific monoclonal antibodies. J Immunol 137:15–27
Arnoult MA, Lewis LL, Faller DJ (1988) Relative contribution of the leukocyte molecules Mo-1, LFA-1, and p150,95 (LeuM5) in adhesion of granulocytes and monocytes to vascular endothelium is tissue and stimulus specific. J Cell Physiol 137:305–309
Rothlein RR, Springer TA (1986) The requirement for lymphocyte function antigen-1 in homotypic leukocyte aggregation stimulated by phorbol ester. J Exp Med 163:1132–1149
Krensky AM, Mentzer SJ, Clayberger C, Anderson DC, Schmalstieg FC, Burakoff SJ, Springer TA (1986) Heritable lymphocyte function antigen associated-1 deficiency: abnormalities of cytotoxicity and proliferation associated with abnormal expression of LFA-1. J Immunol 135:3102–3108
Hemler ME, Crouse C, Takada Y, Sonnenberg A (1988) Multiple very late antigen (VLA) heterodimers on platelets. J Biol Chem 263:7660–7664
Hemler ME, Jacobson JG (1987) Cell matrix adhesion-related proteins VLA-1 and VLA-2: regulation of expression on T cells. J Immunol 138:2941–2948
Hemler ME, Glass D, Coblyn JS, Jacobson JG (1986) Very late activation antigens on rheumatoid synovial fluid T lymphocytes. Association with stages of T cell activation. J Clin Invest 78:696–702
Schwartz BR, Wayner EA, Carlos TM, Ochs HD, Harlan JM (1990) Identification of surface proteins mediating adherence of CD11/CD18 deficient lymphoblastoid cells to cultured human endothelium. J Clin Invest 85:2019–2022
Ruoslahti E, Pierschbacher MD (1987) New perspectives in cell adhesion: RGD and integrins. Science 238:491–496
Stamper HB, Woodruff JJ (1976) Lymphocyte homing in lymph nodes: in vitro demonstration of the selective affinity of recirculating lymphocytes for high-endothelial venules. J Exp Med 144:828–833
Cavender D, Haskard DO, Joseph B, Ziff M (1986) Interleukin-1 increases the binding of human B and T lymphocytes to endothelial cell monolayers. J Immunol 136:203–207
Pals ST, Annelies den O, Miedma F, Kabel P, Keizer GD, Scheper RG, Meijer CJLM (1988) Evidence that leukocyte function-associated antigen-1 is involved in recirculation and homing of human lymphocytes via high endothelial venules. J Immunol 140:1851–1853
Hamann A, Jablonski-Westrich D, Duijvestijn A, Butcher EC, Baisch H, Harder R, Thiele H-G (1988) Evidence for an accessory role of LFAQ-1 in lymphocyte-high endothelial interaction during homing. J Immunol 140:693–699
Jutila MA, Rott L, Berg EL, Butcher EC (1989) Function and regulation of the neutrophil Mel-14 antigen in vivo: comparison with LFA-1 and Mac-1. J Immunol 143:3318–3324
Oppenheimer-Marks N, Ziff M (1986) Binding of normal human mononuclear cells to blood vessels in rheumatoid synovial membrane. Arthritis Rheum 29:789–792
Jalkanen S, Steere AC, Fox RI, Butcher EC (1986) A distinct endothelial cell recognition system that controls lymphocyte traffic into inflamed synovium. Science 233:556–558
Gowans JL, Knight EJ (1964) The route of recirculation of lymphocytes in the rat. Proc R Soc London (Biol) 159:257–282
Hendriks HR, Estermans IL (1983) Disappearance and reappearance of high endothelial venules and immigrating lymphocytes in lymph nodes deprived of afferent lymphatic vessels: a possible regulatory role of macrohages in lymphocyte migration. Eur J Immunol 13:663–669
Dvorak AM, Mihm MC, Dvorak HF (1976) Morphology of delayed hypersensitivity of reactions in man. II. Ultrastructural alterations affecting the microvasculature and the tissue mast cells. Lab Invest 34:1079–1191
Cavender DE, Edelbaum D, Ziff M (1989) Endothelial cell activation by tumor necrosis factor and lymphotoxin. Am J Pathol 134:551–560
Haskard D, Cavender D, Beatty P, Springer T, Ziff M (1986) T lymphocyte adhesion to endothelial cells: mechanisms demonstrated by anti-LFA-1 monoclonal antibodies. J Immunol 137:2901–2906
Rothlein R, Dustin ML, Marlin SD, Springer TA (1986) A human intercellular adhesion molecule [ICAM-1] distinct from LFA-1. J Immunol 137:1270–1274
Marlin SD, Springer TA (1987) Purified intercellular adhesion molecule-1 [ICAM-1] is a ligand for lymphocyte function-associated antigen 1 (LFA-1). Cell 51:813–819
Makgoba MW, Sanders ME, Luce GEG, Dustin ML, Spriner TA, Clark EA, Mannoni P, Shaw S (1988) ICAM-1 ligand for LFA-1 dependent adhesion of B, T and myeloid cells. Nature 331:86–88
Yu C-L, Haskard DO, Cavender D, Johnson AR, Ziff M (1985) Human gamma interferon increases the binding of T lymphocytes to endothelial cells. Clin Exp Immunol 62:554–560
Cavender D, Saegusa Y, Ziff M (1987) Stimulation of endothelial cell binding of lymphocytes by tumor necrosis factor. J Immunol 139:1855–1860
Haskard DO, Cavender D, Fleck RM, Sontheimer R, Ziff M (1987) Human dermal microvascular endothelial cells behave like umbilical vein endothelial cells in T cell adhesion studies. J Invest Dermatol 88:340–344
Dustin ML, Springer TA (1988) Lymphocyte function-associated antigen-1 [LFA-1] interaction with intercellular adhesion molecule-1 (ICAM-1) is one of at least three mechanisms for lymphocyte adhesion to cultured endothelial cells. J Cell Biol 107:321–331
Staunton DE, Dustin ML, Springer TA (1989) Functional cloning of ICAM-2, a cell adhesion ligand for LFA-1 homologous to ICAM-1. Nature 339:61–64
Issekutz TB, Stolz JM (1989) Stimulation of lymphocyte migration by endotoxin, tumor necrosis factor, and interferon. Cell Immunol 120:165–173
Cotran RS, Gimbrone MA, Bevilacque MP, Mendrick DL, Pober JS (1986) Induction and detection of a human endothelial cell activation antigen in vivo. J Exp Med 164:661–666
Dobrina A, Schwartz BR, Carlos TM, Ochs HD, Beatty PG, Harlan JM (1989) CD11/CD18-independent neutrophil adherence to inducible endothelial-leucocyte adhesion molecules (E-LAM) in vitro. Immunology 67:502–508
Munro JM, Pober JS, Cotran RS (1989) Tumor necrosis factor and interferon-γ induce distinct patterns of endothelial activation and associated leukocyte accumulation in skin of Papio anubis. Am J Pathol 135:121–133
Kurosaka M, Ziff M (1983) Immunoelectron microscopic study of the distribution of T cell subsets in rheumatoid synovium. J Exp Med 158:1191–1210
Iguchi T, Ziff M (1986) Electron microscopic study of rheumatoid synovial vasculature: intimate relationship between tall endothelium and lymphoid aggregates. J Clin Invest 77:355–361
Te Velde AA, Keizer GD, Figdor CG (1987) Differential function of LFA-1 family molecules (CD11 and CD18) in adhesion of human monocytes to melanoma and endothelial cells and activated macrophages. Immunology 61:261–267
Grassman G, Springer TA, Adams DO (1985) Studies on antigens associated with the activation of murine mononuclear phagocytes: kinetics of and requirements for induction of lymphocyte-function-associated (LFA-1) antigen in vitro. J Immunol 135:147–151
Wallis WJ, Beatty PJ, Ochs HD, Harlan JN (1985) Human monocyte adherence to cultured vascular endothelium: monoclonal antibody defined mechanisms. J Immunol 135:2323–2330
Bevilacque MP, Pober JS, Wheeler ME, Cotran RS, Gimbrone MA (1985) Interleukin 1 acts on cultured vascular endothelium to increase the adhesion of polymorphonucleocytes, monocytes, and related cell lines. J Clin Invest 76:2003–2011
Downs EC, Cornwell DG, Proctor VK, Whisler RL (1987) IL-1 and bacterial lipopolysaccharide increase the ability of human endothelial cells to bind peripheral blooc monocytes. Lymphokine Res 6:351–355
Bevilacqua M, Stringelin S, Gimbrone MA, Seed B (1989) Endothelial leukocyte adhesion molecule 1: an inducible receptor for neutrophils related to complement regulatory proteins and lectins. Science 243:1160–1165
Kobayashi I, Ziff M (1973) Electron microscopic studies of lymphoid cells in the rheumatoid synovial membrane. Arthritis Rheum 16:471–486
Ishikawa H, Ziff M (1976) Electron microscopic observations of immunoreactive cells in the rheumatoid synovial membrane. Arthritis Rheum 19:1–14
Duke O, Panayi GS, Janossy G, Poulter LW (1982) An immunohistochemical analysis of lymphocyte subpopulations and their microenvironment in the synovial membranes of patients with rheumatoid arthritis using monoclonal antibodies. Clin Exp Immunol 49:22–30
Iguchi T, Kurosaka M, Ziff M (1986) Electron microscopic study of HLA-DR and monocyte/macrophage staining cells in the rheumatoid synovial membrane. Arthritis Rheum 29:600–613
Freemont AJ (1987) Molecules controlling lymphocyte-endothelial interactions in lymph nodes are produced in vessels of inflamed synovium. Ann Rheum Dis 46:924–928
Oppenheimer-Marks N, Ziff M (1988) Migration of lymphocytes through endothelial cell monolayers: augmentation by interferon-γ. Cellular Immunol 114:307–323
Center DM, Cruikshank W (1982) Modulation of lymphocyte migration by human lymphokines. I. Identification and characterization of chemoattractant activity for lymphocytes from mitogen-stimulated mononuclear cells. J Immunol 128:2563–2568
Van Epps DE, Potter JW, Durant DA (1983) Production of a human T lymphocyte chemotactic factor by T cell subpopulations. J Immunol 130:2727–2731
Miossec P, Dinarello CA, Ziff M (1986) Interleukin 1 lymphocyte chemotactic activity in rheumatoid synovial fluid. Arthritis Rheum 29:461–470
Larsen CG, Anderson AO, Apella E, Oppenheim JJ, Matsushima K (1989) The neutrophil activating protein (NAP-1) is also chemotactic for T lymphocytes. Science 243:1464–1466
El Naggar AK, Van Epps DE, Williams RC Jr (1980) Human B and T lymphocyte accumulation in response to casein, C5a, and f-Met-Leu-Phe. Cell Immunol 56:365–373
Wahl SM, Hunt DA, Wong HL, Dougherty S, McCartney-Francis N, Wahl LM, Ellingsworth L, Schmidt JA, Hall G, Roberts AB, Sporn MB (1988) Transforming growth factor-β is a potent immunosuppressive agent that inhibits IL-1 dependent lymphocyte proliferation. J Immunol 140:3026–3030
Ming WJ, Bersani L, Montevani A (1987) Tumor necrosis factor is chemotactic for monocytes and polymorphonuclear leukocytes. J Immunol 138:1409–1474
Yocum DE, Tobin LM, Suderi P (1988) Tumor necrosis factor-alpha production by synovial fluid mononuclear cells and synovial tissue from inflammatory and degenerative arthritis. Arthritis Rheum 32:S91 (abstr)
Wang JH, Colella S, Allavera P, Montevani A (1987) Chemotactic activity of human recombinant granulocyte-macrophage colony-stimulating factor. Immunology 60:439–444
Lipscomb MF, Lyons CR, O’Hara RM, Stein-Streilein J (1982) The antigen induced selective recruitment of specific T lymphocytes to the lung. J Immunol 128:111–116
McCluskey RT, Benaceraf B, McCluskey JW (1963) Studies on the specificity of the cellular infiltrate in delayed hypersensitivity reactions. J Immunol 90:466–477
Scheper RJ, van Dinther-Janssen ACHM, Polak L (1985) Specific accumulation of haptene reaction T cells in contact sensitivity reaction sites. J Immunol 134:1333–1336
Stamenkovic I, Stegagno M, Wright KA, Krane SM, Amento E, Gluin RB, Duquesnoy RT, Kurnick JT (1988) Clonal dominance among T cell infiltrates in arthritis. Proc Nat Acad Sci USA 85:1179–1183
Savill CM, Delves PJ, Kioussis D, Walker P, Lydyard PM, Colaco B, Shipley M, Roitt IM (1987) A minority of patients with rheumatoid arthritis show a dominant rearrangement of the T cell receptor beta genes in synovial lymphocytes. Scand J Immunol 25:629–635
Keystone EC, Minden M, Klock R, Poplonski L, Zalcberg J, Takadera T, Mak TW (1988) Structure of T cell antigen receptor β chain in synovial fluid cells from patients with rheumatoid arthritis. Arthritis Rheum 31:1555–1557
Duby AD, Sinclair AK, Osborne-Lawrence SL, Zeldes W, Kan L, Fox DA (1989) Clonal heterogeneity of synovial fluid T lymphocytes from patients with rheumatoid arthritis. Arthritis Rheum 32:B44 (abstr)
Dier DL, Roessner KD, Cooper SM (1989) Diversity of rheumatoid tissue T cells by T cell receptor analysis. Arthritis Rheum 32:B43 (abstr)
Cush JJ, Duby AD, Lightfoot E, Lipsky PE (1990) The search for oligoclonal T cells in rheumatoid synovium (abstract). Arthritis Rheum 33 (suppl9):516
Andreis M, Stastny P, Ziff M (1974) Experimental arthritis produced by injection of mediators of delayed hypersensitivity. Arthritis Rheum 17:537–551
Dingle JT, Page Thomas DP, King B, Bard DR (1987) In vivo studies of articular tissue damage mediated by catabolin/interleukin 1. Ann Rheum Dis 46:527–533
Pettipher ER, Higgs GA, Henderson B (1986) Interleukin 1 induced leukocyte infiltration and cartilage proteoglycan degradation in the synovial joint. Proc Natl Acad Sci USA 83:8749–8753
Gilman SC, Hodge T, Chang J (1987) Articular synovitis in rat knee joints induced by interleukin 1. Arthritis Rheum 30:S29 (suppl)
Yu DTY, Winchester RJ, Ru SM, Gibofsky A, Ko HS, Kunkel JH (1980) Peripheral blood la-positive cells. Increases in certain diseases and after immunization. J Exp Med 151:91–100
Gohring PPA, Burmester GR, Kalden JR (1987) Adhesion of human T lymphocytes to endothelial cells isolated from the umbilical vein: I. Similar binding patterns of normal and rheumatoid T cells. Immunobiol 175:385–393
Cush JJ, Lipsky PE (1988) Phenotypic analysis of synovial tissue and PBL isolated from patients with rheumatoid arthritis. Arthritis Rheum 31:1230–1238
Cavender DE, Haskard DO, Maliakkal D, Ziff M (1988) Separation and characterization of human T lymphocytes with varying adhesiveness for endothelial cells. Immunol 117:111–126
Sanders ME, Melegapuru WM, Shaw S (1988) Human naive and memory cells: reinterpretation of helper-inducer and suppressor-inducer subsets. Immunol Today 7:195–198
Morimoto C, Letvin NL, Boyd AW, Hagan M, Brown HM, Kornracki MM, Schlossman SF (1985) The isolation and characterization of the helper inducer T cell subset. J Immunol 134:3762–3769
Morimoto C, Letvin NL, Distaso JA, Aldrich WR, Schlossman SF (1985) The isolation and characterization of the human suppressor inducer T cell subset. J Immunol 134:1508–1515
Thomas ML (1989) The leukocyte common antigen family. Ann Rev Immunol 7:339–369
Akabar AN, Terry L, Timms A, Beverly PCL, Janossy G (1988) Loss of CD45R and gain of UCFIL1 reactivity is a feature of primed T cells. J Immunol 140:2171–2178
Sanders ME, Makgoba MW, Sharrow SO, Stephany D, Springer TA, Young HA, Shaw S (1988) Human memory T lymphocytes express increased levels of three cell adhesion molecules (LFA-3, CD2 and LFA-1) and three other molecules (UCHL1, CDw29 and Ppg-1) and have enhanced IFN-δ production. J Immunol 140:1401–1407
Pitzalis C, Kingsley G, Haskard D, Panayi G (1988) The preferential accumulation of helper-inducer T lymphocytes in inflammatory lesions: evidence for regulation by selective endothelial and homotypic adhesion. Eur J Immunol 18:1398–1404
Smith SH, Brown MH, Rowe D, Callard RE, Beverley PCL (1986) Functional subsets of helper-inducer cells defined by a new monoclonal antibody, UCHL1. Immunology 58:63–70
Emery P, Gentry KC, Mackay IR, Muirden KD, Rowley M (1987) Deficiency of the suppressor inducer subset of T lymphocytes in rheumatoid arthritis. Arthritis Rheum 30:849–856
Gerli R, Bertotto A, Rambotti P, Barbieri P, Ciompi ML, Bombardieri S (1988) T cell immunoregulation in rheumatoid arthritis. Arthritis Rheum 31:1075–1076
Pitzalis C, Kingsley G, Murphy J, Panayi G (1987) Abnormal distribution of the helper-inducer and suppressor-inducer T lymphocyte subsets in the rheumatoid joint. Clin Immunol Immunopathol 45:252–258
Duke O, Panayi GS, Bofill M, Poulter L, Janossy G (1986) Evidence for a deficiency of the suppressor-inducer T cell subset in the synovial membrane in rheumatoid arthritis. Br J Rheumatol 25:(suppl 65, abstr 38)
Hanly JG, Pledger D, Roberts M, Parkhill W, Gross M (1989) Expression of 4B4 (CDw29) and 2H4 (CD45R) by T lymphocytes in rheumatoid synovial membrane (SM). Arthritis Rheum 32:S57
Kingsley GH, Pitzalis C, Kyriazis N, Panayi GS (1988) Abnormal helper-inducer/suppressor-inducer T cell subset distribution and T cell activation status are common to all types of chronic synovitis. Scand Immunol 28:225–232
Morimoto C, Romain PL, Fox DA, Anderson P, Dimaggio M, Levine H, Schlossman SF (1988) Abnormalities in CD4+ lymphocyte subsets in inflammatory rheumatic diseases. Am J Med 84:817–825
Ishikawa N, Eguchi K, Otsubo T, Ueki Y, Fukuda T, Tezuka H, Matsunaga M, Kawabe Y, Shimomura C, Izumi M, Ban Y, Ito K, Nagataki S (1987) Reduction in the suppressor-inducer T cell subset and increase in the helper T cell subset in thyroid tissue from patients with Graves’ disease. JClin Endocrinol Metab 65:17–23
Lever R, Turbitt M, Sanderson A, MacKie R (1987) Immunopathology of the cutaneous infiltrate and of the mononuclear cells in the peripheral blood in patients with atopic dermatitis. J Invest Dermatol 89:4–7
Sobel RA, Hafler DA, Castro EE, Morimoto C, Weiner HL (1988) The 2H4 (CD45R) antigen is selectively decreased in multiple sclerosis lesions. J Immunol 140:2210–2214
Shinuzu Y, Shaw S, Graber N, Gopal TV, Horgan KJ, Van Seventer GA, Newman W (1991) Activation independent binding of human memory T cells to adhesion molecule ELAM-1. Nature 349:799–802
Hemler ME (1990) VLA proteins in the integrin family: structure, functions and their role on lymphocytes. Annu Rev Immunol 8:365–400
Koch AE, Robinson PG, Radosevich JA, Pope RM (1989) Immunophenotyping of rheumatoid (RA) synovial tissue lymphocytes. Arthritis Rheum 32:S59
Ford DK, DaRoza D (1986) Further observations on the response of synovial lymphocytes to viral antigens in rheumatoid arthritis. J Rheumatol 13:113–117
Ford DK, da Roza D, Shah P (1980) Cell mediated immune responses of synovial mononuclear cells to sexually transmitted, enteric and mumps antigens in patients with Reiter’s syndrome, rheumatoid arthritis and ankylosing spondylitis. J Rheumatol 8:220–232
Sigal LH, Steere AC, Freeman DH et al (1986) Reactivity to Borrelia burgdorferi antigens is greater in joint fluid than in blood. Arthritis Rheum 29:761–769
Padula SJ, Pfister RD (1988) Lyme disease synovial fluid cells show significantly greater response to Borrelia Burgdorferi antigens than peripheral blood cells. Clin Res 36:535 A
Gaston JSH, Life PF, Granfors K, Merilahti-Palo R, Bailey L, Consalvey S, Toivanen A, Bacon PA (1989) Synovial T lymphocyte recognition of organisms which trigger reactive arthritis. Clin Exp Immunol 76:348–353
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Ziff, M. (1992). Role of Cellular Adhesion in Rheumatoid Synovitis. In: Smolen, J.S., Kalden, J.R., Maini, R.N. (eds) Rheumatoid Arthritis. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-76189-8_5
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