Rheumatoid Arthritis: Bessis N

Boissier MC, Assier E, Falgarone G, Bessis N. · No affiliation provided · Joint Bone Spine. · Pubmed #18571969 No free full text.

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Boissier MC, Bessis N, Falgarone G. · No affiliation provided · Joint Bone Spine. · Pubmed #12184428 No free full text.

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Boissier MC, Assier E, Biton J, Denys A, Falgarone G, Bessis N. · Inserm ERI18, Bobigny, France. · Joint Bone Spine. · Pubmed #19028128 No free full text.

Abstract: Modulation of the T-cell response depends chiefly on regulatory T cells (Treg), which express CD4 and CD25. Some Treg cells are present naturally, whereas others are induced in response to antigens. The immunomodulating effects of Treg cells are mediated by membrane molecules (e.g., CTLA4, GITR, and OX40) and cytokines. IL-35 seems to be a crucial mediator, although IL-10 and TGFbeta are also important. The role for Treg cells in rheumatoid arthritis (RA) has been established in both patients and animal models. Treg function is deficient in RA, whereas Treg counts vary. Treg counts increase in patients who are responding to TNFalpha antagonist therapy. Among current hypotheses, Treg expansion or transfer may hold promise for the treatment of RA.

Bessis N, Boissier MC. · Service de rhumatologie, UPRES EA-3408, immunologie, université Paris 13, CHU d'Avicenne, AP-HP, 74, rue Marcel-Cachin, Bobigny cedex, France. · Joint Bone Spine. · Pubmed #16226478 No free full text.

Abstract: Gene therapy seeks either to supply a missing or dysfunctional gene or to ensure continuous long-lasting production of a therapeutic protein. Rheumatoid arthritis is a candidate for gene therapy, as the mechanisms leading to joint inflammation and destruction have been partly elucidated. Nevertheless, several crucial questions need to be addressed. Knowledge of the underlying pathophysiological mechanisms is needed to guide selection of the candidate gene. In the light of current data, TNF and IL-1 antagonists are generating interest. A choice must be made between a viral vector (adenovirus, retrovirus, adeno-associated virus) and a nonviral vector (naked DNA, administered by electrotransfer or in liposomes). Finally, the relative merits of intraarticular and systemic administration need to be considered. Safety is a primary concern. The transgene and/or vector may induce adverse effects. For instance, a transgene inserted within the host genome (when a retroviral vector is used) may induce a mutation. A number of vectors and transgenes induce immune responses. Numerous studies are ongoing to investigate the safety and efficacy of gene therapy strategies in experimental models of rheumatoid arthritis. These studies will have to be completed before further clinical trials of gene therapy in rheumatoid arthritis are considered.

Boissier MC, Bessis N. · Service de Rhumatologie, Hopital Avicenne, Bobigny, France. · Reumatismo. · Pubmed #15201941 links to  free full text

Abstract: Rheumatoid arthritis (RA) is a severe autoimmune systemic disease. Chronic synovial inflammation results in destruction of the joints. No conventional treatment is efficient in RA. Gene therapy of RA targets mainly the players of inflammation or articular destruction: TNF-alpha or IL-1 blocking agents (such as anti-TNF-alpha monoclonal antibodies, soluble TNF-alpha receptor, type II soluble receptor of IL-1, IL-1 receptor antagonist), anti-inflammatory cytokines (such as IL-4, IL-10, IL-1), growth factors. In this polyarticular disease, the vector expressing the therapeutic protein can be administered as a local (intra articular injection) or a systemic treatment (extra articular injection). All the main vectors has been used in experimental models, including the more recent lentivirus and adeno-associated virus. Ex vivo gene transfer was done with synovial cells, fibroblasts, T cells, dendritic cells, and different cells from xenogenic origin. In vivo gene therapy is simpler, although less controlled method. Clinical trials in human RA has started with ex vivo retrovirus expressing IL-1 receptor antagonist and have demonstrated the feasibility of the strategy of gene therapy. The best target remains to be determined and extensive researches have to be conducted in pre-clinical studies.

Saidenberg-Kermanac'h N, Cohen-Solal M, Bessis N, De Vernejoul MC, Boissier MC. · Groupe de recherche en immunopathologie et immunointervention (UPRES EA-3408) et service de rhumatologie (Hôpital Avicenne, AH-AP), Université Paris 13, UFR Léonard de Vinci, Bobigny, France. · Joint Bone Spine. · Pubmed #14769514 No free full text.

Abstract: Osteoprotegerin (OPG), a member of the TNF-receptor family expressed by osteoblasts, has documented effects on the regulation of bone metabolism. OPG inhibits bone resorption and binds with strong affinity to its ligand RANKL, thereby preventing RANKL from binding to its receptor RANK. This system is regulated by calcium-modifying hormones. OPG may also be pivotal in modulating the immune system. RANKL-deficient mice exhibit both severe immunological abnormalities and osteopetrosis, and activated T cells express RANKL mRNA. RANKL secretion by activated T cells may induce osteoclastogenesis via a mechanism enhanced by several cytokines (TNF-alpha, IL-1, and IL-17) that promote both inflammation and bone resorption. Conversely, this mechanism is inhibited by OPG, IL-4, and IL-10, which have antiinflammatory effects and inhibit osteoclast formation. Activated T cells in the rheumatoid synovium express RANKL. Synoviocytes can differentiate to osteoclast-like cells under specific conditions, particularly when they are cultured with M-CSF and RANKL. Thus, the bony erosions seen in RA may result from RANKL/RANK system activation by activated T cells. This raises the possibility that OPG therapy to block this mechanism might prove beneficial in patients with RA.

Clavel G, Bessis N, Boissier MC. · Service de Rhumatologie, CHU Nord, Place Victor Pauchet, 80054 Amiens cedex 1, France. · Joint Bone Spine. · Pubmed #14563458 No free full text.

Abstract: Angiogenesis is central to the development and perpetuation of rheumatoid synovitis. Vascular endothelial growth factor (VEGF), the main mediator of angiogenesis, is found in the synovial fluid and serum of patients with rheumatoid arthritis (RA), and its expression is correlated with disease severity. Compelling evidence that VEGF is involved in synovitis has been obtained from experimental models of RA. In particular, VEGF inhibition by synthetic compounds (e.g. TNP-470) or by naturally occurring factors (e.g., the soluble VEGF receptor) produce therapeutic effects. Angiopoietin-1, a recently discovered growth factor specific for neovascularization, is expressed within the rheumatoid synovium and may be stimulated by TNF-alpha. Other compounds, including integrins, fibroblast growth factor, and proinflammatory cytokines contribute to joint angiogenesis and, therefore, to the development of rheumatoid synovitis. Assessing vascularity may prove useful for evaluating or even predicting bone destruction. Furthermore, inhibition of angiogenesis may prove useful as an adjunct to current anti-inflammatory treatments.

Bessis N, Doucet C, Cottard V, Douar AM, Firat H, Jorgensen C, Mezzina M, Boissier MC. · UPRES EA-3408 (Université Paris 13) and Service de Rhumatologie (CHU Avicenne, AP-HP), Bobigny, France. · J Gene Med. · Pubmed #12439850 No free full text.

Abstract: Rheumatoid arthritis (RA) is a severe autoimmune systemic disease. Chronic synovial inflammation results in destruction of the joints. No conventional treatment is efficient in RA. Gene therapy of RA targets mainly the players of inflammation or articular destruction: TNF-alpha or IL-1 blocking agents (such as anti-TNF-alpha monoclonal antibodies, soluble TNF-alpha receptor, type II soluble receptor of IL-1, IL-1 receptor antagonist), antiinflammatory cytokines (such as IL-4, IL-10, IL-1), and growth factors. In this polyarticular disease, the vector expressing the therapeutic protein can be administered as a local (intra-articular injection) or a systemic treatment (extra-articular injection). All the main vectors have been used in experimental models, including the more recent lentivirus and adeno-associated virus. Ex vivo gene transfer was performed with synovial cells, fibroblasts, T cells, dendritic cells, and different cells from xenogeneic origin. In vivo gene therapy is simpler, although a less controlled method. Clinical trials in human RA have started with ex vivo retrovirus-expressing IL-1 receptor antagonists and have demonstrated the feasibility of the strategy of gene therapy. The best target remains to be determined and extensive research has to be conducted in preclinical studies.

Saidenberg Kermanac'h N, Bessis N, Cohen-Solal M, De Vernejoul MC, Boissier MC. · Groupe de Recherches en Immunopathologie et Immunointervention, UPRES EA-3408, Formation associée Claud Bernard and Service de Rhumatologie, Hôpital Avicenne, AH-AP, Université Paris 13, UFR Léonard-de Vinci, Bobigny, France. · Eur Cytokine Netw. · Pubmed #12101070 No free full text.

Abstract: RANK, RANKL, and OPG have well established regulatory effects on bone metabolism. RANK is expressed at very high levels on osteoclastic precursors and on mature osteoclasts, and is required for differentiation and activation of the osteoclast. The ligand, RANKL binds to its receptor RANK to induce bone resorption. RANKL is a transmembrane protein expressed in various cells type and particularly on osteoblast and activated T cells. RANKL can be cleaved and the soluble form is active. Osteoprotegerin decoy receptor (OPG), a member of the TNF receptor family expressed by osteoblasts, strongly inhibits bone resorption by binding with high affinity to its ligand RANKL, thereby preventing RANKL from engaging its receptor RANK. This system is regulated by the calciotropic hormones. Conversely, the effects of RANKL, RANK, and OPG on inflammatory processes, most notably on the bone resorption associated with inflammation, remain to be defined. The RANK system seems to play a major role in modulating the immune system. Activated T cells express RANKL messenger RNA, and knock-out mice for RANKL acquire severe immunological abnormalities and osteopetrosis. RANKL secretion by activated T cells can induce osteoclastogenesis. These mechanisms are enhanced by cytokines such as TNF-alpha, IL-1, and IL-17, which promote both inflammation and bone resorption. Conversely, this system is blocked by OPG, IL-4, and IL-10, which inhibit both inflammation and osteoclastogenesis. These data may explain part of the abnormal phenomena in diseases such as rheumatoid arthritis characterized by both inflammation and destruction. Activated T cells within the rheumatoid synovium express RANKL. Synovial cells are capable of differentiating to osteoclast-like cells under some conditions, including culturing with M-CSF and RANKL. This suggests that the bone erosion seen in rheumatoid arthritis may result from RANKL/RANK system activation by activated T cells. This opens up the possibility that OPG may have therapeutic effects mediated by blockade of the RANKL/RANK system.

Bessis N, Boissier MC. · UPRES EA-3408 et Formation de Recherche en Immunopathologie et Immuno-Intervention Articulaires (Association Claude Bernard), Rheumatology Department (CHU Avicenne, AP-HP), UFR Léonard de Vinci Bobigny, Université Paris 13, France. · Joint Bone Spine. · Pubmed #11808983 No free full text.

Abstract: Among potential targets for nonspecific anti-inflammatory immunointervention, three pro-inflammatory interleukins (ILs) have recently been found to play a pivotal role in rheumatoid arthritis (RA). IL-15 has both chemoattractant and proinflammatory properties and may promote bone destruction. IL-17, a product of T lymphocytes, has proinflammatory effects and induces production of metalloproteinases such as MMP-1. IL-18 not only has proinflammatory, angiogenic, and chemoattractant effects but also promotes cartilage destruction. These cytokines are potential targets for specific or nonspecific anti-inflammatory therapy. Thus, blocking IL-15 by its receptor reduces the severity of experimental collagen-induced arthritis (CIA). In this model, IL-17 levels fall after administration of anti-inflammatory cytokines such as IL-4 or IL-13. Finally, monoclonal anti-IL-18 antibodies prevent streptococcal cell wall arthritis, and IL-18 binding protein, which is a naturally occurring IL-18 inhibitor, prevents CIA.

Jaen O, Rullé S, Bessis N, Zago A, Boissier MC, Falgarone G. · INSERM ERI18, Paris 13 University, AP-HP Rheumatology Department, Avicenne Hospital, Bobigny, France. · Immunology. · Pubmed #18754812 No free full text.

Abstract: Dendritic cells (DCs) mediate interactions between innate and specific immunity and may induce regulatory mechanisms. We investigated the effects of modulated DCs in mice with collagen-induced arthritis (CIA) and tested the responses of cells to induced naturally occurring regulatory T cells. DCs were stimulated or not with DNA or lipopolysaccharide (LPS) for 24 hr. DC maturation was assayed, and then modulated DCs were intraperitoneally injected on day 14 into DBA/1 mice to treat CIA. In addition to arthritis scores and type 2 collagen (CII) response, the induction of CD4(+) CD25(+) T cells was analysed by flow cytometry in peripheral blood and the expression of Foxp3, transforming growth factor (TGF)-beta, interleukin (IL)-10 and cytotoxic T-lymphocyte antigen (CTLA)-4 was quantified. Finally, the expression of indoleamine-2,3-dioxygenase (IDO) was assayed in DCs. In comparison with LPS-stimulated DCs, plasmid-stimulated DCs expressed lower levels of major histocompatibility complex (MHC) class II, CD40, CD80 and CD86 molecules and secreted less IL-12p70, interferon (IFN)-gamma, IL-10 and TNF-alpha, displaying a semi-mature phenotype. Compared with non-stimulated DCs, stimulated DCs improved arthritis scores when injected after immunization, without modifying the T helper type 1 (Th1)/Th2 balance of the immune response against collagen. Stimulated DCs induced markers for regulatory T cells (Foxp3, TGF-beta1 and CTLA-4) in vivo. Only LPS-stimulated DCs expressed IDO, which may explain their better therapeutic efficacy. Regulatory mechanisms were induced using DCs modulated by innate immunity stimulators. Innate immunity mechanisms do not require the presence of the disease-causing antigen, even in T- and B-cell specific diseases. Our results have implications for the treatment of rheumatoid arthritis, an autoimmune disease whose triggering antigen has not been identified, and substantially clarify the role of regulatory T cells in CIA.

Clavel G, Marchiol-Fournigault C, Renault G, Boissier MC, Fradelizi D, Bessis N. · INSERM ERI-18, Université Paris 13, France. · Ann Rheum Dis. · Pubmed #18218664 No free full text.

Abstract: OBJECTIVES: The evaluation of joints in arthritis using conventional ultrasonography is not really feasible in mice because of the small size of the animal. However, compared with classical analysis (clinical and histological examination) it is a non-invasive method that allows follow-up of the same animal throughout the whole experiment. Moreover, power Doppler allows the study of blood flow that reflects inflammatory activity within the synovium of arthritic joints. Our aim was to determine whether ultrasonography analysis could accurately detect arthritis lesions in a mouse model of rheumatoid arthritis, namely collagen-induced arthritis. METHODS: Collagen-induced arthritis was induced in 28 mice by immunising with collagen type II. Every week for 8 weeks, ultrasonography and Doppler analysis were performed on knees and ankles of all mice using the ultrasound biomicroscope (UBM), which is particularly dedicated to studying the mouse. Clinical and histological evaluations were performed as usual. RESULTS: We established a semiquantitative analysis by setting an UBM scoring. UBM grades were correlated to clinical and histological scores of arthritis. Vascularisation within the synovium could be estimated by power Doppler analysis and a semiquantitative vascularisation scale was established, which allowed us to show a good correlation between vascularisation scores and histological or clinical scores of arthritis. CONCLUSIONS: This is one of the first studies that shows it is possible to visualise a selected set of joints in a small animal using UBM analysis. It provides new perspectives in evaluating experimental models of rheumatoid arthritis and other joint diseases.

Bloquel C, Denys A, Boissier MC, Apparailly F, Bigey P, Scherman D, Bessis N. · Inserm, Eri-18, F-93017 Bobigny, France. · J Gene Med. · Pubmed #17912759 No free full text.

Abstract: BACKGROUND: Anti-inflammatory gene therapy is promising in inflammatory diseases such as rheumatoid arthritis (RA). We have previously demonstrated that intra-muscular (i.m.) electrotransfer (ET) of plasmids encoding three different human tumor necrosis factor-alpha-soluble receptor I variants (hTNFR-Is) exert protective effects in an experimental RA model. However, such a systemic approach could be responsible for side effects. The present study aimed at performing an intra-articular (i.a.) gene therapy by electrotransfer using the hTNFR-Is plasmids. METHODS AND RESULTS: We evaluated targeting of mice joints by CCD optical imaging after i.a. ET of a luciferase-encoding plasmid and we showed that ET led to strongly increased transgene expression in a plasmid dose-dependent manner. Moreover, articular and seric hTNFR-Is was detectable for 2 weeks. As expected, systemic hTNFR-Is rates were lower after i.a. ET than after i.m. ET. A longer protein secretion could be achieved with several i.a. ETs. Also, we observed that hTNFR-Is expression within arthritic joints was slightly higher than in normal joints. CONCLUSIONS: In collagen-induced arthritis (CIA), a mouse model for RA, we demonstrated that hTNFR-Is/mIgG1-encoding plasmid i.a. ET decreased joint destruction in the ankles. In conclusion, our results suggest that local TNFR-Is gene therapy may play a role in decreasing joint destruction in CIA.

Boissier MC, Lemeiter D, Clavel C, Valvason C, Laroche L, Begue T, Bessis N. · INSERM, Eri-18, F-93017 Bobigny, France. · Hum Gene Ther. · Pubmed #17532727 No free full text.

Abstract: Intraarticular gene transfer with adeno-associated viral (AAV) vectors may allow efficient therapeutic transgene expression within the joint in diseases such as rheumatoid arthritis (RA), allowing high expression of the protein within the joint, preventing both systemic diffusion and side effects. However, humans demonstrate antibodies against AAV, which can influence gene transfer. To better understand critical obstacles to intraarticular gene therapy with AAV, we have previously shown that synovial fluid (SF) contains IgG to AAV that neutralizes chondrocyte infection in vitro. Our objective was therefore to compare neutralization exerted by SF from RA patients for four different AAV serotypes (AAV serotypes 1, 2, 5, and 8) on human primary synoviocytes. Serotype 2 infected synoviocytes most efficiently followed, in decreasing order, by serotypes 1, 5, and 8. SF from all patients partially inhibited infection of synoviocytes by at least one of the four serotypes. Infection with serotypes 1 and 2 was the most inhibited by SF, whereas inhibition was weak for serotypes 5 and 8. Last, we have shown that inhibition of AAV1/interleukin (IL)-4 infection of synoviocytes by SF could be reversed by increasing the number of AAV1/IL-4 particles, with a dose-dependent effect. We conclude that the most infectious AAV serotypes (1 and 2) in synoviocytes are also the serotypes most neutralized by SF. Thus, serotype 5 seems to demonstrate the best infection efficiency:immunogenicity ratio for local use in articular diseases. These data may be useful for tailoring intraarticular AAV-mediated gene therapy to individual patients.

Bessis N, Lemeiter D, Laroche L, Fournier C, Huizinga T, Brok H, 't Hart B, Boissier MC. · Inserm, Eri-18, F-93017, Bobigny, France. · Joint Bone Spine. · Pubmed #17224293 No free full text.

Abstract: OBJECTIVES: Gene therapy using cells as vectors to achieve secretion of therapeutic proteins may hold promise in the treatment of chronic diseases. Cell-based gene therapy with xenogeneic cells secreting antiinflammatory cytokines (IL-4, IL-13, or IL-1 receptor type II) has been found effective in mice with collagen-induced arthritis (CIA), a model for human rheumatoid arthritis. Autologous cells engineered to produce antiinflammatory cytokines were also effective in the mouse CIA model. In all these experiments, the cells were grafted into the subcutaneous tissue of the back, resulting in systemic treatment. To evaluate the feasibility of cell-based gene therapy confined to the joints, we performed intraarticular injections of autologous cells in a rhesus monkey with CIA, a model more similar to human RA. METHODS: We prepared ex vivo cultures of skin fibroblasts from the animal then transfected the cells with a plasmid carrying the lacZ gene. We injected these marker cells into metacarpophalangeal, metatarsophalangeal, and interphalangeal joints. RESULTS: Kinetic evaluation of synovial tissue X-gal labeling, which reflected reported gene expression by skin fibroblasts present within the synovium, showed significant labeling by transfected cells up to 6 days after intraarticular injection. Xenogeneic fibroblasts (Chinese hamster ovary cells) injected intraarticularly were also detected within synovial specimens; however, labeling intensity was less marked than with autologous cells. Our findings establish the feasibility of skin fibroblast grafting into the synovium. CONCLUSION: This preliminary study opens the door to studies of heterotopic autologous transfected cells for the treatment of CIA in monkeys by direct gene transfer within joints.

Clavel G, Valvason C, Yamaoka K, Lemeiter D, Laroche L, Boissier MC, Bessis N. · INSERM, ERI-18, University of Paris 13 and Rheumatology Dpt, CHU Avicenne (AP-HP), 74 rue Marcel Cachin, 93017 Bobigny Cedex, France. · Eur Cytokine Netw. · Pubmed #17194641 No free full text.

Abstract: Background. Angiogenesis is involved in rheumatoid arthritis (RA) leading to leucocyte recruitment and inflammation in the synovium. Furthermore, synovial inflammation itself further potentiates endothelial proliferation and angiogenesis. In this study, we aimed at evaluating the reciprocical relationship between synovial inflammation and angiogenesis in a RA model, namely collagen-induced arthritis (CIA). Methods. CIA was induced by immunization of DBA/1 mice with collagen type II in adjuvant. Endothelial cells were detected using a GSL-1 lectin-specific immunohistochemical staining on knee joint sections. Angiogenesis, clinical scores and histological signs of arthritis were evaluated from the induction of CIA until the end of the experiment. Angiogenesis was quantified by counting both the isolated endothelial cells and vessels stained on each section. To evaluate the effect of increased angiogenesis on CIA, VEGF gene transfer was performed using an adeno-associated virus encoding VEGF (AAV-VEGF), by intra-muscular or intra-articular injection in mice with CIA. Results. We showed an increase in synovial angiogenesis from day 6 to day 55 after CIA induction, and, moreover, joint vascularization and clinical scores of arthritis were correlated (p < 0.0001, r = 0.61). Vascularization and histological scores were also correlated (p = 0.0006, r = 0.51). Systemic VEGF overexpression in mice with CIA was followed by an aggravation of arthritis as compared to AAV-lacZ control group (p < 0.0001). In contrast, there was no difference in clinical scores between control mice and mice injected within the knee with AAV-VEGF, even if joint vascularization was higher in this group than in all other groups (p = 0,05 versus non-injected group). Intra-articular AAV-VEGF injections induced more severe signs of histological inflammation and bone destruction than AAV-Lac Z or no injection. Conclusion. Angiogenesis and joint inflammation evolve in parallel during collagen-induced arthritis. Furthermore, this work shows that exogenous VEGF can aggravate CIA. It is direct evidence that the increase in joint vascularization leads to an exacerbation of arthritis. Taken together, these results emphasize the role of angiogenesis in inflammatory arthritis. It also suggests an early involvement of angiogenesis in joint inflammation.

Le Buanec H, Delavallée L, Bessis N, Paturance S, Bizzini B, Gallo R, Zagury D, Boissier MC. · Neovacs, Incorporated, Université Pierre et Marie Curie, 96 Boulevard Raspail, 75006 Paris, France. · Proc Natl Acad Sci U S A. · Pubmed #17158801 links to  free full text

Abstract: The proinflammatory cytokine TNFalpha is a potent mediator of septic shock and a therapeutic target for chronic inflammatory pathologies including rheumatoid arthritis and Crohn's disease. As an alternative to anti-human TNFalpha (hTNFalpha) mAbs and other hTNFalpha blocker approved drugs, we developed an active anti-hTNFalpha immunotherapy, based on a vaccine comprised of a keyhole limpet hemocyanin-hTNFalpha heterocomplex immunogen (hTNFalpha kinoid) adjuvanted in incomplete Freund's adjuvant. In mice transgenic for hTNFalpha (TTg mice), hTNFalpha kinoid vaccination elicited high titers of Abs that neutralized hTNFalpha bioactivities but did not result in a cellular response to hTNFalpha. The vaccine was safe and effective in two experimental models. Kinoid-immunized but not control TTg mice resisted hTNFalpha-driven shock in one model and were prevented from spontaneous arthritis, inflammatory synovitis, and articular destruction in a second model. These data demonstrate an anti-cytokine induction of autoimmune protection against both acute and chronic hTNFalpha exposure. They show that active vaccination against a human cytokine can be achieved, and that the immune response can be effective and safe.

Miellot A, Zhu R, Diem S, Boissier MC, Herbelin A, Bessis N. · UPRES EA-3408 and Rheumatology Department, University Paris 13 and CHU Avicenne (AP-HP), Bobigny, France. · Eur J Immunol. · Pubmed #16304639 No free full text.

Abstract: Invariant natural killer T (iNKT) cells are a unique lymphocyte subtype implicated in the regulation of autoimmunity and a good source of protective Th2 cytokines. Agonist alpha-galactosylceramide (alpha-GalCer) of iNKT cells exert a therapeutical effect in type 1 diabetes. We investigated whether iNKT activation with alpha-GalCer was protective in collagen-induced arthritis (CIA) in DBA/1 mice, a standard model of rheumatoid arthritis. Here, we have shown that in vivo iNKT cell function was altered in DBA/1 mice since stimulation with alpha-GalCer led to decreased IL-4 and IFN-gamma levels in sera, as compared with C57BL/6 mice. alpha-GalCer induced a clear-cut diminution of clinical and histological arthritides. An anti-IL-10 receptor antibody abrogated the protective effect of alpha-GalCer, suggesting a key role for IL-10 in the protection against CIA by activated iNKT cells. Confirming these data, disease protection conferred by alpha-GalCer correlated with the ability of LN CD4+ cells to secrete larger amounts of IL-10. These findings suggest that in CIA susceptibility to autoimmunity is associated with dysfunctions of iNKT cells. Our demonstration that iNKT cell activation by alpha-GalCer remains efficient in CIA-prone DBA/1 mice to provide protective IL-10 suggests that this could be used therapeutically to treat autoimmune arthritis.

Bertin-Maghit SM, Capini CJ, Bessis N, Chomilier J, Muller S, Abbas A, Autin L, Spadoni JL, Rappaport J, Therwath A, Boissier MC, Zagury JF. · Laboratoire d' Oncologie Moléculaire, 2 place Jussieu, Tour 53, 75005 Paris, France. · Vaccine. · Pubmed #16005738 No free full text.

Abstract: Interleukin-1beta (IL-1beta) is a crucial cytokine in inflammation processes and has been implicated in the pathogenesis of several chronic inflammatory diseases. Strategies designed to blocking IL-1beta by passive administration of inhibitors (mAbs, IL-1 receptor antagonist) have previously demonstrated efficacy in rheumatoid arthritis (RA). Using molecular modelling, we have defined three murine IL-1beta peptide regions characterized by their close proximity to the receptor. Synthetic peptides corresponding to these regions, in cyclic and linear form, were delivered as immunogens in Swiss mice, resulting in significant levels of autoantibodies directed against the native murine IL-1beta cytokine as determined by ELISA and by an assay for neutralization of IL-1beta biological activity. More importantly, one of the cyclic peptides showed a protective effect against inflammation and articular destruction in DBA/1 mouse collagen-induced arthritis, a model of RA. The high rate of success observed for active immunization against cytokine peptides in vivo suggests that the in silico approach to autoantigen design may be a promising avenue for the development of anti-cytokine immunotherapeutics.

Capini CJ, Bertin-Maghit SM, Bessis N, Haumont PM, Bernier EM, Muel EG, Laborie MA, Autin L, Paturance S, Chomilier J, Boissier MC, Briand JP, Muller S, Cavaillon JM, Therwath A, Zagury JF. · Centre de recherche des Cordeliers, NEOVACS, Paris, France. · Vaccine. · Pubmed #15297067 No free full text.

Abstract: New lines of treatment targeting cytokines have been successfully developed recently and are now widely used in therapy. They are based on passive administration of cytokine inhibitors either soluble receptors or mAbs and the major example is TNFalpha in rheumatoid arthritis (RA). Since a few years, our group has developed a novel alternative approach targeting cytokines by using active immunization against biologically inactive but immunogenic cytokine derivatives. In the present work, we present a new aspect of this research, based on immunization against specific cytokine peptides chosen by molecular modelling. We could elicit a significant humoral response against four TNFalpha peptides by active immunization, and show that the Abs generated cross-reacted with the native cytokine with good titers as determined by ELISA. Interestingly, during coimmunization experiments with couples of peptides, one showed a clear immunodominant effect over the other. Overall, we could not show the neutralization of TNFalpha biological activity in vitro by the immunized sera, but it seems that it is not a prerequisite to observe clinical efficacy. Indeed, using the LPS/galactosamine-induced shock, we could demonstrate that one of the four peptides tested conferred a clinical protection. These results validate the feasibility and efficacy of active immunization against cytokine peptides, and confirm that active immunization against cytokines could represent in the future an alternative to passive immunization in many diseases.

Bloquel C, Bessis N, Boissier MC, Scherman D, Bigey P. · UPRES EA-3408 and Service de Rhumatologie, UFR Léonard de Vinci, Université Paris 13 and Hopital Avicenne (AP-HP), 93017 Bobigny Cedex, France. · Hum Gene Ther. · Pubmed #14975191 No free full text.

Abstract: Electrotransfer is a simple and efficient strategy of nonviral gene delivery. We have used this method to deliver plasmids encoding three human tumor necrosis factor-alpha soluble receptor I variants (hTNFR-Is) a monomeric hTNFR-Is, a chimeric hTNFR-Is/mIgG1, and a dimeric (hTNFR-Is)(2) form. Electrotransfer parameters were studied and because anti-TNF strategies have proven efficient for the treatment of rheumatoid arthritis in clinics, we used a collagen-induced arthritis (CIA) mouse model to assess the efficacy of our constructs in the treatment of the disease. All proteins were proven bioactive, both in vitro and ex vivo. Plasmid intramuscular electrotransfer in mice resulted in a local expression of the three variants for at least 6 months; systemic expression lasted also more than 6 months for the hTNFR-Is/mIgG1 form, while it was shorter for the two other forms. This expression was plasmid dose-dependent. Electrotransfer of 50 microg of hTNFR-Is/mIgG1 at the onset of a CIA induced a clear-cut decrease in both clinical and histologic signs of the disease; the dimeric form also showed some efficacy. Moreover, the long-lasting protective effect was observed for more than 5 weeks. Comparison of this electrotransfer approach with repeated recombinant protein (etanercept) injections highlighted the potential practical interest of gene therapy approach for CIA, which leads to sustained therapeutic effect after single treatment. These results show that electrotransfer may be a useful method to deliver cytokine or anticytokine therapy in rheumatoid arthritis and also illustrate the potentiality of plasmid intramuscular electrotransfer for the rapid screening and assessment of different variant forms of secreted proteins.

Saidenberg-Kermanac'h N, Bessis N, Deleuze V, Bloquel C, Bureau M, Scherman D, Boissier MC. · UPRES EA-3408 and Department of Rheumatology, Claude Bernard Foundation, Medical School of Bobigny, University of Paris 13, France. · J Gene Med. · Pubmed #12539154 No free full text.

Abstract: BACKGROUND: Gene therapy is very promising in the treatment of rheumatoid arthritis (RA). Electrotransfer is a recent method reported to enhance in vivo intramuscular DNA transfection. Interleukin-10 (IL-10) has antiinflammatory effects in RA and in collagen-induced arthritis (CIA), a murine model of RA. In order to improve our strategy of gene therapy, we used electrotransfer to enhance penetration into skeletal muscle with CIA of plasmids encoding IL-10. METHODS: CIA was induced in DBA/1 mice by immunization with bovine type II collagen. Injection into the tibial cranial muscle of low-dose (200 ng) pCOR plasmid encoding murine IL-10 (pCOR-CMV-mIL-10) was immediately followed by application of square-wave electric pulses (8 pulses of 200V/cm, 20 ms duration at 2 Hz). Control groups received empty plasmid or saline before electrotransfer. RESULTS: When electrotransfer was performed twice on days 10 and 25 postimmunization, CIA was significantly delayed (P < 0.05) and attenuated (P < 0.001) in groups treated by electrotransfer or pCOR-CMV-mIL-10 plasmid vs. control groups. When electrotransfer of pCOR-CMV-mIL-10 plasmid was performed on days 25 and 40 postimmunization, at disease onset, the clinical severity of CIA was reduced (P < 0.05). All groups which had been electrotransferred early or late by pCOR-CMV-mIL-10 plasmid showed suppression of histological signs of arthritis. CONCLUSIONS: Taken together, these data indicate that administration of an antiinflammatory plasmid-born gene by electrotransfer of naked DNA is effective in vivo in an arthritis model.

Bessis N, Cottard V, Saidenberg-Kermanach N, Lemeiter D, Fournier C, Boissier MC. · UPRES EA-3408, Léonard de Vinci Medical School and Department of Rheumatology (Avicenne Hospital, Bobigny, AP-HP), University of Paris 13, Paris, France. · J Gene Med. · Pubmed #12112647 No free full text.

Abstract: Background: No effective long-term treatment is available for rheumatoid arthritis. Recent advances in gene therapy and cell therapy have demonstrated efficiency in collagen-induced arthritis (CIA). Interleukin-4 (IL-4) is already known to be efficient in CIA in systemic injection or administered by gene therapy. This study was designed to evaluate the effect of a non-viral gene therapy of CIA, involving injection of syngeneic fibroblasts transfected with a plasmid encoding for IL-4. METHODS: Immortalised fibroblasts from DBA/1 mice (DBA/1/0 cells) were transfected with a plasmid expressing IL-4 cDNA (DBA/1/IL-4 cells). Xenogeneic fibroblasts from Chinese hamster ovary (CHO) transfected with a plasmid expressing IL-4 cDNA (CHO/IL-4) were studied also. The cells were engrafted in mice developing CIA by subcutaneous injection of 3 x 10(6) DBA/1/0 or DBA/1/IL-4 or CHO/IL-4 cells. RESULTS: Injection of DBA/1/IL-4 cells, on days 10 and 25 after immunisation, was associated with a significant and lasting improvement in the clinical and histological evidence of joint inflammation and destruction as compared with DBA/1/0 and CHO/IL-4 cells. DBA/1/IL-4 cell treatment decreased also the production of IgG2a antibody to CII and the proliferation of CIIB-specific nodal T cells. Later treatments (engraftments on days 23 and 35 after immunisation) exerted also an anti-inflammatory effect, as evaluated on clinical and histological signs of CIA. CONCLUSIONS: Taken together, these findings indicate that systemic administration of syngeneic cells transfected with an anti-inflammatory cytokine gene, namely IL-4, with a non-viral method is effective in CIA and may attenuate the cytokine imbalance seen in this disease.

Cottard V, Mulleman D, Bouille P, Mezzina M, Boissier MC, Bessis N. · UPRES EA-2361, UFR Léonard de Vinci, Université Paris XIII, Bobigny, France. · Gene Ther. · Pubmed #11127581 links to  free full text

Abstract: Immunomodulation of autoimmune inflammatory diseases like rheumatoid arthritis can be achieved by anti-inflammatory T2 cytokines such as interleukin (IL)-4 administered by gene therapy. In this study we investigated the efficiency of adeno-associated viruses (AAV) vectors in collagen-induced arthritis (CIA). After injection of AAV-LacZ in the tarsus area of mice, the expression of the transgene was localized in the deep muscles cells near the bone. LacZ expression was found in liver, heart and lung after i.m. injection of AAV-LacZ, showing a spread of the vector over the body. Anti-AAV neutralizing antibodies were detected in the serum after i.m. injection of AAV-LacZ, but they did not alter the transgene expression after re-administration of AAV-LacZ. Long-term IL-4 expression persisted 129 days after intra-muscular injection of 3.7 x 10(10) or 11.2 x 10(10) AAV-IL-4 p.p. (average 7.7 or 17.5 pg IL-4/mg proteins, respectively). More importantly, the treatment of CIA with AAV-IL-4 vector in mice produced a therapeutic benefit, since we show a diminished prevalence of the disease, a significant reduction in paw swelling, attenuated histological synovitis and a 10 days delayed onset of arthritis. This is the first evidence that AAV vector-mediated gene therapy using a T2 cytokine is efficient in an animal model of rheumatoid arthritis.

Bessis N, Guéry L, Mantovani A, Vecchi A, Sims JE, Fradelizi D, Boissier MC. · UPRES EA-2361, UFR Léonard de Vinci, Université Paris-Nord, Bobigny, France. · Eur J Immunol. · Pubmed #10741403 No free full text.

Abstract: IL-1 is a key cytokine involved in the inflammatory response. The type II receptor of IL-1 (IL-1RII) acts as a decoy receptor, binding and inhibiting the effect of IL-1. This study was undertaken to establish whether IL-1RII can ameliorate collagen-induced arthritis, a model of inflammatory arthritis in mice. We used human keratinocytes transfected with the human (h)IL-1 RII gene as a source of hIL-1 RII protein. We showed that these cells expressed both the membrane and soluble form of receptor. In vitro, IL-1-stimulated murine macrophage cells showed a decreased expression of TNF-alpha in the presence of hIL-1 RII. We engrafted the hIL-1RII-transfected cells in the back of mice developing collagen-induced arthritis. We found that clinical and histological parameters of arthritis were significantly decreased in mice treated with cells producing hIL-1RII. In addition, hIL-1RII administration was able to reduce the expression of mRNA for IL-6 and myeloperoxidase in the joints of treated animals. These data show that hIL-1 RII anti-inflammatory properties in the model of collagen-induced arthritis in mice and could have a regulatory role in rheumatoid arthritis.