Administration Of CII Research Articles

Effects of collagen-induced rheumatoid arthritis on amyloidosis and microvascular pathology in APP/PS1 mice

BackgroundEvidence suggests that rheumatoid arthritis (RA) may enhance or reduce the progression of Alzheimer's disease (AD). The present study was performed to directly explore the effects of collagen-induced rheumatoid arthritis (CIA) on amyloid plaque formation, microglial activation, and microvascular pathology in the cortex and hippocampus of the double transgenic APP/PS1 mouse model for AD. Wild-type or APP/PS1 mice that received type II collagen (CII) in complete Freund's adjuvant (CFA) at 2 months of age revealed characteristics of RA, such as joint swelling, synovitis, and cartilage and bone degradation 4 months later. Joint pathology was accompanied by sustained induction of IL-1β and TNF-α in plasma over 4 weeks after administration of CII in CFA.ResultsCIA reduced levels of soluble and insoluble amyloid beta (Aβ) peptides and amyloid plaque formation in the cortex and hippocampus of APP/PS1 mice, which correlated with increased blood brain barrier disruption, Iba-1-positive microglia, and CD45-positive microglia/macrophages. In contrast, CIA reduced vessel density and length with features of microvascular pathology, including vascular segments, thinner vessels, and atrophic string vessels.ConclusionsThe present findings suggest that RA may exert beneficial effects against Aβ burden and harmful effects on microvascular pathology in AD.

CD4+ T cells from collagen-induced arthritic mice are essential to transfer arthritis into severe combined immunodeficient mice.

The role of T lymphocytes in the adoptive transfer of collagen-induced arthritis (CIA) in DBA/1J mice to severe combined immunodeficient (SCID) mice was investigated. Spleen cells from non-immunized, type I collagen (CI) or type II collagen (CII)-immunized DBA/1J mice were injected into SCID mice which lack functional T and B cells. Specific antigenic stimulation of arthritogenic cells was required since only lymphocytes from arthritic CIA mice plus simultaneous administration of CII transferred arthritis to 11 of 12 SCID mice with a marked increase in CII antibody titre. However, CI-immunized or non-immunized DBA/1J mice cells did not induce arthritis in SCID mice. SCID recipients of pre-arthritic CIA lymphocytes presented increase in CII antibody, but showed no clinical signs of arthritis, suggesting that antibodies to CII alone can not induce CIA. Depletion of CD4+ T cells inhibited the transfer of arthritis to SCID mice, with a decrease in CII antibody titre in chimaeras. In contrast, depletion of CD8+ T cells enhanced the onset of arthritis in SCID mice. The results imply that CD4+ T cells are required for the induction of CIA. In addition, CD8+ T cells might have a suppressive role in the etiology of this disease. It is probable that memory CD4+ T cells stimulate production of antibodies to CII and subsequent arthritis. This study clarifies the role of T lymphocytes in the transfer of CIA to SCID mice.

Oral and nasal administration of chicken type II collagen suppresses adjuvant arthritis in rats with intestinal lesions induced by meloxicam.

To investigate the curative effects of oral and nasal administration of chicken type II collagen (CII) on adjuvant arthritis (AA) in rats with meloxicam-induced intestinal lesions. AA model in Sprague-Dawley (SD) rats with or without intestinal lesions induced by meloxicam was established and those rats were divided randomly into six groups which included AA model, AA model+meloxicam, AA model+oral CII, AA model+nasal CII, AA model+ meloxicam+oral C II and AA model+meloxicam+nasal CII (n = 12). Rats was treated with meloxicam intragastrically for 7 d from d 14 after immunization with complete Freund's adjuvant (CFA), and then treated with chicken CII intragastrically or nasally for 7 d. Histological changes of right hind knees were examined. Hind paw secondary swelling and intestinal lesions were evaluated. Synoviocyte proliferation was measured by 3-(4,5-dimethylthiazol-2-thiazolyl)-2,5-diphenyl-2H tetrazolium bromide (MTT) method. Activities of myeloperoxidase (MPO) and diamine oxidase (DAO) from supernatants of intestinal homogenates were assayed by spectrophotometric analysis. Intragastrical administration of meloxicam (1.5 mg/kg) induced multiple intestinal lesions in AA rats. There was a significant decrease of intestinal DAO activities in AA+meloxicam group (P<0.01) and AA model group (P<0.01) compared with normal group. DAO activities of intestinal homogenates in AA+meloxicam group were significantly less than those in AA rats (P<0.01). There was a significant increase of intestinal MPO activities in AA+meloxicam group compared with normal control (P<0.01). Oral or nasal administration of CII (20 microg/kg) could suppress the secondary hind paw swelling(P<0.05 for oral CII; P<0.01 for nasal CII), synoviocyte proliferation (P<0.01) and histopathological degradation in AA rats, but they had no significant effects on DAO and MPO changes. However, oral administration of CII (20 microg/kg) showed the limited efficacy on arthritis in AA+meloxicam model and the curative effects of nasal CII (20 microg/kg) were shown to be more efficient than that of oral CII (20 microg/kg) both in AA model and in AA+meloxicam model (P<0.05). Oral administration of CII shows the limited efficacy on arthritis in AA rats with intestinal lesions, and nasal administration of CII is more efficient than oral administration of CII to induce mucosal tolerance in AA rats.

Hematotoxicity response in rats by the novel copper-based anticancer agent: casiopeina II.

The in vivo toxicity of the novel copper-based anticancer agent, casiopeina II (Cu(4,7-dimethyl-1,10-phenanthroline)(glycine)NO3) (CII), was investigated. Casiopeinas are a family of copper-coordinated complexes that have shown promising anticancer activity. The major toxic effect attributed to a single i.v. administration of CII (5 mg/kg dose) in the rat was an hemolytic anemia (reduced hemoglobin concentration (HB), red blood cell (RBC) count and packed cell volume (PCV) accompanied by a marked neutrophilic leukocytosis) 12 h and 5 days after administration, attributed to a direct erythrocyte damage. Increased reticulocyte levels and presence of normoblasts in peripheral blood 5 days post-administration indicated an effective erythropoietic response with recovery at 15 days. Increase in spleen weight and the morphological evidence of congestion of the red pulp (RP) with erythrocytes (E) resulting in a higher ratio of red to white pulp (WP) was consistent with increased uptake of damaged erythrocytes by the reticuloendothelial system observed by histopathology and electron microscopy. Extramedullary hemopoiesis was markedly increased at 5 days giving further evidence of a regenerative erythropoietic response that had an effective recovery by 15 days. Morphological changes in spleen cellularity were consistent with hematotoxicity, mainly a reduction of the red pulp/white pulp ratio, increase in erythrocyte content at 12 h, and an infiltration of nucleated cells in the red pulp at 5 days, with a tendency towards recovery 15 days after administration. The erythrocyte damage is attributed to generation of free radicals and oxidative damage on the membrane and within cells resulting from the reduction of Cu(II) and the probable dissociation of the CII complex.

Oral administration of type II collagen suppresses pro-inflammatory mediator production by synoviocytes in rats with adjuvant arthritis.

The objective of this study was to investigate the effect of the oral administration of type II collagen (CII) on pro-inflammatory mediator production by synoviocytes in rats with adjuvant arthritis (AA). Sprague-Dawley rats were fed with bovine CII either before immunization with Complete Freund's adjuvant (CFA) or after initiation of arthritis. Hind paw secondary swelling was measured and synoviocytes were harvested. Sera from portal vein of oral tolerized rats were collected and in vitro synoviocytes culture or synoviocytes-Peyer's Patches (PP) cells coculture system were developed. Interleukin (IL)-1 activity was measured by a mouse thymocyte activation assayed by MTT dye reduction and tumour necrosis factor (TNF) activity was measured by an L929 cytotoxicity bioassay. Nitric oxide (NO) and malondialdehyde (MDA) levels were measured by biochemical methods. We found that feeding with CII (5, 50 and 500 micro g/kg) for 7 days before immunization significantly suppressed hind paw secondary swelling measured at day 16, 20, 24 and 28 (all P < 0.01) and pro-inflammatory mediator (IL-1, TNF, NO and MDA) production by synoviocytes (all P < 0.01) in rats with AA. Feeding with CII (5, 50 and 500 micro g/kg) for 7 days after initiation of arthritis had a similar effect. CII (1, 10, 100 micro g/ml) had no effect on IL-1 and TNF production by synoviocytes in vitro, but CII 10 micro g/ml suppressed IL-1 and TNF production by synoviocytes-PP cells coculture system (P < 0.01), which was antagonized by anti-TGF-beta antibody (10 micro g/ml) (P < 0.01). Portal serum (1 : 10) from oral tolerized rats suppressed IL-1 and TNF production by synoviocytes (P < 0.01), which was also antagonized by anti-TGF-beta antibody (10 micro g/ml) (P < 0.01). We conclude that oral administration of CII had prophylactic and therapeutic effects on AA and over-production of IL-1, TNF, NO and MDA by synoviocytes was suppressed. Bystander active suppression may be the main mechanism of oral CII in the suppression of synoviocyte function.

Down-regulation of Th1-mediated pathology in experimental arthritis by stimulation of the Th2 arm of the immune response.

To assess whether systemic administration of recombinant interferon-gamma (rIFN gamma), a proinflammatory cytokine that influences the differentiation of naive T cells into Th1 cells, promotes the induction of arthritis in DBA/1 mice immunized with type II collagen (CII) in Freund's incomplete adjuvant (IFA) and to determine the antiarthritic effect of treatment with CII in IFA. DBA/1 mice were immunized with CII in IFA and injected intraperitoneally with rIFN gamma (8,000 units/mouse/day) or with recombinant interleukin-12 (rIL-12; 100 ng/mouse/day). In another experiment, mice were immunized with CII in Freund's complete adjuvant (CFA) and treated with a single dose of CII in IFA on the day of immunization or on the day of disease onset. Mice were monitored to assess the effect of the treatment on the severity of disease. Th1/Th2 cytokines and anti-CII antibodies were measured by enzyme-linked immunosorbent assay. The administration of rIL-12 or rIFN gamma to mice immunized with CII in IFA restored the Th1 response and resulted in the development of arthritis. We then determined whether immunization with CII in IFA had the capacity to prevent and/or ameliorate collagen-induced arthritis. A single intraperitoneal injection of CII in IFA prevented arthritis when given at the time of immunization with CII in CFA and reduced disease severity when given at the time of arthritis onset. The administration of CII in IFA resulted in a profound down-regulation of IFN gamma production and an up-regulation of IL-10 in cultures of draining lymph node cells. These findings demonstrate that it is possible to deflect an ongoing pathogenic Th1 response to an antigen by reimmunization of the same antigen with a Th2-polarizing adjuvant.

Studies on the Cellular Immune Response in Animal Model of Arthritis after the Induction of Oral Tolerance

Oral administration of antigen has long been considered as a promising alternative for the treatment of chronic autoimmune diseases including rheumatoid arthritis (RA), and oral application of type II collagen (CII) has been proven to improve pathogenic symptoms in RA patients without problematic side effects. To further current understandings about the immune suppression mechanisms mediated by orally administered antigens, we examined the changes in IgG subtypes, T-cell proliferative response, and proportion of interleukin (IL)-10 producing Th subsets in a time course study of collagen induced arthritis (CIA) animal models. We found that joint inflammation in CIA mouse peaked at 5 weeks after first immunization with CII, which was significantly subdued in mice pre-treated by repeated oral administration of CII. Orally tolerized mice also showed increase in their serum level of IgG1, while the level of IgG2a was decreased. T-cell proliferation upon CII stimulation was also suppressed in lymph nodes of mice given oral administration of CII compared to non-tolerized controls. When cultured in vitro in the presence of CII, T-cells isolated from orally tolerized mice presented higher proportion of CD4IL-10 subsets compared to non-tolerized controls. Interestingly, such increase in IL-10 producing cells were obvious first in Peyer's patch, then by 5 weeks after immunization, in mesenteric lymph node and spleen instead. This result indicates that a particular subset of T-cells with immune suppressive functions might have migrated from the original contact site with CII to inflamed joints via peripheral blood after 5 weeks post immunization. (Im m une N etw ork 2003; 3(2):136-144)

Treatment with an Anti-IL-4 Monoclonal Antibody Blocks Suppression of Collagen-Induced Arthritis in Mice by Oral Administration of Type II Collagen

Oral administration of type II collagen (CII) has been shown to suppress collagen-induced arthritis (CIA) in experimental animals. However, the exact mechanism by which CIA is suppressed following administration of CII remains to be investigated, although it was demonstrated that active suppression by regulatory T cells might be involved in the suppression. Therefore, we have examined whether the inhibitory cytokine IL-4 plays a role in the suppression of CIA, by using an anti-IL-4 mAb (11B11 mAb). Mice were fed daily with CII over a period of 10 days before immunization with CII. 11B11 mAb was i.p. injected 30 min before each oral administration of CII. The results showed that treatment with 11B11 mAb markedly blocked suppression of CIA by the oral Ag. The blockade of suppression of CIA by the anti-IL-4 mAb was associated with the blockade of augmentation of IL-4 secretion in CII-fed mice. The treatment with 11B11 mAb also resulted in the prevention of decreases in anti-CII IgG2a Ab production, DTH responses to CII, proliferation of lymphoid cells to CII, and IFN-gamma secretion in mice given CII orally. Thus, the neutralization of IL-4 by an anti-IL-4 Ab appears to be effective in blocking suppression of CIA by oral administration of CII, suggesting that IL-4 may be critically involved in its suppression.

Suppression of murine collagen-induced arthritis by nasal administration of collagen.

DBA/1 mice were administered type II collagen (CII) or collagen peptides intranasally before systemic immunization to determine whether tolerance could be induced and autoimmune arthritis suppressed. Although prior experiments have demonstrated that collagen given intravenously or orally is effective, the respiratory mucosal route offers several theoretical advantages for dosing peptides, in addition to ease of use. Intact CII, CB11 and a synthetic peptide containing the immunodominant T-cell epitope recognized by H-2q mice were all effective in reducing the incidence and severity of arthritis and the immune response to CII. Since previous studies have demonstrated the importance of IgG2 antibody subclasses to the induction of collagen-induced arthritis, total immunoglobulin G (IgG), IgG1, and IgG2a and IgG2b were measured. IgG2 antibody subclasses were significantly downregulated by the treatment regimen, whereas a slight decrease in IgG1 antibodies was noted that was not significant. In an effort to determine the mechanism by which arthritis was attenuated, cervical lymph node and spleen cells from treated mice were cultured separately with CII and supernatants tested for the presence of T-cell lymphokines. The cells provided a T-helper 2 (Th2)-like response to CII, with T cells from lymph nodes secreting interleukin-4 (IL-4) and splenocytes secreting both IL-4 and IL-10, whereas a Th1-like response was detected in immunized mice not tolerized with CII. These findings indicate that the downregulation of arthritis that occurs with intranasal administration of CII is associated with Th2-type lymphokine profile and a decrease in complement-fixing antibody subclass.

Induction by chronic autoimmune arthritis in DBA/1 mice by oral administration of type II collagen and Escherichia coli lipopolysaccharide.

We have developed a new model of autoimmune arthritis in DBA/1 mice by feeding chick type II collagen (CII) for 2-3 week intervals over a 15 week period. Clinically evident arthritis occurred in 8/10 mice receiving native CII (nCII; 100 micrograms/mouse) alone at 9-13 weeks. Arthritis was aggravated by the further ingestion of CII, while remission occurred after withdrawal of the CII. Heat-denatured CII (dCII; 200 micrograms/mouse) was also arthritogenic if co-administered with ovoinhibitor (OVI; 2 mg/mouse), a proteinase inhibitor. Co-oral administration of lipopolysaccharide (LPS; 10 micrograms/mouse) with CII enhanced the antibody production and T-cell responses to CII, and induced a more chronic arthritis that progressed spontaneously without further administration of CII or LPS. Long-term oral administration of LPS alone also induced a mild arthritis characterized by destruction of bone rather than cartilage. These observations suggest that abnormal gastrointestinal absorption of dietary mimic antigens and intestinal bacterial toxins can potentially disrupt self-tolerance mechanisms, thereby precipitating or exacerbating autoimmune disease in genetically susceptible individuals.

Oral administration of type II collagen suppresses non-specifically induced chronic arthritis in rats

The present study was designed to investigate the efficacy of oral administration of type II collagen (CII) on non-specifically induced chronic arthritis in rats, induced by intra-articular injection of a mineral oil, squalene. When CII was fed before injection of squalene, no chronic arthritis developed. Feeding CII after the induction of arthritis was also effective in suppressing the progression of chronic joint inflammation. Lymph node cells from rats with squalene-induced arthritis failed to show proliferative responses to CII. In rats fed and primed with CII, there was a decrease in proliferative responses to CII. Arthritis induced by the mineral oil was markedly suppressed by the spleen cells from animals fed CII. These results indicate that non-specifically induced arthritis may be downregulated by the oral administration of CII and that the downregulation of joint inflammation may be due to the generation of CII-specific regulatory T cells that react to CII abundance in cartilage.

Downregulation of silicone-induced chronic arthritis by gastric administration of type II collagen

We previously demonstrated that intra-articular injection of silicone in rats induced acute arthritis followed by chronic destructive joint inflammation in which T cells played a role. To investigate whether the model of T cell-mediated chronic silicone-induced arthritis (SIA) is modified by oral administration of type II collagen (CII), rats were fed CII either before or after intra-articular injection of silicone. We found that feeding CII either before or after intra-articular injection of silicone markedly suppressed the development of chronic arthritis. The early phase of acute joint inflammation was not affected by the oral antigen. There were no proliferative responses to CII of lymph node cells from rats with SIA. The proliferation to CII of lymph node cells from CII-primed rats was markedly suppressed by the addition of spleen cells from animals fed CII. Furthermore, the proliferative response to keyhole limpet hemocyanin (KLH) of KLH-sensitized lymph node cells was also suppressed by the addition of CII plus spleen cells from CII-fed animals. Injection of the spleen cells into rats followed by intra-articular injection of silicone inhibited the development of chronic SIA. These results indicate that T cell-mediated chronic arthritis may be downregulated by oral administration of CII and that the downregulation of joint inflammation may be due to the generation of CII-specific regulatory lymphocytes that react to CII abundant in cartilage.

Suppression of Collagen Induced Arthritis by Oral Administration of Type II Collagen: Changes in Immune and Arthritic Responses Mediated by Active Peripheral Suppression

The oral administration of CII by gavage to WA/KIR rats before a conventional arthritogenic challenge with bovine CII in FIA reduced the incidence (by 23%) and delayed the onset of collagen-induced arthritis in about 50% of the animals. Selective changes in B cell and T cell responses to CII in animals treated this way are interpreted to indicate a state of tolerance or hyporesponsiveness to CII. Tolerant animals made less serum antibody, to bovine and rat CII, of the IgG2b isotype and more of the IgG1 isotype. Phenotypic and functional analysis of peripheral lymph node cells showed that those from tolerized animals expressed less MHC Class II, proliferated less and secreted less IgG2b anti-CII antibody in response to stimulation in vitro with CII when compared with cells from non-tolerant animals. However, this depression of the immune responses to CII seen in vitro was overcome when the cells were incubated with increasing amounts of CII. Tolerance could be transferred to normal animals. Spleen cells, and nylon wool-filtered splenic T cells (but not mesenteric lymph node cells) adoptively transferred hyporesponsiveness to normal recipients which were then less susceptible to collagen-induced arthritis. Transfer of serum from gavaged animals did not modify the susceptibility of normal recipients to arthritis. Spleen cells from gavaged animals suppressed proliferative and antibody responses in co-cultures in vitro with lymph node cells from animals immunized with CII in FIA. The suppressive spleen cell population contained more cells expressing MHC Class II, in both the CD8+ and CD4+ populations. These studies show that the oral administration of CII alters the subsequent immune response to the arthritogenic challenge and indicate that this oral tolerance of CII is due, not to clonal deletion or anergy, but rather to an antigen-driven active suppression mechanism that affects both T cells and B cells, most likely through the action of regulatory cytokines IL-4, IL-10 and TGF beta.