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ABSTRACT: Insulin has been reported as a major autoantigen in both human and murine type 1 diabetes (T1D). Insulin1-knockout NOD mice with only insulin2 are protected against the development of autoimmune diabetes, suggesting that insulin1 has strong immunogenicity and insulin2 has weak immunogenicity or a possible protective role in the pathogenesis of type 1 diabetes. In this study, we have developed fiber-mutant adenovirus vectors that express murine proinsulin1 or proinsulin2 (named Ad.Pins1-RGD/Ad.Pins2-RGD) and administered those virus vectors to the NOD mouse to evaluate modulation of autoimmune responses. The intravenous administration of either Ad.Pins1-RGD or Ad.Pins2-RGD at 3 and 5 weeks of age strongly suppressed the development of overt diabetes, accompanied by a significant reduction of insulin autoantibody (IAA), and suppression of disease was similar between administration of Ad.Pins1-RGD and that of Ad.Pins2-RGD. Our study suggests that systemic administration of fiber-mutant adenovirus vectors, which induce transient expression of proinsulin, may be applicable to a gene therapy inducing tolerance to insulin.
Annals of the New York Academy of Sciences 01/2009; 1150:183-6. · 3.15 Impact Factor
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ABSTRACT: Type 1 diabetes (T1D) is caused mostly by autoimmune destruction of pancreatic beta-cells, the precise mechanism of which remains unclear. Two major effector mechanisms have been proposed: direct cell-mediated and indirect cytokine-mediated cytotoxicity. Cytokine-mediated beta-cell destruction is presumed mainly caused by NO production. To evaluate the role of iNOS expression in T1D, this study used a novel iNOS inhibitor ONO-1714. ONO-1714 significantly reduced cytokine-mediated cytotoxicity and NO production in both MIN6N9a cells and C57BL/6 islets in the presence of IL-1beta, TNF-alpha, and IFN-gamma. To evaluate whether NO contributes to diabetes progression in vivo, ONO-1714 was administered to four different mouse models of autoimmune diabetes: multiple low-dose STZ (MLDS)-induced C57BL/6, CY-induced, adoptive transfer and spontaneous NOD diabetes. Exposure to STZ in vitro induced NO production in MIN6N9a cells and C57BL/6 islets, and in vivo injection of ONO-1714 to MLDS-treated mice significantly reduced hyperglycemia and interestingly, led to complete suppression of cellular infiltration of pancreatic islets. In contrast, when ONO-1714 was injected into spontaneous NOD mice and CY-induced and adoptive transfer models of NOD diabetes, overt diabetes could not be inhibited in these models. These findings suggest that NO-mediated cytotoxicity significantly contributes to MLDS-induced diabetes but not to NOD diabetes.
Diabetes research and clinical practice 01/2009; 83(2):200-7. · 2.16 Impact Factor
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Hiroaki Moriyama,
Reiko Kotani,
Atsumi Katsuta,
Mami Kameno,
Takashi Arai,
Yasuyo Okumachi,
Minoru Kishi, Katsumi Yamada,
Hisafumi Yasuda,
Kenta Hara,
Koichi Yokono,
Masao Nagata
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ABSTRACT: CD4(+)CD25(+) T cells (Tregs) play a critical role in maintaining dominant peripheral tolerance, and pathogenic autoreactive T cells may be frequent in the CD25-negative fraction of peripheral blood mononuclear cells (PBMCs) from patients with autoimmune disease. We therefore investigated whether T cell autoimmune responses to recombinant GAD65 can be detected by the use of ELISPOT assay in the CD25-negative fraction of PMBCs from Japanese type 1 diabetes (T1D) patients. The frequency of CD4(+)CD25(+) T cells was not different among patients with newly developed T1D, established T1D, and healthy controls. The CD25 positive cell-depleted fraction was obtained by negative selection with antihuman CD25 magnetic beads, reducing the number of CD4(+)CD25(+) T cells from 4-5% to less than 1%. In whole PBMC fraction, there was a significant elevation of IFN-gamma spots in PBMCs from recently diagnosed patients with T1D (P < 0.05), whereas the number of IFN-gamma spots from patients with established T1D was not significant. In the CD25-negative fraction, unlike whole PBMCs, we observed the significant IFN-gamma spots to GAD65 in the fraction from patients with established T1D (P < 0.05), but not in those with recently diagnosed disease. The phenomena were not observed for IL-4 spots. Our data suggest a possible role of Tregs maintaining dominant peripheral tolerance in T1D and application of further improved T cell assay detecting autoimmunity even in established T1D.
Annals of the New York Academy of Sciences 12/2008; 1150:278-81. · 3.15 Impact Factor
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Yasuyo Okumachi,
Hiroaki Moriyama,
Mami Kameno,
Takashi Arai,
Minoru Kishi,
Midori Kurohara, Katsumi Yamada,
Hisafumi Yasuda,
Kenta Hara,
Koichi Yokono,
Masao Nagata
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ABSTRACT: InsulinB:9-23 peptide (insB:9-23) reactive T cells has been reported as crucial for type 1 diabetes. In this study, experimental autoimmune diabetes (EAD) mice, which subcutaneous immunization of ins1 or 2B:9-23 induced autoimmune diabetes in F1(B7.1B6 x BALB/c), was investigated for antigen specific therapy to delete pathogenic T cells. Intravenous injection of ins1 or 2B:9-23 significantly delayed the development of diabetes on the corresponding peptide-induced EAD (ins1EAD or ins2EAD) concomitant with reduced insulitis and insulin autoantibodies expression. Population of Foxp3(+) CD4(+) T cell was unchanged whereas the level of anti-insB:9-23 specific IgG(2a) but not IgG(1) were specifically decreased, suggesting reduction of pathogenic insB:9-23 reactive T cells. Most interestingly, intravenous administration of ins2B:9-23, whose amino acid sequence had one amino acid difference at position 9 delayed the development of diabetes in both ins1EAD and ins2EAD whereas ins1B:9-23 administration delayed diabetes in the ins1EAD but not ins2EAD, suggesting that one amino acid difference gives critical influence on the effect of intravenous injection of antigenic peptide for type 1 diabetes.
Biochemical and Biophysical Research Communications 09/2008; 374(3):581-6. · 2.48 Impact Factor
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Muneaki Sakata,
Hisafumi Yasuda,
Hiroaki Moriyama, Katsumi Yamada,
Reiko Kotani,
Midori Kurohara,
Yasuyo Okumachi,
Minoru Kishi,
Takashi Arai,
Kenta Hara,
Hirofumi Hamada,
Koichi Yokono,
Masao Nagata
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ABSTRACT: Pancreatic islet transplantation has the potential to maintain normoglycemia in patients with established type 1 diabetes, thereby obviating the need for frequent insulin injections. Our previous study showed that recombinant IL-12p40-producing islets prevented the recurrence of NOD diabetes. First, to see which immunomodulating molecule-secreting islet grafts can most powerfully prevent diabetes development in NOD mice without immunosuppressant, NOD islets were transfected with one of the following adenoviral vectors: Ad.IL-12p40, Ad.TGF-beta, Ad.CTLA4-Ig, or Ad.TNF-alpha after which they were transplanted under the renal capsule of acutely diabetic NOD mice. The immunomodulating molecules produced by these adenovirus-transfected islets in vitro were 74+/-19ng, 50+/-4ng, 821+/-31ng, and 77+/-18ng/100 islets, respectively. Transplantation of IL-12p40, TNF-alpha, and CTLA4-Ig but not TGF-beta-secreting islets displayed enhanced survival and delayed diabetes recurrence in recent-onset diabetic recipients. IL-12p40-producing islet grafts most powerfully prevented recurrent diabetes in NOD mice. In addition, local production of TNF-alpha and CTLA4-Ig significantly prolonged islet graft survival. In second series of experiment, these manipulated islets were transplanted under the renal capsule of 10-week-old NOD recipients and were also transplanted subcutaneously into 2-week-old NOD recipients. Transplantation of these islets into 2- or 10-week-old pre-diabetic mice failed to protect them from developing diabetes; in fact, transplantation of Ad.TNF-alpha-transfected islets into 2-week-old mice actually accelerated diabetes onset. Taken together, this approach was ineffectual as a prophylactic protocol. In conclusion, this study showed comparisons of the immunomodulating effects of 4 different adenoviral vectors in the same transplantation model and local production of IL-12p40, TNF-alpha and CTLA4-Ig significantly prevented recurrent diabetes in NOD mice.
Diabetes research and clinical practice 07/2008; 80(3):352-9. · 2.16 Impact Factor
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ABSTRACT: Warfarin has been used as an anticoagulant for a long time. Recently, the pleiotropic effect of warfarin has been investigated. As low-dose warfarin has been reported to have anti-inflammatory effect through suppression of IL-6 secretion and inhibit the immune-associated signal between Tyro3 and its ligand, Gas6, the effect of low-dose warfarin on autoimmune diabetes in NOD mice was examined. To investigate the anti-inflammatory effect of warfarin, IL-6 secretion by splenocytes was examined in the presence of various concentrations of warfarin. Low concentration of warfarin inhibited IL-6 secretion. mRNA expression of Rse, one of the Tyro3 receptor family members, and Gas6 were analyzed in NOD mice. It was detected in islets, splenocytes and bone-marrow derived dendritic cells. 0.25 mg/l or 0.50 mg/l of warfarin was orally administered to NOD mice as a cyclophosphamide-induced diabetes model. Oral administration of warfarin at much lower doses than those clinically used as an anticoagulant significantly reduced the degree of insulitis and diabetes incidence in this model. We previously demonstrated that anti-FasL Ab-treatment led to complete prevention of autoimmune diabetes in NOD mice. As Fas/FasL signaling is reported to be essential for cyclophosphamide-induced diabetes model, we extracted RNA from lymphocytes of the inguinal lymph nodes of anti-FasL Ab-treated NOD mice and performed real-time PCR to determine expression of Rse gene. Interestingly, the expression of Rse gene related to the blockade of Fas/FasL signaling was reduced to less than half the level of untreated mice. In conclusion, low-dose warfarin is a potential immunomodulator which can prevent autoimmune diabetes.
The Kobe journal of medical sciences 02/2008; 54(1):E1-13.
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ABSTRACT: Rodents have two functional preproinsulin genes named insulin 1 and insulin 2 on different chromosome and have two amino acid differences in insulin B chain. We have established insulin 1 or insulin 2 knockout (KO) non-obese diabetic (NOD) colonies in the animal institute of Kobe University and evaluated anti-insulin autoimmunity. Similar to the previous report, insulin 1-KO provides strong protection from insulitis (islet-infiltration of mononuclear cells) and diabetes, whereas the insulin 2-KO markedly accelerated insulitis and development of diabetes even at further backcross breeding with NOD/Shi/Kbe mice (P<0.0001). Expression of serum anti-insulin autoantibodies (IAA) was enhanced in insulin 2-KO mice at a time between 10 and 15 weeks of age (P<0.005) while the expression of insulin 1-KO NOD mice was rather reduced. Furthermore, T cell reactivity in splenocytes of insulin 2-KO NOD mice to insulin 1 B:9-23 peptide was increased (P<0.05), suggesting that expanding insulin-reactive T cells may contribute to the acceleration of diabetes in insulin 2-KO mice. Based on those observations, we hypothesize that insulin 1 is a crucial T cell antigen in murine autoimmune diabetes and modification of anti-insulin autoimmunity can be applicable to antigen-based therapy for human type 1 diabetic patients.
Diabetes Research and Clinical Practice 09/2007; 77 Suppl 1:S155-60. · 2.75 Impact Factor
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ABSTRACT: A replication-competent adenoviral vector deficient for expression of the early E1B55K protein has been applied in clinical studies. The vector, however, was not fully effective for the treatment of human cancer. In this study, the E1A gene (which encodes an Rb-binding domain protein) of the adenoviral vector AxE1AdB was further engineered with a point mutation designed to abolish binding to Rb protein (pRb) and arrest the cell cycle (AxdAdB-3). The difference in the cytotoxicity of these vectors in two cancer cell lines was observed in association with differences in replication, infection efficiency, and expression levels of adenovirus receptors. Relative to the parent vector (AxE1AdB), which worked in a manner similar to ONYX-015, AxdAdB-3 with the mutated pRb-binding motif demonstrated increased cytotoxicity against p53-mutant human esophageal cancer cell lines EC-GI-10 and T.Tn. AxdAdB-3 showed a greater oncolytic effect than AxE1AdB in vivo despite almost the same replication efficiency in vitro. Unexpectedly, cell cycle arrest in AxdAdB-3-infected cells was less efficient than that in cell lines infected with AxE1AdB. However, AxdAdB-3 strongly reduced NF-kappaB activity and thereby enhanced apoptosis more than AxE1AdB did. These data demonstrate that the Rb-binding domain of E1A can regulate NF-kappaB activity and that modifications to this domain may lead to advances in gene therapies for the treatment of human cancers.
Human Gene Therapy 06/2007; 18(5):389-400. · 4.22 Impact Factor
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ABSTRACT: A short-term administration of antibodies against ICAM-1/LFA-1 or CD8 molecules during a critical period of younger age resulted in complete protection of autoimmune diabetes in NOD mice. In this study, we attempted to elucidate the tolerance mechanisms. Transfer of splenocytes from both antibody-treated NOD mice to NOD-SCID mice failed to develop diabetes. On the other hand, when splenocytes from diabetic mice were transferred to the antibody-treated mice, 40% of both mAb-treated recipients became diabetic. In vitro response of T cells from these protected mice exhibited strong proliferation against syngeneic islet cells or ConA. Furthermore, semiquantitative RT-PCR analysis of cytokines showed that T cells from anti-CD8-treated mice could express IFN-gamma, IL-4, IL-10 and TGF-beta1 in response to islet antigen. In contrast, T cells from anti-ICAM-1/LFA-1-treated mice expressed IFN-gamma, IL-10 and TGF-beta1 but not IL-4. These results suggest that tolerance mechanisms like clonal deletion, anergy, immunoregulatory T cells or Th1 to Th2/Th3 cytokine shifting are not responsible for the tolerance induction, indicating the presence of other unrevealed mechanism responsible for the loss of capability of autoreactive T cells to infiltrate and destroy the pancreatic beta-cells in vivo.
The Kobe journal of medical sciences 01/2003; 48(5-6):167-75.
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ABSTRACT: To investigate the prevalence of beta-cell autoantigen-reactive peripheral T-cells in type 1 diabetes, we developed an immunoglobulin-free enzyme-linked immunospot (ELISPOT) assay and assessed its usefulness for diagnosing this disease.
Cellular immune responses to beta -cell autoantigens were studied both by immunoglobulin-free proliferation assays and ELISPOT assays in 33 patients with type 1 diabetes and 15 patients with type 2 diabetes, compared with 23 healthy control subjects. Autoantibodies against GAD65 and IA-2 were measured by radioimmunoassay.
Significant proliferative responses to GAD65 were observed in 10 of 31 (32.3%) type 1 diabetic patients (P < 0.05), whereas GAD65-reactive gamma-interferon (IFN-gamma)-secreting cells were detected in 22 of 33 patients (66.7%) by ELISPOT assay (P < 0.001). Of patients negative for both GAD65 and IA-2, five of six (83.3%) showed IFN-gamma positivity in ELISPOT and two of five (40.0%) showed significant proliferation against GAD65.
Using a newly developed ELISPOT assay, GAD-reactive T-helper 1 cells in PBMC of type 1 diabetic patients could be identified at a higher frequency than by the proliferation assay. Therefore, the immunoglobulin-free ELISPOT assay is an excellent tool for detecting T-cell reactivity to autoantigens with greater specificity and, in combination with beta-cell autoantibody determination, will improve the diagnosis of type 1 diabetes.
Diabetes Care 08/2002; 25(8):1390-7. · 8.09 Impact Factor
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Maki Nakayama,
Masao Nagata,
Hisafumi Yasuda,
Kenji Arisawa,
Reiko Kotani, Katsumi Yamada,
Shahead Ali Chowdhury,
Sagarika Chakrabarty,
Zhen Zi Jin,
Hideo Yagita,
Koichi Yokono,
Masato Kasuga
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ABSTRACT: Apoptosis via Fas/Fas ligand (FasL) interactions has been proposed to be a major T-cell-mediated effector mechanism in autoimmune diabetes. To elucidate the role of Fas/FasL interactions in NOD diabetes, the effects of neutralizing anti-FasL antibody on autoimmune responses were evaluated. Islet-specific CD8(+) and CD4(+) T-cells expressed FasL upon activation and mediated FasL-dependent cytotoxicity against Fas-expressing target cells in vitro, although their cytotoxicity against islet cells was not blocked by anti-FasL antibody. Moreover, administration of anti-FasL antibody failed to inhibit diabetes in vivo in the CD8(+) T-cell adoptive transfer model. On the other hand, blockade of Fas/FasL interactions significantly inhibited CD4(+) T-cell-dependent diabetes in adoptive transfer models. These results suggest a substantial contribution of Fas/FasL interactions to CD4(+), but not CD8(+), T-cell-mediated destruction of pancreatic beta-cells. When anti-FasL antibody was administered to NOD mice between 5 and 15 weeks of age, the onset of diabetes was slightly delayed but the incidence was not decreased. However, administration of anti-FasL antibody at 2-4 weeks of age completely prevented insulitis and diabetes. These results suggest that Fas/FasL interactions contribute to CD4(+) T-cell-mediated beta-cell destruction and play an essential role in the initiation of autoimmune NOD diabetes.
Diabetes 06/2002; 51(5):1391-7. · 8.29 Impact Factor
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