Junichi Kaburaki scite author profile

Objective. To clarify the clinical features and prognosis of systemic sclerosis (SSc) based on serum antinuclear antibodies (ANA). Methods. We studied 275 consecutive Japanese patients newly diagnosed as having SSc, who were first evaluated during the period 1971—1990. Eight SSc–related ANA were identified using indirect immunofluorescence, double immunodiffusion, or immunoprecipitation assays. Clinical and prognostic features were retrospectively analyzed in patient groups, categorized by their serum ANA. Results. Cumulative survival rates at 10 years after diagnosis of SSc were 93% in patients with anticentromere antibodies (ACA), 72% in those with anti—U1 RNP, 66% in those with anti—DNA topoisomerase I (anti—topo I), and 30% in those with anti‐RNA polymerases I, II, and III (anti‐RNAP). Major organ involvement linked to cause of death included biliary cirrhosis in patients with ACA, isolated pulmonary arterial hypertension and cerebral hemorrhage in those with anti—U1 RNP, pulmonary interstitial fibrosis in those with anti—topo I, and cardiac and renal involvement in those with anti‐RNAP. Conclusion. Determinations of serum ANA in SSc patients are useful in predicting organ involvement and long‐term outcome.

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Autoreactive T cells to platelet GPIIb-IIIa in immune thrombocytopenic purpura. Role in production of anti-platelet autoantibody.

Kuwana¹,

Kaburaki²,

Ikeda³

1998

J. Clin. Invest.

213

173

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T cell proliferative responses to platelet membrane GPIIbIIIa were examined in 14 patients with chronic immune thrombocytopenic purpura (ITP), 7 systemic lupus erythematosus (SLE) patients with or without thrombocytopenia, and 10 healthy donors. Although peripheral blood T cells from all subjects failed to respond to the protein complex in its native state, reduced GPIIb-IIIa stimulated T cells from three ITP patients and one SLE patient with thrombocytopenia, and tryptic peptides of GPIIb-IIIa stimulated T cells from nearly all subjects. The specificity of the responses for GPIIb-IIIa was confirmed by activation of GPIIb-IIIa-primed T cells by a recombinant GPIIb ␣ fragment in secondary cultures. Characterization of T cell response induced by modified GPIIb-IIIa showed that the response was restricted by HLA-DR, the responding T cells had a CD4

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Spleen Is a Primary Site for Activation of Platelet-Reactive T and B Cells in Patients with Immune Thrombocytopenic Purpura

et al. 2002

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We have recently reported that in patients with chronic immune thrombocytopenic purpura (IMTP), circulating T and B cells that are responsive to gpIIb-IIIa can induce anti-platelet autoantibody production. In this study, the frequencies and activation status of gpIIb-IIIa-reactive T and B cells were evaluated in the peripheral blood and spleen obtained from nine IMTP patients undergoing splenectomy. There was no difference in gpIIb-IIIa-reactive T cell frequencies between peripheral blood and spleen (6.4 ± 2.6 vs 5.2 ± 2.4 per 105 T cells), as determined by limiting dilution analysis, but activated T cells responsive to gpIIb-IIIa showing accelerated proliferation kinetics and those expressing CD154 were more frequent in spleen than in peripheral blood. The frequencies of anti-gpIIb-IIIa Ab-producing B cells, as determined by ELISPOT assay, were also similar in peripheral blood and spleen (61.2 ± 24.0 vs 77.7 ± 45.3 per 105 B cells); however, an anti-gpIIb-IIIa Ab was spontaneously produced by splenocytes in vitro, but scarcely secreted by PBMCs. CD19−/surface Ig−/CD38+/CD138+ plasma cells secreting anti-gpIIb-IIIa Ab were exclusively detected in the spleen. In serial analysis, the frequencies of circulating gpIIb-IIIa-reactive T and B cells were markedly decreased after splenectomy in patients with a complete response, but were unchanged in nonresponders. These findings indicate that an interaction between gpIIb-IIIa-reactive T and B cells inducing anti-platelet Ab production in IMTP patients occurs primarily in the spleen and that the significant number of gpIIb-IIIa-reactive T and B cells activated in the spleen are released into the circulation as memory cells.

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Longitudinal analysis of autoantibody response to topoisomerase I in systemic sclerosis

Kuwana

Kaburaki

Mimori

et al. 2000

Arthritis & Rheumatism

139

113

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Objective. To examine serial changes in serum anti-topoisomerase I (anti-topo I) antibody levels in patients with systemic sclerosis (SSc), as well as associations with clinical features and the in vivo activation status of circulating topo I-reactive T and B cells. Methods. Serum anti-topo I antibody levels were serially measured at different time points in 28 SSc patients who were positive for anti-topo I antibody at their first visit (range of followup 6-29 years). The patients were subgrouped according to the disappearance (group 1) or persistence (group 2) of anti-topo I antibody. Clinical findings as well as T and B cell responses to topo I were compared between these 2 groups. Results. Serum anti-topo I antibody disappeared during the period of followup in 6 patients (group 1), but persisted in 22 patients (group 2). Loss of anti-topo I antibody occurred within 10 years after the first visit and independently of treatment. Group 1 patients had less extensive skin and lung involvement and better survival rates than did group 2 patients. Complete loss of anti-topo I antibody followed a reduction in isotype expression and epitope reactivities. The kinetics of in vitro T cell proliferation induced by topo I were delayed and circulating topo I-reactive T cells were less frequently detected in group 1 versus group 2 patients, suggesting that the disappearance of anti-topo I anti-body was due to loss of activation of topo I-reactive T cells. In vitro production of anti-topo I antibody in peripheral blood mononuclear cell cultures in response to antigenic stimulation in both group 1 and group 2 patients indicated persistence of anti-topo I antibody-producing "memory" B cells even after the loss of serum anti-topo I antibody. Conclusion. Our results indicate that there is a distinct subset of anti-topo I-positive SSc patients who lose anti-topo I antibody during the disease course and have a favorable outcome. In vivo production of anti-topo I autoantibody may require antigenic stimulation that activates topo I-reactive T and B cells.

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Autoantibody reactive with three classes of RNA polymerases in sera from patients with systemic sclerosis.

Kuwana

Kaburaki²,

Mimori³

et al. 1993

J. Clin. Invest.

142

106

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