L Arfors scite author profile

A potentially pathogenic expansion of T cells expressing T cell receptor (TCR) Vbeta5.2/5.3 has been demonstrated in patients with multiple sclerosis (MS). A humanized antibody (ATM-027) directed against these T cells has been developed to further investigate the role of this subpopulation of T cells in MS. The pharmacokinetics/dynamics and safety of ATM-027 (0.3-300 mg intravenously over 30 min) were investigated in 14 patients with MS. The effect of treatment on cytokine expression and autoreactivity to peptides of myelin basic protein (MBP) was also studied. ATM-027 was well tolerated and raised no safety concerns. Clearance of the antibody was low and elimination half-life was approximately 3 weeks. The majority of the target Vbeta5.2/5.3 expressing T cells were depleted for at least 18 months. The small remaining fraction of target cells showed a marked decrease in their TCR expression, which was recovered within 8 months. The numbers of peripheral blood mononuclear cells (PBMCs) with spontaneous expression of IFN-gamma was decreased at 72 h and 8 weeks after treatment, whilst no clear effects on TNF-alpha, IL-4, IL-10, TGF-beta expression were observed. There was also a significant decrease in the number of PBMCs producing IFN-gamma in response to MBP peptide 80-102. We conclude that long-term depletion of T cells expressing defined Vbeta subgroups in MS patients is feasible using selective immunotherapy. The selective depletion of Vbeta5.2/5.3 expressing T cells in this study resulted in a decrease in potentially disease promoting anti-MBP reactivity and pro-inflammatory cytokine production.

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Antibody‐mediated suppression of Vβ5.2/5.3⁺ T cells in multiple sclerosis: Results from an MRI‐monitored phase II clinical trial

Killestein

Olsson

Wallström

et al. 2002

Annals of Neurology

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The objective of this study was to evaluate the safety and efficacy of the humanized antibody ATM-027 in a baseline versus treatment magnetic resonance imaging-monitored study. Expansion of Vbeta5.2/5.3(+) T cells has been demonstrated in the peripheral blood, cerebrospinal fluid, and brain lesions of MS patients. In a phase I study, ATM-027 depleted these cells in peripheral blood and, in parallel, T-cell MBP reactivity and IFN-gamma expression were reduced. We studied 59 patients with relapsing-remitting MS (47 on ATM-027 and 12 on placebo) stratified for HLA-DR2 status. Monthly intravenous injections were given for 6 months. Individual dose titration was employed to obtain depletion of the target T-cell level and downregulation of antigen receptor density as monitored by flow cytometry. Five monthly magnetic resonance imaging scans were performed before treatment to establish baseline activity, six during treatment, and three during follow-up. Additional immunological assessments were performed to elucidate the mechanism of action of ATM-027. The treatment was safe and well tolerated, inducing consistent suppression of the target cell population. During run-in, active lesions were found in 78.7% (37/47) of patients treated with ATM-027. During treatment, the median number of lesions was reduced by 33% (p = 0.13) independent of DR2 status. The corresponding volume of enhancement was 221 mm(3) at baseline, with a reduction of 10% during treatment. Decreased numbers of cells expressing interferon-gamma messenger RNA, and decreased T-cell reactivity to several myelin antigens were found in ATM-027 treated patients. In conclusion, consistent suppression of Vbeta 5.2/5.3(+) T cells was achieved. However, the effect size on magnetic resonance imaging was considerably less than the targeted 60%.

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Prevalence of antibodies to cardiolipin in chronic ITP and reactivity with platelet membranes

Arfors

Winiarski²,

Lefvert

1996

European J of Haematology

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Anti‐cardiolipin antibodies (ACLA) have been suggested to play a role in the pathogenesis of thrombocytopenia. When sera from 40 patients with chronic idiopathic thrombocytopenic purpura (ITP) were analyzed for ACLA, these autoantibodies were present in 12 (30%). In 4 sera the antibody activity was restricted to the IgG or IgM isotype, respectively, while 4 of the samples contained both IgG and IgM antibodies. To elucidate the interaction between platelets and ACLA, we studied the reactivity of sera from non‐ITP patients with ACLA, with fragmented platelet membranes. None of them had a concurrent platelet deficiency, but sera from 8 (67%) of them showed increased IgG‐binding to platelet membranes. Absorbtion with cardiolipin reduced membrane binding in 6 (50%). C3 levels were normal, while low C4 values occurred in both groups with significantly lower levels in ACLA‐positive patients (p<0.05). Circulating immune complexes (CIC) were common in both groups. Abstract Conclusion: The prevalence of ACLA is increased in ITP and sera from non‐ITP patients with ACLA react with fragmented platelet membranes. This reactivity is often decreased by absorption with cardiolipin, suggesting that ACLA bind to phospholipid epitopes on platelet membranes.

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L Arfors

Anticardiolipin antibodies and complement in ninety-nine women with habitual abortion

Depletion of Vβ5.2/5.3 T cells with a humanized antibody in patients with multiple sclerosis

Antibody‐mediated suppression of Vβ5.2/5.3⁺ T cells in multiple sclerosis: Results from an MRI‐monitored phase II clinical trial

Prevalence of antibodies to cardiolipin in chronic ITP and reactivity with platelet membranes

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L Arfors

Anticardiolipin antibodies and complement in ninety-nine women with habitual abortion

Depletion of Vβ5.2/5.3 T cells with a humanized antibody in patients with multiple sclerosis

Antibody‐mediated suppression of Vβ5.2/5.3+ T cells in multiple sclerosis: Results from an MRI‐monitored phase II clinical trial

Prevalence of antibodies to cardiolipin in chronic ITP and reactivity with platelet membranes

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Product

Resources

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Antibody‐mediated suppression of Vβ5.2/5.3⁺ T cells in multiple sclerosis: Results from an MRI‐monitored phase II clinical trial