Alexandra Joseph scite author profile

EBV is found preferentially in IgD− B cells in the peripheral blood. This has led to the proposal that the recirculating memory B cell pool is the site of long-lived persistent infection. In this paper we have used CD27, a newly identified specific marker for memory B cells, to test this hypothesis. We show that EBV is tightly restricted in its expression. Less than 1 in 1000 of the infected cells in the peripheral blood are naive (IgD+, CD27−) and <1 in 250 are IgD+ memory cells. Furthermore, EBV was undetectable in the self-renewing peripheral CD5+ or B1 cells, a subset that has not been through a germinal center. No such restriction was observed in tonsillar B cells. Therefore, the virus has access to a range of B cell subsets in the lymph nodes but is tightly restricted to a specific long-lived compartment of B cells, the IgD−, CD27+, and CD5− memory B cells, in the periphery. We suggest that access to this compartment is essential to allow the growth-promoting latent genes to be switched off to create a site of persistent infection that is neither pathogenic nor a target for immunosurveillance.

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Immune tolerance induction to enzyme-replacement therapy by co-administration of short-term, low-dose methotrexate in a murine Pompe disease model

Joseph¹,

Munroe²,

Housman³

et al. 2008

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SummaryClinical investigations of recombinant human acid a-glucosidase for the treatment of Pompe disease often reveal the appearance of therapy-specific antibodies. These antibodies could potentially interfere with recombinant human acid a-glucosidase efficacy and induce immunological consequences. Several immunosuppressive agents, including methotrexate, mycophenolate mofetil and cyclosporin A with azathioprine, were evaluated for their potential to induce immune tolerance to recombinant human acid a-glucosidase. Methotrexate was the only agent that reduced recombinant human acid a-glucosidase-specific antibody responses in acid a-glucosidase knock-out mice. A 3-week, low-dose methotrexate regimen controlled recombinant human acid a-glucosidase-specific antibody levels throughout 8 months of weekly recombinant human acid a-glucosidase treatment. The success of this methotrexate regimen appears to require methotrexate administration within the first 24 h of recombinant human acid a-glucosidase treatment. In an attempt to understand the benefit of methotrexate within the first day of recombinant human acid a-glucosidase administration, the immune response 24 h following intravenous recombinant human acid a-glucosidase treatment was investigated. A consistent expansion of peritoneal B1 B cells was observed. Control over this B1 B cell response may be part of the complex mechanism of action of methotrexate-induced immune tolerance.

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Transient Low-Dose Methotrexate Generates B Regulatory Cells That Mediate Antigen-Specific Tolerance to Alglucosidase Alfa

Joly¹,

Grande²,

Mitra-Kaushik³

et al. 2014

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Biologic drugs, including enzyme-replacement therapies, can elicit anti-drug Abs (ADA) that may interfere with drug efficacy and impact patient safety. In an effort to control ADA, we focused on identifying regimens of immune tolerance induction that may be readily available for clinical use. Data generated in both wild-type mice and a Pompe disease mouse model demonstrate that single-cycle, low-dose methotrexate can be as effective as three cycles of methotrexate in providing a long-lived reduction in alglucosidase alfa-specific ADA. In addition, we show that methotrexate induces Ag-specific tolerance as mice generate similar Ab responses to an irrelevant Ag regardless of prior methotrexate treatment. Methotrexate-induced immune tolerance does not seem to involve cell depletion, but rather a specific expansion of IL-10– and TGF-β–secreting B cells that express Foxp3, suggesting an induction of regulatory B cells. The mechanism of immune tolerance induction appears to be IL-10 dependent, as methotrexate does not induce immune tolerance in IL-10 knockout mice. Splenic B cells from animals that have been tolerized to alglucosidase alfa with methotrexate can transfer tolerance to naive hosts. We hypothesize that methotrexate induction treatment concomitant with initial exposure to the biotherapeutic can induce Ag-specific immune tolerance in mice through a mechanism that appears to involve the induction of regulatory B cells.

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Blocking GM-CSF receptor α with mavrilimumab reduces infiltrating cells, pro-inflammatory markers and neoangiogenesis in ex vivo cultured arteries from patients with giant cell arteritis

et al. 2022

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BackgroundEffective and safe therapies are needed for the treatment of patients with giant cell arteritis (GCA). Emerging as a key cytokine in inflammation, granulocyte-macrophage colony stimulating factor (GM-CSF) may play a role in promoting inflammation in GCA.ObjectivesTo investigate expression of GM-CSF and its receptor in arterial lesions from patients with GCA. To analyse activation of GM-CSF receptor-associated signalling pathways and expression of target genes. To evaluate the effects of blocking GM-CSF receptor α with mavrilimumab in ex vivo cultured arteries from patients with GCA.MethodsQuantitative real time PCR, in situ RNA hybridisation, immunohistochemistry, immunofluorescence and confocal microscopy, immunoassay, western blot and ex vivo temporal artery culture.ResultsGM-CSF and GM-CSF receptor α mRNA and protein were increased in GCA lesions; enhanced JAK2/STAT5A expression/phosphorylation as well as increased expression of target genes CD83 and Spi1/PU.1 were observed. Treatment of ex vivo cultured GCA arteries with mavrilimumab resulted in decreased transcripts of CD3ε, CD20, CD14 and CD16 cell markers, and reduction of infiltrating CD16 and CD3ε cells was observed by immunofluorescence. Mavrilimumab reduced expression of molecules relevant to T cell activation (human leukocyte antigen-DR [HLA-DR]) and Th1 differentiation (interferon-γ), the pro-inflammatory cytokines: interleukin 6 (IL-6), tumour necrosis factor α (TNFα) and IL-1β, as well as molecules related to vascular injury (matrix metalloprotease 9, lipid peroxidation products and inducible nitric oxide synthase [iNOS]). Mavrilimumab reduced CD34 + cells and neoangiogenesis in GCA lesions.ConclusionThe inhibitory effects of mavrilimumab on multiple steps in the GCA pathogenesis cascade in vitro are consistent with the clinical observation of reduced GCA flares in a phase 2 trial and support its development as a therapeutic option for patients with GCA.

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