MacDonald Wood scite author profile

In this study, infectious Epstein-Barr virus (EBV) shedding in the oropharynx and numbers of virus-infected B cells in the blood have been monitored in long-term virus carriers receiving acyclovir (ACV) therapy for herpes zoster. Eleven patients on oral ACV were followed prospectively before, during and for 2 weeks after treatment. As expected, the low levels of EBV shedding in these virus carriers (measured as cord-blood lymphocyte transforming activity in throat washings) were eliminated during the period of ACV treatment and returned at later times. Over the same period, however, the frequency of virus-infected B cells in the blood (measured by spontaneous transformation in limiting dilution assay) remained completely unchanged. Regression assays showed that these same patients had normal levels of EBV-specific cytotoxic T-cell immunity, so that the in vivo persistence of virus-infected B cells could not be ascribed to a defect in T-cell surveillance. We infer that the in vivo half-life of the virus-infected B-cell pool in long-term virus carriers is measured in months rather than days. We further suggest that such persistence requires a novel form of virus:B-cell interaction distinct from the type of "latent" infection displayed by in vitro-transformed cells.

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Anti‐Wj: an autoantibody that defines a high‐incidence antigen modified by the In(Lu) gene

Marsh

Brown

DiNapoli

et al. 1983

Transfusion

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An IgG autoantibody, named anti-Wj, reacts with all random and most selected red cell samples. It does not agglutinate cells of Lu(a-b-) type caused by the In(Lu) dominant inhibitor gene, but cells of recessive Lu(a-b-) type are reactive. These data establish that synthesis of the Wj antigen is suppressed by the In(Lu) gene, but it is not a part of the Lutheran blood group system. The Wj antigen is not well developed on fetal red cells. This example of auto anti-Wj is a non-complement-binding IgGl protein that did not appear to cause accelerated in vivo destruction of the patient's red cells.

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The epstein‐barr virus: Host balance in acute infectious mononucleosis patients receiving acyclovir anti‐viral therapy

Yao

Ogan²,

Rowe

et al. 1989

Intl Journal of Cancer

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This report describes the first of 2 investigations studying mechanisms of Epstein-Barr virus (EBV) persistence in the infected host; specifically, we wish to determine the extent to which virus carriage within the B-cell system is dependent upon continued replication of the virus in permissive oropharyngeal epithelium. Levels of EBV infection at these 2 sites have been monitored in 21 acute infectious mononucleosis (IM) patients before, during and after treatment with high doses of acyclovir (ACV). Twelve patients received oral ACV for 10 days and 9 patients received i.v. ACV for 5 days before the 10-day oral course; all were followed prospectively for 28 days. Infectious EBV, detectable at high initial levels in the patients' throat washings, disappeared almost completely during ACV treatment, then returned again to high levels post treatment. In contrast, levels of virus-infected B cells in the blood showed no reduction linked to the period of ACV treatment nor any increase with resumption of EBV shedding. During IM, therefore, maintenance of high levels of virus carriage within the B-cell pool is not dependent upon the continual recruitment of newly infected B cells. This might reflect an inability of the immune T-cell response in acute IM patients to prevent continued expansion of the existing EBV-infected B-cell pool. Alternatively, it raises the possibility that EBV carriage in B cells in vivo is maintained through a virus:cell interaction which is not sensitive to virus-specific T-cell surveillance.

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MacDonald Wood

Epstein‐barr virus‐infected b cells persist in the circulation of acyclovir‐treated virus carriers

Anti‐Wj: an autoantibody that defines a high‐incidence antigen modified by the In(Lu) gene

The epstein‐barr virus: Host balance in acute infectious mononucleosis patients receiving acyclovir anti‐viral therapy

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