Murine cytomegalovirus reactivation concomitant with acute graft-versus-host disease is controlled by antibodies
Martina Seefried, Nadine Hundhausen, Irena Kroeger, Maike Büttner-Herold, Petra Hoffmann, Matthias Edinger, Evelyn Ullrich, Friederike Berberich-Siebelt, William J. Britt, Michael Mach, Thomas H. Winkler
Martina Seefried, Nadine Hundhausen, Irena Kroeger, Maike Büttner-Herold, Petra Hoffmann, Matthias Edinger, Evelyn Ullrich, Friederike Berberich-Siebelt, William J. Britt, Michael Mach, Thomas H. Winkler
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Research Article Hematology Immunology

Murine cytomegalovirus reactivation concomitant with acute graft-versus-host disease is controlled by antibodies

Abstract

Reactivation of human cytomegalovirus (HCMV) from latency is a frequent complication following hematopoietic stem cell transplantation (HSCT). The development of acute graft-versus-host disease (GVHD) is a significant risk factor for HCMV disease. Using a murine GVHD model in animals latently infected with murine CMV (MCMV), we studied preventive and therapeutic interventions in this high-risk scenario of HSCT. Mice latently infected with MCMV experienced reactivated MCMV and developed disseminated MCMV infection concomitant with the manifestations of GVHD. Dissemination was accompanied by accelerated mortality. We demonstrate that MCMV reactivation and dissemination was modulated by MCMV-specific antibodies, thus demonstrating in vivo protective activity of antiviral antibodies. However, the efficacy of serum therapy required repetitive doses of high-titer immune serum secondary to the shortened serum half-life of IgG in animals with GVHD. In a complementary approach, treatment of GVHD by adoptive transfer of donor-derived Tregs facilitated production of MCMV-specific antibodies from newly developing donor-derived B cells. Together, our findings strongly suggest that antibodies play a major role in controlling recurrent MCMV infection that follows GVHD, and they argue for reassessing the potential of antibody treatments as well as therapeutic strategies that enhance de novo antibody development against HCMV.

Authors

Martina Seefried, Nadine Hundhausen, Irena Kroeger, Maike Büttner-Herold, Petra Hoffmann, Matthias Edinger, Evelyn Ullrich, Friederike Berberich-Siebelt, William J. Britt, Michael Mach, Thomas H. Winkler

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Figure 4

Repetitive treatment of infected donors with immune serum protects from a recurrent MCMV infection.

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Repetitive treatment of infected donors with immune serum protects from ...
MCMV-infected BALB/c mice were lethally irradiated and received 5 × 106 T cell–depleted BM cells ± 8 × 105 T cells from C57BL/6 donors. Eight days after BMT, 6–7 recipients transplanted with T cells received either a single application of immune serum (200 μL), repetitive treatment with immune serum (200 μL on day 8 postirradiation and 100 μL every second day) or no serum. (A) Relative viral load in untreated mice (black squares), in mice after a single treatment with serum (red squares), or after repetitive treatments with sera (blue squares). Mice transplanted only with BM (black circles) served as controls. Median values are depicted as horizontal bars and mean values of uninfected BALB/c (n = 3) as dashed lines. *P < 0.05, **P < 0.01, ***P < 0.001; Mann-Whitney U test. (B) MCMV-specific serum IgG2a titers were analyzed at different time points after BMT. By using the IgG2a allotypes a and b, a distinction between recipient (IgG2aa, gray) or immune serum (IgG2ab, black) origin was possible. Data are shown as mean ± SD. Representative data from 2 independent experiments are shown.