The association between granulomas and vaccine-derived rubella virus (VDRV) in people with primary immunodeficiencies has raised concerns about the ability of immunoglobulin preparations to neutralize VDRVs. We investigated the capacity of immunoglobulin to neutralize rubella vaccine virus and 4 VDRV strains. As expected, the rubella vaccine virus itself was potently neutralized by immunoglobulin preparations, but the VDRV isolates from patients after intrahost evolution, 2-6 times less so. Diagnosis of immune deficiencies before possible live-virus vaccination is thus of critical importance, while immunoglobulin replacement therapy can be expected to provide protection from rubella virus infection.
Keywords: immunodeficiency; immunodeficiency-related rubella vaccine-derived mutants; intravenous immune globulin; rubella virus; virus neutralization.
The occurrence of granulomas associated with vaccine-derived rubella viruses (VDRVs) in people with primary immunodeficiencies challenges immunoglobulin preparations regarding their rubella neutralizing ability. This study confirmed potent rubella virus neutralization capacity of immunoglobulin preparations and thus suggests protection against rubella in immunoglobulin-treated patients with primary immunodeficiency. It also highlights the importance of early diagnosis and timely given immunoglobulin to prevent possible systemic spread of VDRV persisting locally in granulomas.
© The Author(s) 2024. Published by Oxford University Press on behalf of Infectious Diseases Society of America.