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Preexisting antibodies can protect against congenital cytomegalovirus infection in monkeys
Cody S. Nelson, Diana Vera Cruz, Dollnovan Tran, Kristy M. Bialas, Lisa Stamper, Huali Wu, Margaret Gilbert, Robert Blair, Xavier Alvarez, Hannah Itell, Meng Chen, Ashlesha Deshpande, Flavia Chiuppesi, Felix Wussow, Don J. Diamond, Nathan Vandergrift, Mark R. Walter, Peter A. Barry, Michael Cohen-Wolkowiez, Katia Koelle, Amitinder Kaur, Sallie R. Permar
Cody S. Nelson, Diana Vera Cruz, Dollnovan Tran, Kristy M. Bialas, Lisa Stamper, Huali Wu, Margaret Gilbert, Robert Blair, Xavier Alvarez, Hannah Itell, Meng Chen, Ashlesha Deshpande, Flavia Chiuppesi, Felix Wussow, Don J. Diamond, Nathan Vandergrift, Mark R. Walter, Peter A. Barry, Michael Cohen-Wolkowiez, Katia Koelle, Amitinder Kaur, Sallie R. Permar
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Research Article Infectious disease Vaccines

Preexisting antibodies can protect against congenital cytomegalovirus infection in monkeys

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Abstract

Human cytomegalovirus (HCMV) is the most common congenital infection and a known cause of microcephaly, sensorineural hearing loss, and cognitive impairment among newborns worldwide. Natural maternal HCMV immunity reduces the incidence of congenital infection, but does not prevent the disease altogether. We employed a nonhuman primate model of congenital CMV infection to investigate the ability of preexisting antibodies to protect against placental CMV transmission in the setting of primary maternal infection and subsequent viremia, which is required for placental virus exposure. Pregnant, CD4+ T cell–depleted, rhesus CMV–seronegative (RhCMV-seronegative) rhesus monkeys were treated with either standardly produced hyperimmune globulin (HIG) from RhCMV-seropositive macaques or dose-optimized, potently RhCMV-neutralizing HIG prior to intravenous challenge with an RhCMV mixture. HIG passive infusion provided complete protection against fetal loss in both groups. The dose-optimized, RhCMV-neutralizing HIG additionally inhibited placental transmission of RhCMV and reduced viral replication and diversity. Our findings suggest that the presence of durable and potently neutralizing antibodies at the time of primary infection can prevent transmission of systemically replicating maternal RhCMV to the developing fetus, and therefore should be a primary target of vaccines to eliminate this neonatal infection.

Authors

Cody S. Nelson, Diana Vera Cruz, Dollnovan Tran, Kristy M. Bialas, Lisa Stamper, Huali Wu, Margaret Gilbert, Robert Blair, Xavier Alvarez, Hannah Itell, Meng Chen, Ashlesha Deshpande, Flavia Chiuppesi, Felix Wussow, Don J. Diamond, Nathan Vandergrift, Mark R. Walter, Peter A. Barry, Michael Cohen-Wolkowiez, Katia Koelle, Amitinder Kaur, Sallie R. Permar

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Figure 7

Placental transcriptome shifts following RhCMV congenital infection.

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Placental transcriptome shifts following RhCMV congenital infection.
(A)...
(A) Heatmap depicting normalized fold change of top differentially expressed genes (P < 0.01, fold change > 2.0) in monkey dam placenta with and without rhesus CMV (RhCMV) congenital infection (red = relative upregulation in RhCMV infection, blue = relative downregulation). (B) Interaction network for all differentially regulated genes (P < 0.05, fold change > 2.0) suggests that genes upregulated in congenital infection (green) greatly outnumber those upregulated in no infection (red). Node size reflects the number of gene interactions (InnateDB database), while color intensity indicates degree of fold change. (C) Analysis of innate versus adaptive immune genes suggests some preference for upregulation of innate immunity following infection, with blue denoting a statistically significant change (P < 0.05). (D) Cell-type enrichment analysis suggests no preference for myeloid versus lymphoid lineages, but that genes specific for monocytes and NK cells are upregulated following congenital infection. Statistically significant genes (P < 0.05) shown in blue, and significant genes with a fold change greater than 2.0 are labeled. (E) Diagram depicting placental genes related to NK cell movement and/or function (defined by IPA and KEGG databases) that are differentially upregulated (P < 0.05, fold change > 2) in placental RhCMV infection. APC, antigen-presenting cell. Data represent values obtained from a single transcriptome microarray experiment.

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