Matthew J. Gorman scite author profile

Zika virus (ZIKV) infection of pregnant women can cause congenital malformations including microcephaly, which has focused global attention on this emerging pathogen1. In addition to transmission by mosquitoes, ZIKV can be detected in the seminal fluid of affected males for extended periods of time and transmitted sexually2. Here, using a mouse-adapted African ZIKV strain (Dakar 41519) we evaluated the consequences of infection in the male reproductive tract of mice. We observed persistence of ZIKV, but not the closely related Dengue virus (DENV), in the testis and epididymis of male mice, and this was associated with tissue injury that caused diminished testosterone and inhibin B levels, and oligospermia. ZIKV preferentially infected spermatogonia, primary spermatocytes, and Sertoli cells in the testis, resulting in cell death and destruction of the seminiferous tubules. Less damage was observed with a contemporary Asian ZIKV strain (H/PF/2013), in part because this virus replicates less efficiently in mice. The extent to which these observations in mice translate to humans remains unclear, but longitudinal studies of sperm function and viability in ZIKV-infected humans seem warranted.

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Structural Basis of Zika Virus-Specific Antibody Protection

Zhao

Fernández

Dowd

et al. 2016

Cell

327

457

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SUMMARY Zika virus (ZIKV) infection during pregnancy has emerged as a global public health problem because of its ability to cause severe congenital disease. Here, we developed six mouse monoclonal antibodies (mAbs) against ZIKV including four (ZV-48, ZV-54, ZV-64, and ZV-67) that were ZIKV-specific and neutralized infection of African, Asian, and American strains to varying degrees. X-ray crystallographic and competition binding analyses of Fab fragments and scFvs defined three spatially distinct epitopes in DIII of the envelope protein corresponding to the lateral ridge (ZV-54 and ZV-67), C–C′ loop (ZV-48 and ZV-64), and ABDE sheet (ZV-2) regions. In vivo passive transfer studies revealed protective activity of DIII-lateral ridge specific neutralizing mAbs in a mouse model of ZIKV infection. Our results suggest that DIII is targeted by multiple type-specific antibodies with distinct neutralizing activity, which provides a path for developing prophylactic antibodies for use in pregnancy or designing epitope-specific vaccines against ZIKV.

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A CRISPR screen defines a signal peptide processing pathway required by flaviviruses

Zhang

Miner

Gorman

et al. 2016

Nature

328

335

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Flaviviruses infect hundreds of millions of people annually, with no antiviral therapy available1,2. We performed a genome-wide CRISPR/Cas9-based screen to identify host genes that when edited resulted in reduced flavivirus infection. We validated nine human genes required for flavivirus infectivity, and these were associated with endoplasmic reticulum (ER) functions including translocation, protein degradation, and N-linked glycosylation. In particular, a subset of ER-associated signal peptidase complex (SPCS) proteins was necessary for the proper cleavage of the flavivirus structural proteins (prM and E) and secretion of viral particles. Loss of SPCS1 expression resulted in markedly reduced yield of all Flaviviridae family members tested (West Nile, Dengue, Zika, yellow fever, Japanese encephalitis, and hepatitis C viruses), yet had little impact on alphavirus, bunyavirus, or rhabdovirus infection or the surface expression or secretion of diverse host proteins. We found that SPCS1 dependence could be bypassed by replacing the native prM protein leader sequences with a class I MHC antigen leader sequence. Thus, SPCS1, either directly or indirectly via its interactions with unknown host proteins, preferentially promotes the processing of specific protein cargo, and Flaviviridae have a unique dependence on this signal peptide processing pathway. SPCS1 and other signal processing pathway members could represent pharmacological targets for inhibiting infection of the expanding number of flaviviruses of medical concern.

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Adjuvanting a subunit COVID-19 vaccine to induce protective immunity

Arunachalam

Walls

Golden

et al. 2021

Nature

264

241

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Mapping and Role of the CD8 + T Cell Response During Primary Zika Virus Infection in Mice

Ngono

Vizcarra

Tang

et al. 2017

Cell Host & Microbe

210

239

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SUMMARY CD8+ T cells protect against and promote the pathogenesis of some flaviviruses, but their role in Zika virus (ZIKV) infection is unknown. We developed mice lacking the type I interferon receptor specifically in a subset of myeloid cells (LysMCre+IFNARfl/fl C57BL/6 (H-2b) mice) as a model for ZIKV infection and used it to evaluate CD8+ T cell responses to ZIKV. 26 and 15 CD8+ T cell-reactive peptides for ZIKV African (MR766) and Asian (FSS13025) lineage strains respectively were identified and validated. CD8+ T cells from infected mice were polyfunctional and mediated cytotoxicity. Adoptive transfer of ZIKV-immune CD8+ T cells reduced viral burdens, whereas their depletion led to higher tissue burdens and CD8−/− mice displayed higher mortality to ZIKV-infection. Collectively, these results demonstrate that CD8+ T cells protect against ZIKV infection. Further, this study provides an immunocompetent mouse model for investigating ZIKV-specific T cell responses.

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An Immunocompetent Mouse Model of Zika Virus Infection

Gorman

Caine

Zaitsev

et al. 2018

Cell Host & Microbe

193

203

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Progress toward understanding Zika virus (ZIKV) pathogenesis is hindered by lack of immunocompetent small animal models, in part because ZIKV fails to effectively antagonize Stat2-dependent interferon (IFN) responses in mice. To address this limitation, we first passaged an African ZIKV strain (ZIKV-Dak-41525) through Rag1 mice to obtain a mouse-adapted virus (ZIKV-Dak-MA) that was more virulent than ZIKV-Dak-41525 in mice treated with an anti-Ifnar1 antibody. A G18R substitution in NS4B was the genetic basis for the increased replication, and resulted in decreased IFN-β production, diminished IFN-stimulated gene expression, and the greater brain infection observed with ZIKV-Dak-MA. To generate a fully immunocompetent mouse model of ZIKV infection, human STAT2 was introduced into the mouse Stat2 locus (hSTAT2 KI). Subcutaneous inoculation of pregnant hSTAT2 KI mice with ZIKV-Dak-MA resulted in spread to the placenta and fetal brain. An immunocompetent mouse model of ZIKV infection may prove valuable for evaluating countermeasures to limit disease.

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Zika virus has oncolytic activity against glioblastoma stem cells

et al. 2017

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Dengue virus-reactive CD8+ T cells mediate cross-protection against subsequent Zika virus challenge

et al. 2017

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Zika virus (ZIKV) and dengue virus (DENV) are antigenically related flaviviruses that share cross-reactivity in antibody and T cell responses, and co-circulate in increasing numbers of countries. Whether pre-existing DENV immunity can cross-protect or enhance ZIKV infection during sequential infection of the same host is unknown. Here, we show that DENV-immune Ifnar1 −/− or wild-type C57BL/6 mice infected with ZIKV have cross-reactive immunity to subsequent ZIKV infection and pathogenesis. Adoptive transfer and cell depletion studies demonstrate that DENV-immune CD8+ T cells predominantly mediate cross-protective responses to ZIKV. In contrast, passive transfer studies suggest that DENV-immune serum does not protect against ZIKV infection. Thus, CD8+ T cell immunity generated during primary DENV infection can confer protection against secondary ZIKV infection in mice. Further optimization of current DENV vaccines for T cell responses might confer cross-protection and prevent antibody-mediated enhancement of ZIKV infection.

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Matthew J. Gorman

Zika virus infection damages the testes in mice

Structural Basis of Zika Virus-Specific Antibody Protection

A CRISPR screen defines a signal peptide processing pathway required by flaviviruses

Adjuvanting a subunit COVID-19 vaccine to induce protective immunity

Mapping and Role of the CD8 + T Cell Response During Primary Zika Virus Infection in Mice

An Immunocompetent Mouse Model of Zika Virus Infection

Zika virus has oncolytic activity against glioblastoma stem cells

Dengue virus-reactive CD8+ T cells mediate cross-protection against subsequent Zika virus challenge

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