Jonathan J. Miner scite author profile

SUMMARY Due to the ongoing Zika virus (ZIKV) epidemic and unexpected clinical outcomes including Guillain-Barré syndrome and birth defects, there is an urgent need for animal model development. We evaluated infection and pathogenesis with contemporary and historical ZIKV strains in immunocompetent mice and transgenic mice lacking components of the innate antiviral response. Whereas 4 to 6 week-old wild-type, Irf3−/−, Irf5−/−, and Mavs−/−, mice showed no overt clinical illness, Irf3−/− Irf5−/− Irf7−/− TKO and Ifnar1−/− mice developed neurological disease and succumbed to ZIKV infection. Ifnar1−/− mice sustained high viral loads in the brain and spinal cord, consistent with evidence that ZIKV causes neurodevelopmental defects in human fetuses. The highest viral loads were detected in the testes of Ifnar1−/− mice, which is relevant to sexual transmission of ZIKV. This model of ZIKV pathogenesis will be valuable for evaluating vaccines and therapeutics, as well as understanding basic mechanisms of disease pathogenesis and immune evasion.

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Zika Virus Infection during Pregnancy in Mice Causes Placental Damage and Fetal Demise

Miner

Cao

Govero

et al. 2016

Cell

743

895

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SUMMARY Zika virus (ZIKV) infection in pregnant women causes intrauterine growth restriction, spontaneous abortion, and microcephaly. Here, we describe two mouse models of placental and fetal disease associated with in utero transmission of ZIKV. Female mice lacking type I interferon signaling (Ifnar1−/−) crossed to wild-type (WT) males produced heterozygous fetuses resembling the immune status of human fetuses. Maternal inoculation at embryonic day 6.5 (E6.5) or E7.5 resulted in fetal demise that was associated with ZIKV infection of the placenta and fetal brain. We identified ZIKV within trophoblasts of the maternal and fetal placenta, consistent with a trans-placental infection route. Antibody blockade of Ifnar1 signaling in WT pregnant mice enhanced ZIKV trans-placental infection although it did not result in fetal death. These models will facilitate the study of ZIKV pathogenesis, in utero transmission, and testing of therapies and vaccines to prevent congenital malformations.

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Platelet glycoprotein Ibα forms catch bonds with human WT vWF but not with type 2B von Willebrand disease vWF

Yago¹,

Lou²,

Wu³

et al. 2008

J. Clin. Invest.

234

421

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Arterial blood flow enhances glycoprotein Ibα (GPIbα) binding to vWF, which initiates platelet adhesion to injured vessels. Mutations in the vWF A1 domain that cause type 2B von Willebrand disease (vWD) reduce the flow requirement for adhesion. Here we show that increasing force on GPIbα/vWF bonds first prolonged ("catch") and then shortened ("slip") bond lifetimes. Two type 2B vWD A1 domain mutants, R1306Q and R1450E, converted catch bonds to slip bonds by prolonging bond lifetimes at low forces. Steered molecular dynamics simulations of GPIbα dissociating from the A1 domain suggested mechanisms for catch bonds and their conversion by the A1 domain mutations. Catch bonds caused platelets and GPIbα-coated microspheres to roll more slowly on WT vWF and WT A1 domains as flow increased from suboptimal levels, explaining flowenhanced rolling. Longer bond lifetimes at low forces eliminated the flow requirement for rolling on R1306Q and R1450E mutant A1 domains. Flowing platelets agglutinated with microspheres bearing R1306Q or R1450E mutant A1 domains, but not WT A1 domains. Therefore, catch bonds may prevent vWF multimers from agglutinating platelets. A disintegrin and metalloproteinase with a thrombospondin type 1 motif-13 (ADAMTS-13) reduced platelet agglutination with microspheres bearing a tridomain A1A2A3 vWF fragment with the R1450E mutation in a shear-dependent manner. We conclude that in type 2B vWD, prolonged lifetimes of vWF bonds with GPIbα on circulating platelets may allow ADAMTS-13 to deplete large vWF multimers, causing bleeding.

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Chikungunya virus: an update on the biology and pathogenesis of this emerging pathogen

Burt

Chen

Miner

et al. 2017

The Lancet Infectious Diseases

354

350

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

Zhang

Miner

Gorman

et al. 2016

Nature

337

346

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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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Jonathan J. Miner

A Mouse Model of Zika Virus Pathogenesis

Zika Virus Infection during Pregnancy in Mice Causes Placental Damage and Fetal Demise

Platelet glycoprotein Ibα forms catch bonds with human WT vWF but not with type 2B von Willebrand disease vWF

Chikungunya virus: an update on the biology and pathogenesis of this emerging pathogen

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

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