Your search keyword '"Mohns, Mariel S."' showing total 17 results

1. Oropharyngeal mucosal transmission of Zika virus in rhesus macaques

Author

Newman, Christina M., Dudley, Dawn M., Aliota, Matthew T., Weiler, Andrea M., Barry, Gabrielle L., Mohns, Mariel S., Breitbach, Meghan E., Stewart, Laurel M., Buechler, Connor R., Graham, Michael E., Post, Jennifer, Schultz-Darken, Nancy, Peterson, Eric, Newton, Wendy, Mohr, Emma L., Capuano, III, Saverio, O’Connor, David H., and Friedrich, Thomas C.

Published

2017

2. Pharyngeal motor cortex grey matter abnormalities and retinal photoreceptor layer dysfunction in macaques exposed to Zika virus in utero

Author

Koenig, Michelle R., Razo, Elaina, Mitzey, Ann, Semler, Matthew R., Stewart, Laurel M., Breitbach, Meghan E., Newman, Christina M., Dudley, Dawn M., Weiler, Andrea M., Rybarczyk, Sierra, Bach, Kathryn M., Mohns, Mariel S., Simmons, Heather A., Mejia, Andres, Dennis, Maria, Teixeira, Leandro B. C., Schotzko, Michele L., Nork, T. Michael, Rasmussen, Carol A., Katz, Alex, Hou, Jiancheng, Hartman, Amy, Ver Hoeve, James, Kim, Charlene, Schneider, Mary L., Ausderau, Karla, Kohn, Sarah, Jaeger, Anna S., Aliota, Matthew T., Salamat, M. Shahriar, Hayes, Jennifer M., Schultz-Darken, Nancy, Eickhoff, Jens, Antony, Kathleen M., Noguchi, Kevin, Zeng, Xiankun, Permar, Sallie, Ikonomidou, Chrysanthy, Prabhakaran, Vivek, Capuano III, Saverio, Friedrich, Thomas C., Golos, Thaddeus G., O’Connor, David H., and Mohr, Emma L.

Abstract

One third of infants who have prenatal Zika virus (ZIKV) exposure and lack significant defects consistent with congenital Zika syndrome (CZS) manifest neurodevelopmental deficits in their second year of life. We hypothesized that prenatal ZIKV exposure would lead to brain abnormalities and neurodevelopmental delays in infant macaques, as measured by quantitative hearing, neurodevelopmental, ocular and brain imaging studies. We inoculated 5 pregnant rhesus macaques with ZIKV during the first trimester, monitored pregnancies with serial ultrasounds, determined plasma viral RNA (vRNA) loads, and evaluated the infants for birth defects and neurodevelopmental deficits during their first week of life. ZIKV-exposed and control infants (n=16) were evaluated with neurobehavioral assessments, ophthalmic examinations, optical coherence tomography, electroretinography with visual evoked potentials, hearing examinations, magnetic resonance imaging (MRI) of the brain, gross post mortem examination, and histopathological and vRNA analyses of approximately 40 tissues and fluids. All 5 dams had ZIKV vRNA in plasma and seroconverted following ZIKV inoculation. One pregnancy resulted in a stillbirth. The ZIKV-exposed infants had decreased cumulative feeding volumes and weight gains compared with control infants, and also had grey matter abnormalities in the pharyngeal motor cortex identified by quantitative voxel-based morphometric comparisons. Quantitative ocular studies identified differences between ZIKV-exposed and control infants in retinal layer thicknesses and electroretinograms that were not identified in qualitative ophthalmic evaluations. Despite these findings of neuropathology, no ZIKV vRNA or IgM was detected in the infants. This suggests that ZIKV exposure without measurable vertical transmission can affect brain development in utero and that subtle neurodevelopmental delays may be detected with quantitative analyses in early infancy. Quantitative brain analyses, such as these, may predict neurodevelopmental delays that manifest later in childhood and allow early intervention and targeted therapies to improve functional outcomes of ZIKV exposed children. Author Summary Human infants with born to women with Zika virus infection during pregnancy are at risk for neurodevelopmental deficits later in childhood. We hypothesized that we could identify brain abnormalities associated with neurodevelopmental deficits in infant macaques exposed to Zika virus during pregnancy. We identified brain and retinal abnormalities in Zika virus-exposed infant macaques during their first week of life, which may be related to their findings of decreased feeding and slower weight gain. None of the infants had direct evidence of Zika virus infection in their tissues, body fluids or by detection of IgM antibodies. This suggests that Zika virus exposure during pregnancy can affect brain development in utero and that quantitative brain imaging analyses may predict neurodevelopmental delays. Early identification of Zika virus-exposed children at risk of neurodevelopmental deficits would promote targeted therapies in this population and improve the functional outcome of all Zika virus exposed children.

Published

2019

3. Quantitative definition of neurobehavior, vision, hearing and brain volumes in macaques congenitally exposed to Zika virus.

Author

Koenig, Michelle R., Razo, Elaina, Mitzey, Ann, Newman, Christina M., Dudley, Dawn M., Breitbach, Meghan E., Semler, Matthew R., Stewart, Laurel M., Weiler, Andrea M., Rybarczyk, Sierra, Bach, Kathryn M., Mohns, Mariel S., Simmons, Heather A., Mejia, Andres, Fritsch, Michael, Dennis, Maria, Teixeira, Leandro B. C., Schotzko, Michele L., Nork, T. Michael, and Rasmussen, Carol A.

Subjects

ZIKA virus, ZIKA virus infections, MACAQUES, DEFINITIONS, BRAIN abnormalities, CONGENITAL disorders, RETROLENTAL fibroplasia

Abstract

Congenital Zika virus (ZIKV) exposure results in a spectrum of disease ranging from severe birth defects to delayed onset neurodevelopmental deficits. ZIKV-related neuropathogenesis, predictors of birth defects, and neurodevelopmental deficits are not well defined in people. Here we assess the methodological and statistical feasibility of a congenital ZIKV exposure macaque model for identifying infant neurobehavior and brain abnormalities that may underlie neurodevelopmental deficits. We inoculated five pregnant macaques with ZIKV and mock-inoculated one macaque in the first trimester. Following birth, growth, ocular structure/function, brain structure, hearing, histopathology, and neurobehavior were quantitatively assessed during the first week of life. We identified the typical pregnancy outcomes of congenital ZIKV infection, with fetal demise and placental abnormalities. We estimated sample sizes needed to define differences between groups and demonstrated that future studies quantifying brain region volumes, retinal structure, hearing, and visual pathway function require a sample size of 14 animals per group (14 ZIKV, 14 control) to detect statistically significant differences in at least half of the infant exam parameters. Establishing the parameters for future studies of neurodevelopmental outcomes following congenital ZIKV exposure in macaques is essential for robust and rigorous experimental design. [ABSTRACT FROM AUTHOR]

Published

2020

4. Antibody responses to Zika virus proteins in pregnant and non-pregnant macaques.

Author

Heffron, Anna S., Mohr, Emma L., Baker, David, Haj, Amelia K., Buechler, Connor R., Bailey, Adam, Dudley, Dawn M., Newman, Christina M., Mohns, Mariel S., Koenig, Michelle, Breitbach, Meghan E., Rasheed, Mustafa, Stewart, Laurel M., Eickhoff, Jens, Pinapati, Richard S., Beckman, Erica, Li, Hanying, Patel, Jigar, Tan, John C., and O’Connor, David H.

Subjects

ZIKA virus, VIRAL proteins, SEROTYPES, MOSQUITOES, PROTEOMICS, IMMUNOGLOBULIN G

Abstract

The specificity of the antibody response against Zika virus (ZIKV) is not well-characterized. This is due, in part, to the antigenic similarity between ZIKV and closely related dengue virus (DENV) serotypes. Since these and other similar viruses co-circulate, are spread by the same mosquito species, and can cause similar acute clinical syndromes, it is difficult to disentangle ZIKV-specific antibody responses from responses to closely-related arboviruses in humans. Here we use high-density peptide microarrays to profile anti-ZIKV antibody reactivity in pregnant and non-pregnant macaque monkeys with known exposure histories and compare these results to reactivity following DENV infection. We also compare cross-reactive binding of ZIKV-immune sera to the full proteomes of 28 arboviruses. We independently confirm a purported ZIKV-specific IgG antibody response targeting ZIKV nonstructural protein 2B (NS2B) that was recently reported in ZIKV-infected people and we show that antibody reactivity in pregnant animals can be detected as late as 127 days post-infection (dpi). However, we also show that these responses wane over time, sometimes rapidly, and in one case the response was elicited following DENV infection in a previously ZIKV-exposed animal. These results suggest epidemiologic studies assessing seroprevalence of ZIKV immunity using linear epitope-based strategies will remain challenging to interpret due to susceptibility to false positive results. However, the method used here demonstrates the potential for rapid profiling of proteome-wide antibody responses to a myriad of neglected diseases simultaneously and may be especially useful for distinguishing antibody reactivity among closely related pathogens. [ABSTRACT FROM AUTHOR]

Published

2018

5. Molecularly barcoded Zika virus libraries to probe in vivo evolutionary dynamics.

Author

Aliota, Matthew T., Dudley, Dawn M., Newman, Christina M., Weger-Lucarelli, James, Stewart, Laurel M., Koenig, Michelle R., Breitbach, Meghan E., Weiler, Andrea M., Semler, Matthew R., Barry, Gabrielle L., Zarbock, Katie R., Haj, Amelia K., Moriarty, Ryan V., Mohns, Mariel S., Mohr, Emma L., Venturi, Vanessa, Schultz-Darken, Nancy, Peterson, Eric, Newton, Wendy, and Schotzko, Michele L.

Subjects

ZIKA virus, VIRAL evolution, VIRAL genetics, AMINO acids, RNA sequencing

Abstract

Defining the complex dynamics of Zika virus (ZIKV) infection in pregnancy and during transmission between vertebrate hosts and mosquito vectors is critical for a thorough understanding of viral transmission, pathogenesis, immune evasion, and potential reservoir establishment. Within-host viral diversity in ZIKV infection is low, which makes it difficult to evaluate infection dynamics. To overcome this biological hurdle, we constructed a molecularly barcoded ZIKV. This virus stock consists of a “synthetic swarm” whose members are genetically identical except for a run of eight consecutive degenerate codons, which creates approximately 64,000 theoretical nucleotide combinations that all encode the same amino acids. Deep sequencing this region of the ZIKV genome enables counting of individual barcodes to quantify the number and relative proportions of viral lineages present within a host. Here we used these molecularly barcoded ZIKV variants to study the dynamics of ZIKV infection in pregnant and non-pregnant macaques as well as during mosquito infection/transmission. The barcoded virus had no discernible fitness defects in vivo, and the proportions of individual barcoded virus templates remained stable throughout the duration of acute plasma viremia. ZIKV RNA also was detected in maternal plasma from a pregnant animal infected with barcoded virus for 67 days. The complexity of the virus population declined precipitously 8 days following infection of the dam, consistent with the timing of typical resolution of ZIKV in non-pregnant macaques and remained low for the subsequent duration of viremia. Our approach showed that synthetic swarm viruses can be used to probe the composition of ZIKV populations over time in vivo to understand vertical transmission, persistent reservoirs, bottlenecks, and evolutionary dynamics. [ABSTRACT FROM AUTHOR]

Published

2018

6. Infection via mosquito bite alters Zika virus tissue tropism and replication kinetics in rhesus macaques.

Author

Dudley, Dawn M., Newman, Christina M., Lalli, Joseph, Stewart, Laurel M., Koenig, Michelle R., Weiler, Andrea M., Semler, Matthew R., Barry, Gabrielle L., Zarbock, Katie R., Mohns, Mariel S., Breitbach, Meghan E., Schultz-Darken, Nancy, Peterson, Eric, Newton, Wendy, Mohr, Emma L., Capuano, Saverio, Osorio, Jorge E., O'Connor, Shelby L., O'Connor, David H., and Friedrich, Thomas C.

Subjects

ZIKA virus, VIRAL tropism, VIRAL replication, RHESUS monkeys, MOSQUITO vectors

Abstract

Mouse and nonhuman primate models now serve as useful platforms to study Zika virus (ZIKV) pathogenesis, candidate therapies, and vaccines, but they rely on needle inoculation of virus: the effects of mosquito-borne infection on disease outcome have not been explored in these models. Here we show that infection via mosquito bite delays ZIKV replication to peak viral loads in rhesus macaques. Importantly, in mosquito-infected animals ZIKV tissue distribution was limited to hemolymphatic tissues, female reproductive tract tissues, kidney, and liver, potentially emulating key features of human ZIKV infections, most of which are characterized by mild or asymptomatic disease. Furthermore, deep sequencing analysis reveals that ZIKV populations in mosquito-infected monkeys show greater sequence heterogeneity and lower overall diversity than in needle-inoculated animals. This newly developed system will be valuable for studying ZIKV disease because it more closely mimics human infection by mosquito bite than needle-based inoculations. [ABSTRACT FROM AUTHOR]

Published

2017

7. Pegivirus avoids immune recognition but does not attenuate acute-phase disease in a macaque model of HIV infection.

Author

Bailey, Adam L., Buechler, Connor R., Matson, Daniel R., Peterson, Eric J., Brunner, Kevin G., Mohns, Mariel S., Breitbach, Meghan, Stewart, Laurel M., Ericsen, Adam J., Newman, Christina M., Koenig, Michelle R., Mohr, Emma, Tan, John, IIICapuano, Saverio, Simmons, Heather A., Yang, David T., and O’Connor, David H.

Subjects

HIV infections, SIMIAN immunodeficiency virus, IMMUNE response, VIRAL load, CD4 antigen

Abstract

Human pegivirus (HPgV) protects HIV+ people from HIV-associated disease, but the mechanism of this protective effect remains poorly understood. We sequentially infected cynomolgus macaques with simian pegivirus (SPgV) and simian immunodeficiency virus (SIV) to model HIV+HPgV co-infection. SPgV had no effect on acute-phase SIV pathogenesis–as measured by SIV viral load, CD4+ T cell destruction, immune activation, or adaptive immune responses–suggesting that HPgV’s protective effect is exerted primarily during the chronic phase of HIV infection. We also examined the immune response to SPgV in unprecedented detail, and found that this virus elicits virtually no activation of the immune system despite persistently high titers in the blood over long periods of time. Overall, this study expands our understanding of the pegiviruses–an understudied group of viruses with a high prevalence in the global human population–and suggests that the protective effect observed in HIV+HPgV co-infected people occurs primarily during the chronic phase of HIV infection. [ABSTRACT FROM AUTHOR]

Published

2017

8. Highly efficient maternal-fetal Zika virus transmission in pregnant rhesus macaques.

Author

Nguyen, Sydney M., Antony, Kathleen M., Dudley, Dawn M., Kohn, Sarah, Simmons, Heather A., Wolfe, Bryce, Salamat, M. Shahriar, Teixeira, Leandro B. C., Wiepz, Gregory J., Thoong, Troy H., Aliota, Matthew T., Weiler, Andrea M., Barry, Gabrielle L., Weisgrau, Kim L., Vosler, Logan J., Mohns, Mariel S., Breitbach, Meghan E., Stewart, Laurel M., Rasheed, Mustafa N., and Newman, Christina M.

Subjects

MACAQUES, ZIKA virus infections, ZIKA virus, FLAVIVIRUSES, FLAVIVIRAL diseases

Abstract

Infection with Zika virus (ZIKV) is associated with human congenital fetal anomalies. To model fetal outcomes in nonhuman primates, we administered Asian-lineage ZIKV subcutaneously to four pregnant rhesus macaques. While non-pregnant animals in a previous study contemporary with the current report clear viremia within 10–12 days, maternal viremia was prolonged in 3 of 4 pregnancies. Fetal head growth velocity in the last month of gestation determined by ultrasound assessment of head circumference was decreased in comparison with biparietal diameter and femur length within each fetus, both within normal range. ZIKV RNA was detected in tissues from all four fetuses at term cesarean section. In all pregnancies, neutrophilic infiltration was present at the maternal-fetal interface (decidua, placenta, fetal membranes), in various fetal tissues, and in fetal retina, choroid, and optic nerve (first trimester infection only). Consistent vertical transmission in this primate model may provide a platform to assess risk factors and test therapeutic interventions for interruption of fetal infection. The results may also suggest that maternal-fetal ZIKV transmission in human pregnancy may be more frequent than currently appreciated. [ABSTRACT FROM AUTHOR]

Published

2017

9. Microbial Translocation and Inflammation Occur in Hyperacute Immunodeficiency Virus Infection and Compromise Host Control of Virus Replication.

Author

Ericsen, Adam J., Lauck, Michael, Mohns, Mariel S., DiNapoli, Sarah R., Mutschler, James P., Greene, Justin M., Weinfurter, Jason T., Lehrer-Brey, Gabrielle, Prall, Trent M., Gieger, Samantha M., Buechler, Connor R., Crosno, Kristin A., Peterson, Eric J., Reynolds, Matthew R., Wiseman, Roger W., Burwitz, Benjamin J., Estes, Jacob D., Sacha, Jonah B., Friedrich, Thomas C., and Brenchley, Jason M.

Subjects

HIV infections, VIRUS diseases, AIDS, VIREMIA, MICROORGANISMS

Abstract

Within the first three weeks of human immunodeficiency virus (HIV) infection, virus replication peaks in peripheral blood. Despite the critical, causal role of virus replication in determining transmissibility and kinetics of progression to acquired immune deficiency syndrome (AIDS), there is limited understanding of the conditions required to transform the small localized transmitted founder virus population into a large and heterogeneous systemic infection. Here we show that during the hyperacute “pre-peak” phase of simian immunodeficiency virus (SIV) infection in macaques, high levels of microbial DNA transiently translocate into peripheral blood. This, heretofore unappreciated, hyperacute-phase microbial translocation was accompanied by sustained reduction of lipopolysaccharide (LPS)-specific antibody titer, intestinal permeability, increased abundance of CD4+CCR5+ T cell targets of virus replication, and T cell activation. To test whether increasing gastrointestinal permeability to cause microbial translocation would amplify viremia, we treated two SIV-infected macaque ‘elite controllers’ with a short-course of dextran sulfate sodium (DSS)–stimulating a transient increase in microbial translocation and a prolonged recrudescent viremia. Altogether, our data implicates translocating microbes as amplifiers of immunodeficiency virus replication that effectively undermine the host’s capacity to contain infection. [ABSTRACT FROM AUTHOR]

Published

2016

10. Heterologous Protection against Asian Zika Virus Challenge in Rhesus Macaques.

Author

Aliota, Matthew T., Dudley, Dawn M., Newman, Christina M., Mohr, Emma L., Gellerup, Dane D., Breitbach, Meghan E., Buechler, Connor R., Rasheed, Mustafa N., Mohns, Mariel S., Weiler, Andrea M., Barry, Gabrielle L., Weisgrau, Kim L., Eudailey, Josh A., Rakasz, Eva G., Vosler, Logan J., Post, Jennifer, IIICapuano, Saverio, Golos, Thaddeus G., Permar, Sallie R., and Osorio, Jorge E.

Subjects

ZIKA virus infections, RHESUS monkeys, PREVENTIVE medicine, IMMUNOREGULATION, ANTIGENIC variation, THERAPEUTICS

Abstract

Background: Zika virus (ZIKV; Flaviviridae, Flavivirus) was declared a public health emergency of international concern by the World Health Organization (WHO) in February 2016, because of the evidence linking infection with ZIKV to neurological complications, such as Guillain-Barre Syndrome in adults and congenital birth defects including microcephaly in the developing fetus. Because development of a ZIKV vaccine is a top research priority and because the genetic and antigenic variability of many RNA viruses limits the effectiveness of vaccines, assessing whether immunity elicited against one ZIKV strain is sufficient to confer broad protection against all ZIKV strains is critical. Recently, in vitro studies demonstrated that ZIKV likely circulates as a single serotype. Here, we demonstrate that immunity elicited by African lineage ZIKV protects rhesus macaques against subsequent infection with Asian lineage ZIKV. Methodology/Principal Findings: Using our recently developed rhesus macaque model of ZIKV infection, we report that the prototypical ZIKV strain MR766 productively infects macaques, and that immunity elicited by MR766 protects macaques against heterologous Asian ZIKV. Furthermore, using next generation deep sequencing, we found in vivo restoration of a putative N-linked glycosylation site upon replication in macaques that is absent in numerous MR766 strains that are widely being used by the research community. This reversion highlights the importance of carefully examining the sequence composition of all viral stocks as well as understanding how passage history may alter a virus from its original form. Conclusions/Significance: An effective ZIKV vaccine is needed to prevent infection-associated fetal abnormalities. Macaques whose immune responses were primed by infection with East African ZIKV were completely protected from detectable viremia when subsequently rechallenged with heterologous Asian ZIKV. Therefore, these data suggest that immunogen selection is unlikely to adversely affect the breadth of vaccine protection, i.e., any Asian ZIKV immunogen that protects against homologous challenge will likely confer protection against all other Asian ZIKV strains. [ABSTRACT FROM AUTHOR]

Published

2016

11. Expansion of Simian Immunodeficiency Virus (SIV)-Specific CD8 T Cell Lines from SIV-Naive Mauritian Cynomolgus Macaques for Adoptive Transfer.

Author

Mohns, Mariel S., Greene, Justin M., Cain, Brian T., Pham, Ngoc H., Gostick, Emma, Price, David A., and O'Connor, David H.

Subjects

*SIMIAN immunodeficiency virus, *T cells, *MAJOR histocompatibility complex, *PHYSIOLOGY

Abstract

CD8 T cells play a crucial role in the control of human immunodeficiency virus (HIV) and simian immunodeficiency virus (SIV). However, the specific qualities and characteristics of an effective CD8 T cell response remain unclear. Although targeting breadth, cross-reactivity, polyfunctionality, avidity, and specificity are correlated with HIV control, further investigation is needed to determine the precise contributions of these various attributes to CD8 T cell efficacy. We developed protocols for isolating and expanding SIV-specific CD8 T cells from SIV-naive Mauritian cynomolgus macaques (MCM). These cells exhibited an effector memory phenotype, produced cytokines in response to cognate antigen, and suppressed viral replication in vitro. We further cultured cell lines specific for four SIV-derived epitopes, Nef103-111 RM9, Gag389-394 GW9, Env338-346 RF9, and Nef254-262 LT9. These cell lines were up to 94.4% pure, as determined by major histocompatibility complex (MHC) tetramer analysis. After autologous transfer into two MCM recipients, expanded CD8 T cells persisted in peripheral blood and lung tissue for at least 24 weeks and trafficked to multiple extralymphoid tissues. However, these cells did not impact the acute-phase SIV load after challenge compared to historic controls. The expansion and autologous transfer of SIV-specific T cells into naive animals provide a unique model for exploring cellular immunity and the control of SIV infection and facilitate a systematic evaluation of therapeutic adoptive transfer strategies for eradication of the latent reservoir. [ABSTRACT FROM AUTHOR]

Published

2015

12. Whole genome sequencing of SIV-infected macaques identifies candidate loci that may contribute to host control of virus replication.

Author

Ericsen, Adam J., Starrett, Gabriel J., Greene, Justin M., Lauck, Michael, Raveendran, Muthuswamy, Rio Deiros, David, Mohns, Mariel S., Vince, Nicolas, Cain, Brian T., Pham, Ngoc H., Weinfurter, Jason T., Bailey, Adam L., Budde, Melisa L., Wiseman, Roger W., Gibbs, Richard, Muzny, Donna, Friedrich, Thomas C., Rogers, Jeffrey, and O’Connor, David H.

Published

2014

13. A rhesus macaque model of Asian-lineage Zika virus infection.

Author

Dudley, Dawn M., Aliota, Matthew T., Mohr, Emma L., Weiler, Andrea M., Lehrer-Brey, Gabrielle, Weisgrau, Kim L., Mohns, Mariel S., Breitbach, Meghan E., Rasheed, Mustafa N., Newman, Christina M., Gellerup, Dane D., Moncla, Louise H., Post, Jennifer, Schultz-Darken, Nancy, Schotzko, Michele L., Hayes, Jennifer M., Eudailey, Josh A., Moody, M. Anthony, Permar, Sallie R., and O'Connor, Shelby L.

Published

2016

14. High-Throughput Identification of MHC Class I Binding Peptides Using an Ultradense Peptide Array.

Author

Haj, Amelia K., Breitbach, Meghan E., Baker, David A., Mohns, Mariel S., Moreno, Gage K., Wilson, Nancy A., Lyamichev, Victor, Patel, Jigar, Weisgrau, Kim L., Dudley, Dawn M., and O'Connor, David H.

Subjects

*PEPTIDES, *T cells, *RHESUS monkeys, *VACCINE development, *HIGH throughput screening (Drug development), *T cell receptors

Abstract

Rational vaccine development and evaluation requires identifying and measuring the magnitude of epitope-specific CD8 T cell responses. However, conventional CD8 T cell epitope discovery methods are labor intensive and do not scale well. In this study, we accelerate this process by using an ultradense peptide array as a high-throughput tool for screening peptides to identify putative novel epitopes. In a single experiment, we directly assess the binding of four common Indian rhesus macaque MHC class I molecules (Mamu-A1*001, -A1*002, -B*008, and -B*017) to ~61,000 8-mer, 9-mer, and 10-mer peptides derived from the full proteomes of 82 SIV and simian HIV isolates. Many epitope-specific CD8 T cell responses restricted by these four MHC molecules have already been identified in SIVmac239, providing an ideal dataset for validating the array; up to 64% of these known epitopes are found in the top 192 SIVmac239 peptides with the most intense MHC binding signals in our experiment. To assess whether the peptide array identified putative novel CD8 T cell epitopes, we validated the method by IFN-g ELISPOT assay and found three novel peptides that induced CD8 T cell responses in at least two Mamu-A1*001-positive animals; two of these were validated by ex vivo tetramer staining. This high-throughput identification of peptides that bind class I MHC will enable more efficient CD8 T cell response profiling for vaccine development, particularly for pathogens with complex proteomes for which few epitope-specific responses have been defined. [ABSTRACT FROM AUTHOR]

Published

2020

15. Long-term protection of rhesus macaques from Zika virus reinfection.

Author

Moreno, Gage K., Newman, Christina M., Koenig, Michelle R., Mohns, Mariel S., Weiler, Andrea M., Rybarczyk, Sierra, Weisgrau, Kim L., Vosler, Logan J., Pomplun, Nicholas, Schultz-Darken, Nancy, Rakasz, Eva, Dudley, Dawn M., Friedrich, Thomas C., and O'Connor, David H.

Subjects

*RHESUS monkeys, *MACAQUES, *ZIKA virus infections, *ZIKA virus, *INFECTION, *CONGENITAL disorders

Abstract

By the end of the 2016 Zika virus (ZIKV) outbreak, it is estimated that there were up to 100 million infections in the Americas. In approximately one in seven infants born to mothers infected during pregnancy, ZIKV has been linked to microcephaly, developmental delays, or other congenital disorders collectively known as congenital Zika syndrome (CZS) as well as Guillain-Barré syndrome (GBS) in ZIKV infected adults. It is a global health priority to develop a vaccine against ZIKV that elicits long-lasting immunity; however, the durability of immunity to ZIKV is unknown. Previous studies in mice and nonhuman primates have been crucial in vaccine development but have not defined the duration of immunity generated by ZIKV infection. In this study, we rechallenged five rhesus macaques with ZIKV 22 to 28 months after a primary ZIKV infection. We show that primary ZIKV infection generates high titers of neutralizing antibodies (nAbs) that protect from detectable plasma viremia following rechallenge and persist for at least 22 to 28 months. While additional longitudinal studies are necessary with longer time frames, this study establishes a new experimentally defined minimal length of protective ZIKV immunity. [ABSTRACT FROM AUTHOR]

Published

2020

16. Prior dengue virus serotype 3 infection modulates subsequent plasmablast responses to Zika virus infection in rhesus macaques.

Author

Singh T, Miller IG, Venkatayogi S, Webster H, Heimsath HJ, Eudailey JA, Dudley DM, Kumar A, Mangan RJ, Thein A, Aliota MT, Newman CM, Mohns MS, Breitbach ME, Berry M, Friedrich TC, Wiehe K, O'Connor DH, and Permar SR

Subjects

Animals, Macaca mulatta, Serogroup, Antibodies, Viral, Immunoglobulin G, Antibodies, Neutralizing, Cross Reactions, Zika Virus Infection, Zika Virus, Dengue Virus, Dengue, Flavivirus

Abstract

Immunodominant and highly conserved flavivirus envelope proteins can trigger cross-reactive IgG antibodies against related flaviviruses, which shapes subsequent protection or disease severity. This study examined how prior dengue serotype 3 (DENV-3) infection affects subsequent Zika virus (ZIKV) plasmablast responses in rhesus macaques ( n = 4). We found that prior DENV-3 infection was not associated with diminished ZIKV-neutralizing antibodies or magnitude of plasmablast activation. Rather, characterization of 363 plasmablasts and their derivative 177 monoclonal antibody supernatants from acute ZIKV infection revealed that prior DENV-3 infection was associated with a differential isotype distribution toward IgG, lower somatic hypermutation, and lesser B cell receptor variable gene diversity as compared with repeat ZIKV challenge. We did not find long-lasting DENV-3 cross-reactive IgG after a ZIKV infection but did find persistent ZIKV-binding cross-reactive IgG after a DENV-3 infection, suggesting non-reciprocal cross-reactive immunity. Infection with ZIKV after DENV-3 boosted pre-existing DENV-3-neutralizing antibodies by two- to threefold, demonstrating immune imprinting. These findings suggest that the order of DENV and ZIKV infections has impact on the quality of early B cell immunity which has implications for optimal immunization strategies., Importance: The Zika virus epidemic of 2015-2016 in the Americas revealed that this mosquito-transmitted virus could be congenitally transmitted during pregnancy and cause birth defects in newborns. Currently, there are no interventions to mitigate this disease and Zika virus is likely to re-emerge. Understanding how protective antibody responses are generated against Zika virus can help in the development of a safe and effective vaccine. One main challenge is that Zika virus co-circulates with related viruses like dengue, such that prior exposure to one can generate cross-reactive antibodies against the other which may enhance infection and disease from the second virus. In this study, we sought to understand how prior dengue virus infection impacts subsequent immunity to Zika virus by single-cell sequencing of antibody producing cells in a second Zika virus infection. Identifying specific qualities of Zika virus immunity that are modulated by prior dengue virus immunity will enable optimal immunization strategies., Competing Interests: S.R.P. serves as a consultant to Moderna, Merck, Pfizer, Dynavax, Hoopika, and GSK vaccine programs and leads sponsored research programs with Moderna, Dynavax, and Merck.

Published

2024

17. Ocular and uteroplacental pathology in a macaque pregnancy with congenital Zika virus infection.

Author

Mohr EL, Block LN, Newman CM, Stewart LM, Koenig M, Semler M, Breitbach ME, Teixeira LBC, Zeng X, Weiler AM, Barry GL, Thoong TH, Wiepz GJ, Dudley DM, Simmons HA, Mejia A, Morgan TK, Salamat MS, Kohn S, Antony KM, Aliota MT, Mohns MS, Hayes JM, Schultz-Darken N, Schotzko ML, Peterson E, Capuano S 3rd, Osorio JE, O'Connor SL, Friedrich TC, O'Connor DH, and Golos TG

Subjects

Animals, Female, In Situ Hybridization, Fluorescence, Macaca mulatta, Pregnancy, RNA, Viral genetics, Virus Replication, Zika Virus genetics, Zika Virus physiology, Disease Models, Animal, Eye pathology, Placenta pathology, Uterus pathology, Zika Virus Infection congenital

Abstract

Congenital Zika virus (ZIKV) infection impacts fetal development and pregnancy outcomes. We infected a pregnant rhesus macaque with a Puerto Rican ZIKV isolate in the first trimester. The pregnancy was complicated by preterm premature rupture of membranes (PPROM), intraamniotic bacterial infection and fetal demise 49 days post infection (gestational day 95). Significant pathology at the maternal-fetal interface included acute chorioamnionitis, placental infarcts, and leukocytoclastic vasculitis of the myometrial radial arteries. ZIKV RNA was disseminated throughout fetal tissues and maternal immune system tissues at necropsy, as assessed by quantitative RT-PCR for viral RNA. Replicating ZIKV was identified in fetal tissues, maternal uterus, and maternal spleen by fluorescent in situ hybridization for viral replication intermediates. Fetal ocular pathology included a choroidal coloboma, suspected anterior segment dysgenesis, and a dysplastic retina. This is the first report of ocular pathology and prolonged viral replication in both maternal and fetal tissues following congenital ZIKV infection in a rhesus macaque. PPROM followed by fetal demise and severe pathology of the visual system have not been described in macaque congenital ZIKV infection previously. While this case of ZIKV infection during pregnancy was complicated by bacterial infection with PPROM, the role of ZIKV on this outcome cannot be precisely defined, and further nonhuman primate studies will determine if increased risk for PPROM or other adverse pregnancy outcomes are associated with congenital ZIKV infection.

Published

2018