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- Aquatic Vertebrate Models
- Nonhuman Primate Models
Durable Protection Against the SARS-CoV-2 Omicron Variant Is Induced by an Adjuvanted Subunit Vaccine
Arunachalam et al., Science Translational Medicine. 2022.
https://www.doi.org/10.1126/scitranslmed.abq4130
Additional SARS-CoV-2 vaccines are needed, owing to waning immunity to the original vaccines and the emergence of variants of concern. A recent study in male rhesus macaques demonstrated durable protection against the Omicron BA.1 variant induced by a subunit SARS-CoV-2 vaccine comprising the receptor binding domain of the ancestral strain (RBD-Wu) on the I53-50 nanoparticle adjuvanted with AS03, an oil-in-water emulsion containing α‑tocopherol. Two immunizations with the vaccine resulted in durable immunity, without cross-reactivity. Further boosting with a version of the vaccine containing the Beta variant or the ancestral RBD elicited cross-reactive immune responses that conferred protection against Omicron challenge. Supported by ORIP (P51OD011104), NCI, and NIAID.
Mosaic RBD Nanoparticles Protect Against Challenge by Diverse Sarbecoviruses in Animal Models
Cohen et al., Science. 2022.
https://www.doi.org/10.1126/science.abq0839
Two animal coronaviruses from the SARS-like betacoronavirus (sarbecovirus) lineage—SARS-CoV and SARS-CoV-2—have caused epidemics or pandemics in humans during the past 20 years. New SARS-CoV-2 variants have prolonged the COVID-19 pandemic, and the discovery of diverse sarbecoviruses in bats raises the possibility of another coronavirus pandemic. Vaccines and therapeutics are needed to protect against both SARS-CoV-2 variants and zoonotic sarbecoviruses with the potential to infect humans. The authors designed mosaic-8 nanoparticles (SARS-CoV-2 and seven animal sarbecoviruses) that present randomly arranged sarbecovirus spike receptor-binding domains (RBDs) to elicit antibodies against epitopes that are conserved and relatively occluded rather than variable, immunodominant, and exposed. Their results of immune responses elicited by mosaic-8 RBD nanoparticles in mice and macaques suggest that mosaic nanoparticles could protect against both SARS-CoV-2 variants and zoonotic sarbecoviruses with the potential to infect humans. Supported by ORIP (P40OD012217, U42OD021458, S10OD028685) and NIAID.
Neuroprotective Effects of Electrical Stimulation Following Ischemic Stroke in Non-Human Primates
Zhou et al., Institute of Electrical and Electronics Engineers. 2022.
https://www.doi.org/10.1109/EMBC48229.2022.9871335
Using rhesus macaques of both sexes, researchers identified a novel treatment for ischemic stroke, which occurs when brain cells die due to lack of oxygen. The treatment consisted of applying 60 minutes of electrical brain stimulation shortly after the stroke. The animals that received electrical stimulation had less brain damage, fewer cell deaths, and more protective neural activity patterns than the monkeys that did not receive electrical stimulation. Future work can determine whether this stimulation can be applied noninvasively, as well as how to improve the electrical stimulation patterns to optimize health outcomes for stroke patients. Supported by ORIP (P51OD010425) and NINDS.
Infection Order Outweighs the Role of CD4+ T Cells in Tertiary Flavivirus Exposure
Marzan-Rivera et al., iScience. 2022.
https://www.doi.org/10.1016/j.isci.2022.104764
The link between CD4+ T and B cells in immune responses to Dengue virus (DENV) and Zika virus (ZIKV) and their roles in cross-protection during heterologous infection are poorly known. The authors used CD4+ lymphocyte depletions to dissect the impact of cellular immunity on humoral responses during tertiary flavivirus infection in male macaques. CD4+ depletion in DENV/ZIKV–primed animals, followed by DENV, resulted in dysregulated adaptive immune responses. They show a delay in DENV-specific antibody titers and binding and neutralization in the DENV/ZIKV–primed, CD4-depleted animals but not in ZIKV/DENV–primed, CD4-depleted animals. This study confirms the role of CD4+ cells in priming an early humoral response during sequential flavivirus infections and suggests that the order of exposure affects the outcome of a tertiary infection. Supported by ORIP (P40OD012217), NIAID, and NIGMS.
A Clade C HIV-1 Vaccine Protects Against Heterologous SHIV Infection by Modulating IgG Glycosylation and T Helper Response in Macaques
Sahoo et al., Science Immunology. 2022.
https://www.doi.org/10.1126/sciimmunol.abl4102
Vaccines for HIV-1 capable of generating a broadly cross-reactive neutralizing antibody response are needed urgently. The researchers tested the protective efficacy of a clade C HIV-1 vaccination regimen in male rhesus macaques. The vaccine was administered either orally using a needle-free injector or via parenteral injection. Significant protection was observed for both vaccination routes following the simian–human immunodeficiency virus (SHIV) challenge, with an estimated efficacy of 68% per exposure. The glycosylation profile of IgG and HIV-resistant helper T cell response contributes to the protection. Supported by ORIP (P51OD011132), NIAID, and NIDCR.
Allogeneic MHC‑Matched T‑Cell Receptor Α/Β‑Depleted Bone Marrow Transplants in SHIV‑Infected, ART‑Suppressed Mauritian Cynomolgus Macaques
Weinfurter et al., Scientific Reports. 2022.
https://www.doi.org/10.1038/s41598-022-16306-z
Allogeneic hematopoietic stem cell transplants are effective in reducing HIV reservoirs following antiretroviral therapy (ART). A better understanding of this mechanism could enable the development of safer and more efficacious HIV treatment regimens. In this study, the researchers used a Mauritian cynomolgus macaque model to study the effects of allogeneic major histocompatibility complex–matched α/β T cell–depleted bone marrow cell transplantation following infection with simian–human immunodeficiency virus (SHIV). The macaques began ART 6 to 16 weeks post-infection. In three of the four macaques, SHIV DNA was undetectable in blood but persisted in other tissues. These results suggest that extended ART likely is needed to eradicate the HIV reservoir following transplantation. In future studies, full donor engraftment should be balanced with suppression of graft-versus-host disease. Supported by ORIP (P51OD011106, R24OD021322), and NCI.
Substitutions in Nef That Uncouple Tetherin and SERINC5 Antagonism Impair Simian Immunodeficiency Virus Replication in Primary Rhesus Macaque Lymphocytes
Janaka et al., Journal of Virology. 2022.
https://www.doi.org/10.1128/jvi.00176-22
Tetherin inhibits the release of certain enveloped viruses from infected host cells. Most simian immunodeficiency viruses (SIVs) use Nef, a nonenzymatic accessory protein, to overcome this restriction. Nef also has been shown to enhance viral infectivity by preventing the incorporation of SERINC5 into virions. Researchers demonstrated previously that tetherin antagonism is necessary for efficient SIV replication in rhesus macaques. They explored this effect by defining substitutions within Nef that distinguish tetherin and SERINC5 antagonism. The researchers engineered an SIV molecular clone with substitutions that uncouple relevant Nef functions. This clone can be used to further study the effects of tetherin and adaptive immune responses. Supported by ORIP (P51OD011106) and NIAID.
Myeloid Cell Tropism Enables MHC-E–Restricted CD8+ T Cell Priming and Vaccine Efficacy by the RhCMV/SIV Vaccine
Hansen et al., Science Immunology. 2022.
https://www.doi.org/10.1126/sciimmunol.abn9301
Simian immunodeficiency virus (SIV) vaccines based on strain 68-1 rhesus cytomegalovirus vectors have been shown to arrest viral replication early in primary infection. The specific characteristics underlying this effect are not understood fully. In this study, the researchers used host microRNA–mediated vector tropism restriction to demonstrate that the targeted responses are dependent on vector infection of distinct cell types in a rhesus macaque model. Only vectors programmed to elicit major histocompatibility complex E–restricted CD8+ T cell responses provided protection against SIV challenge. These findings could be applied in the development of other vaccines for cancers and infectious diseases. Supported by ORIP (P51OD011092), NCI, and NIAID.
A Cellular Trafficking Signal in the SIV Envelope Protein Cytoplasmic Domain Is Strongly Selected for in Pathogenic Infection
Lawrence et al., PLOS Pathogens. 2022.
https://www.doi.org/10.1371/journal.ppat.1010507
Envelope glycoproteins within the cytoplasmic domain of HIV and simian immunodeficiency virus (SIV) include a tyrosine-based motif that mediates endocytosis and polarized sorting in infected cells. Mutation of this tracking signal has been shown to lead to suppressed viral replication and failed systemic immune activation, but the mechanism has not been explored fully. Using rhesus and pigtail macaque models, the researchers demonstrated that molecular clones containing the mutations reconstitute signals for both endocytosis and polarized sorting. Their findings suggest strong selection pressure for these processes during pathogenic HIV and SIV infection. Supported by ORIP (P51OD011104), NCI, and NIAID.
Large Comparative Analyses of Primate Body Site Microbiomes Indicate That the Oral Microbiome Is Unique Among All Body Sites and Conserved Among Nonhuman Primates
Asangba et al., Microbiology Spectrum. 2022.
https://www.doi.org/10.1128/spectrum.01643-21
Microbiomes are critical to host health and disease, but large gaps remain in the understanding of the determinants, coevolution, and variation of microbiomes across body sites and host species. Thus, researchers conducted the largest comparative study of primate microbiomes to date by investigating microbiome community composition at eight distinct body sites in 17 host species. They found that the oral microbiome is unique in exhibiting notable similarity across primate species while being distinct from the microbiomes of all other body sites and host species. This finding suggests conserved oral microbial niche specialization, despite substantial dietary and phylogenetic differences among primates. Supported by ORIP (P51OD010425, P51OD011107, P40OD010965, R01OD010980), NIA, NIAID, and NICHD.