Whitney L. Simon scite author profile

Live attenuated influenza vaccine (LAIV) has demonstrated varying levels of efficacy against seasonal influenza; however, LAIV may be used as a tool to measure interactions between the human microbiome and a live, replicating virus. To increase our knowledge of this interaction, we measured changes to the nasal microbiome in subjects who received LAIV to determine if associations between influenza-specific IgA production and the nasal microbiome exist after immunization with a live virus vaccine. The anterior nares of 47 healthy subjects were swabbed pre- (Day 0) and post- (Days 7 and 28) LAIV administration, and nasal washes were conducted on Days 0 and 28. We performed next-generation sequencing on amplified 16s rRNA genes and measured mucosal influenza-specific IgA titers via enzyme-linked immunosorbent assay (ELISA). A significant increase in alpha diversity was identified (Observed, CHAO, and ACE) between Days 7 vs 0 (p-values = 0.017, 0.005, 0.005, respectively) and between Days 28 vs 0 (p-values = 0.054, 0.030, 0.050, respectively). Several significant associations between the presence of different microbial species, including Lactobacillus helveticus, Prevotella melaninogenica, Streptococcus infantis, Veillonella dispar, and Bacteroides ovatus, and influenza-specific H1 and H3 IgA antibody response were demonstrated. These data suggest that LAIV alters the nasal microbiome, allowing several less-abundant OTUs to establish a community niche. Additionally, specific alterations in the nasal microbiome are significantly associated with variations in influenza-specific IgA antibody production and could be clinically relevant.

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Blocking the Thrombin Receptor Promotes Repair of Demyelinated Lesions in the Adult Brain

Yoon

Choi

Triplet

et al. 2020

J. Neurosci.

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Myelin loss limits neurological recovery and myelin regeneration and is critical for restoration of function. We recently discovered that global knockout of the thrombin receptor, also known as Protease Activated Receptor 1 (PAR1), accelerates myelin development. Here we demonstrate that knocking out PAR1 also promotes myelin regeneration. Outcomes in two unique models of myelin injury and repair, that is lysolecithin or cuprizone-mediated demyelination, showed that PAR1 knockout in male mice improves replenishment of myelinating cells and remyelinated nerve fibers and slows early axon damage. Improvements in myelin regeneration in PAR1 knockout mice occurred in tandem with a skewing of reactive astrocyte signatures toward a prorepair phenotype. In cell culture, the promyelinating effects of PAR1 loss of function are consistent with possible direct effects on the myelinating potential of oligodendrocyte progenitor cells (OPCs), in addition to OPC-indirect effects involving enhanced astrocyte expression of promyelinating factors, such as BDNF. These findings highlight previously unrecognized roles of PAR1 in myelin regeneration, including integrated actions across the oligodendrocyte and astroglial compartments that are at least partially mechanistically linked to the powerful BDNF-TrkB neurotrophic signaling system. Altogether, findings suggest PAR1 may be a therapeutically tractable target for demyelinating disorders of the CNS.

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High fat diet consumption results in mitochondrial dysfunction, oxidative stress, and oligodendrocyte loss in the central nervous system

Langley

Yoon

Kim

et al. 2020

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Transcriptomic signatures of cellular and humoral immune responses in older adults after seasonal influenza vaccination identified by data-driven clustering

Voigt

Grill

Zimmermann

et al. 2018

Sci Rep

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PBMC transcriptomes after influenza vaccination contain valuable information about factors affecting vaccine responses. However, distilling meaningful knowledge out of these complex datasets is often difficult and requires advanced data mining algorithms. We investigated the use of the data-drivenWorldwide, influenza affects 5-10% of adults annually, and results in an estimated 250,000 to 500,000 deaths 1 . Influenza morbidity and influenza-associated deaths increase significantly with age 2,3 , and more than 90% of influenza-associated deaths occur in individuals ≥65 years of age 4 . Although seasonal influenza vaccination offers protection against severe influenza disease, levels of protection vary between seasons, individuals, and agetending to be lower in elderly populations [5][6][7][8][9][10][11][12] . In fact, the effectiveness of seasonal trivalent inactivated influenza vaccination among community-dwelling older adults has been estimated to be only 30-40% 6,[12][13][14] . With the aging of populations in the U.S. and globally, it is imperative that influenza vaccine-induced immunity in older adults be better understood [15][16][17] . Systems vaccinology and vaccinomics, the application of systems biology to the study of vaccines, are a promising method to better understand human immune responses to vaccines from a holistic perspective 18,19 . A seminal paper by Querec et al. in 2008 applied a systems biology approach to study yellow fever vaccine-induced immunity and identified novel genes involved in vaccine-induced antibody and CD8+ T cell responses whose expression levels could predict immunogenicity of the vaccine in subjects, setting a new standard for vaccine studies 20 . Such systems biology approaches provide complementary insights to reductionist approaches by revealing novel interactions between immune system processes critical to developing immune responses to vaccines 21 . Systems biology approaches have been previously applied to the study of seasonal influenza vaccination

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A Western diet impairs CNS energy homeostasis and recovery after spinal cord injury: Link to astrocyte metabolism

Kim

Langley

Simon

et al. 2020

Neurobiology of Disease

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A diet high in fat and sucrose (HFHS), the so-called Western diet promotes metabolic syndrome, a significant comorbidity for individuals with spinal cord injury (SCI). Here we demonstrate that the spinal cord of mice consuming HFHS expresses reduced insulin-like growth factor 1 (IGF-1) and its receptor and shows impaired tricarboxylic acid cycle function, reductions in PLP and increases in astrogliosis, all prior to SCI. After SCI, Western diet impaired sensorimotor and bladder recovery, increased microgliosis, exacerbated oligodendrocyte loss and reduced axon sprouting. Direct and indirect neural injury mechanisms are suggested since HFHS culture conditions drove parallel injury responses directly and indirectly after culture with conditioned media from HFHS-treated astrocytes. In each case, injury mechanisms included reductions in IGF-1R, SIRT1 and PGC-1α and were prevented by metformin. Results highlight the potential for a Western diet to evoke signs of neural insulin resistance and injury and metformin as a strategy to improve mechanisms of neural neuroprotection and repair.

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Whitney L. Simon

Taxa of the Nasal Microbiome Are Associated with Influenza-Specific IgA Response to Live Attenuated Influenza Vaccine

Blocking the Thrombin Receptor Promotes Repair of Demyelinated Lesions in the Adult Brain

High fat diet consumption results in mitochondrial dysfunction, oxidative stress, and oligodendrocyte loss in the central nervous system

Transcriptomic signatures of cellular and humoral immune responses in older adults after seasonal influenza vaccination identified by data-driven clustering

A Western diet impairs CNS energy homeostasis and recovery after spinal cord injury: Link to astrocyte metabolism

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