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Your search keyword '"McFadden, Kathryn M."' showing total 16 results
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16 results on '"McFadden, Kathryn M."'

1. A self-amplifying RNA vaccine prevents enterovirus D68 infection and disease in preclinical models.

Author

Warner, Nikole L., Archer, Jacob, Park, Stephanie, Singh, Garima, McFadden, Kathryn M., Kimura, Taishi, Nicholes, Katrina, Simpson, Adrian, Kaelber, Jason T., Hawman, David W., Feldmann, Heinz, Khandhar, Amit P., Berglund, Peter, Vogt, Matthew R., and Erasmus, Jesse H.

Subjects
SARS-CoV-2, MERS coronavirus, RESPIRATORY infections, ENTEROVIRUS diseases, VACCINE development, ANTIBODY formation
Abstract

The recent emergence and rapid response to severe acute respiratory syndrome coronavirus 2 was enabled by prototype pathogen and vaccine platform approaches, driven by the preemptive application of RNA vaccine technology to the related Middle East respiratory syndrome coronavirus. Recently, the National Institutes of Allergy and Infectious Diseases identified nine virus families of concern, eight enveloped virus families and one nonenveloped virus family, for which vaccine generation is a priority. Although RNA vaccines have been described for a variety of enveloped viruses, a roadmap for their use against nonenveloped viruses is lacking. Enterovirus D68 was recently designated a prototype pathogen within the family Picornaviridae of nonenveloped viruses because of its rapid evolution and respiratory route of transmission, coupled with a lack of diverse anti-enterovirus vaccine approaches in development. Here, we describe a proof-of-concept approach using a clinical stage RNA vaccine platform that induced robust enterovirus D68–neutralizing antibody responses in mice and nonhuman primates and prevented upper and lower respiratory tract infections and neurological disease in mice. In addition, we used our platform to rapidly characterize the antigenic diversity within the six genotypes of enterovirus D68, providing the necessary data to inform multivalent vaccine compositions that can elicit optimal breadth of neutralizing responses. These results demonstrate that RNA vaccines can be used as tools in our pandemic-preparedness toolbox for nonenveloped viruses. Editor's summary: mRNA vaccines have been shown to be successful for many enveloped viruses, including SARS-CoV-2 and RSV. However, their ability to confer protection against nonenveloped viruses, such as picornaviruses, remains to be seen. Here, Warner et al. developed and tested a series of self-amplifying mRNA vaccines targeting different subclades of enterovirus D68 (EV-D68). The authors found that the vaccines elicited antibodies that could neutralize their homologous subclade, with some evidence of heterologous protection. These data, coupled with a series of immunogenicity and challenge studies in mice and nonhuman primates, suggest that multivalent EV-D68 vaccines may confer broad protection against this prototype pathogen. —Courtney Malo [ABSTRACT FROM AUTHOR]

Published
2024
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3. BPIFB1 loss alters airway mucus properties and diminishes mucociliary clearance

Author

Donoghue, Lauren J., primary, Markovetz, Matthew R., additional, Morrison, Cameron B., additional, Chen, Gang, additional, McFadden, Kathryn M., additional, Sadritabrizi, Taraneh, additional, Gutay, Mark I., additional, Kato, Takafumi, additional, Rogers, Troy D., additional, Snead, Jazmin Y., additional, Livraghi-Butrico, Alessandra, additional, Button, Brian, additional, Ehre, Camille, additional, Grubb, Barbara R., additional, Hill, David B., additional, and Kelada, Samir N.P., additional

Published
2023
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4. Additional file 2 of Collaborative cross strain CC011/UncJ as a novel mouse model of T2-high, severe asthma

Author

Donoghue, Lauren J., McFadden, Kathryn M., Vargas, Daniel, Smith, Gregory J., Immormino, Robert M., Moran, Timothy P., and Kelada, Samir N. P.

Abstract

Additional file 2: Figures S1-S3. Figure S1. A BAL differential cell type percentages in HDM-exposed BALB/cJ and CC mice. Significance of t-test between eosinophil percentage between BALB/cJ and CC strains denoted as * for P < 0.01. B BAL differential cell counts for data shown in main text Figure 1B. Significance of t-tests of total cell counts and eosinophils between HDM-exposed BALB/cJ and CC011 mice are denoted by # for P < 0.1. Note BAL was performed on right lung lobes only. Figure S2. Perivascular inflammation and vascular remodeling in CC011 mice chronically exposed to HDM. Representative cross-sections of H&E stained lung tissue from CC011 mice exposed to PBS or HDM for 5 weeks. Tissue from HDM-exposed mice was collected immediately upon death due to repeated allergen exposure. Scale bars = 100uM. Figure S3. Median fluorescence intensity of IL-5 and IL-13 in ILC2s from BALB/cJ or CC011 mice, as determined by flow cytometry, following three treatments with PBS or HDM. Significance of t-tests for treatment effects within strain are denoted by * for P < 0.05.

Published
2023
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6. Collaborative cross strain CC011/UncJ as a novel mouse model of T2-high, severe asthma.

Author

Donoghue, Lauren J., McFadden, Kathryn M., Vargas, Daniel, Smith, Gregory J., Immormino, Robert M., Moran, Timothy P., and Kelada, Samir N. P.

Subjects
*LABORATORY mice, *ANIMAL disease models, *HOUSE dust mites, *PULMONARY eosinophilia, *ASTHMA, *MICE genetics
Abstract

Among asthmatics, there is significant heterogeneity in the clinical presentation and underlying pathophysiological mechanisms, leading to the recognition of multiple disease endotypes (e.g., T2-high vs. T2-low). This heterogeneity extends to severe asthmatics, who may struggle to control symptoms even with high-dose corticosteroid treatment and other therapies. However, there are limited mouse models available to model the spectrum of severe asthma endotypes. We sought to identify a new mouse model of severe asthma by first examining responses to chronic allergen exposure among strains from the Collaborative Cross (CC) mouse genetics reference population, which contains greater genetic diversity than other inbred strain panels previously used for models of asthma. Mice from five CC strains and the often-used classical inbred strain BALB/cJ were chronically exposed to house dust mite (HDM) allergen for five weeks followed by measurements of airway inflammation. CC strain CC011/UncJ (CC011) exhibited extreme responses to HDM including high levels of airway eosinophilia, elevated lung resistance, and extensive airway wall remodeling, and even fatalities among ~ 50% of mice prior to study completion. Compared to BALB/cJ mice, CC011 mice had stronger Th2-mediated airway responses demonstrated by significantly elevated total and HDM-specific IgE and increased Th2 cytokines during tests of antigen recall, but not enhanced ILC2 activation. Airway eosinophilia in CC011 mice was completely dependent upon CD4+ T-cells. Notably, we also found that airway eosinophilia in CC011 mice was resistant to dexamethasone steroid treatment. Thus, the CC011 strain provides a new mouse model of T2-high, severe asthma driven by natural genetic variation likely acting through CD4+ T-cells. Future studies aimed at determining the genetic basis of this phenotype will provide new insights into mechanisms underlying severe asthma. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Integrative phenotypic and genomic analyses reveal strain-dependent responses to acute ozone exposure and their associations with airway macrophage transcriptional activity

Author

Tovar, Adelaide, primary, Crouse, Wesley L., additional, Smith, Gregory J., additional, Thomas, Joseph M., additional, Keith, Benjamin P., additional, McFadden, Kathryn M., additional, Moran, Timothy P., additional, Furey, Terrence S., additional, and Kelada, Samir N. P., additional

Published
2021
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15. BPIFB1 loss alters airway mucus properties and diminishes mucociliary clearance.

Author

Donoghue LJ, Markovetz MR, Morrison CB, Chen G, McFadden KM, Sadritabrizi T, Gutay MI, Kato T, Rogers TD, Snead JY, Livraghi-Butrico A, Button B, Ehre C, Grubb BR, Hill DB, and Kelada SNP

Subjects
Mice, Humans, Animals, Respiratory System metabolism, Mucus metabolism, Mice, Knockout, Mucociliary Clearance physiology, Lung Diseases metabolism
Abstract

Airway mucociliary clearance (MCC) is required for host defense and is often diminished in chronic lung diseases. Effective clearance depends upon coordinated actions of the airway epithelium and a mobile mucus layer. Dysregulation of the primary secreted airway mucin proteins, MUC5B and MUC5AC, is associated with a reduction in the rate of MCC; however, how other secreted proteins impact the integrity of the mucus layer and MCC remains unclear. We previously identified the gene Bpifb1/Lplunc1 as a regulator of airway MUC5B protein levels using genetic approaches. Here, we show that BPIFB1 is required for effective MCC in vivo using Bpifb1 knockout (KO) mice. Reduced MCC in Bpifb1 KO mice occurred in the absence of defects in epithelial ion transport or reduced ciliary beat frequency. Loss of BPIFB1 in vivo and in vitro altered biophysical and biochemical properties of mucus that have been previously linked to impaired MCC. Finally, we detected colocalization of BPIFB1 and MUC5B in secretory granules in mice and the protein mesh of secreted mucus in human airway epithelia cultures. Collectively, our findings demonstrate that BPIFB1 is an important component of the mucociliary apparatus in mice and a key component of the mucus protein network. NEW & NOTEWORTHY BPIFB1, also known as LPLUNC1, was found to regulate mucociliary clearance (MCC), a key aspect of host defense in the airway. Loss of this protein was also associated with altered biophysical and biochemical properties of mucus that have been previously linked to impaired MCC.

Published
2023
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16. Integrative analysis reveals mouse strain-dependent responses to acute ozone exposure associated with airway macrophage transcriptional activity.

Author

Tovar A, Crouse WL, Smith GJ, Thomas JM, Keith BP, McFadden KM, Moran TP, Furey TS, and Kelada SNP

Subjects
Animals, Chromatin metabolism, Cytokines metabolism, Female, Gene Expression Regulation drug effects, Inflammation genetics, Inflammation pathology, Macrophages drug effects, Male, Mice, Inbred C57BL, Phenotype, RNA, Messenger genetics, RNA, Messenger metabolism, Transcription, Genetic drug effects, Mice, Lung pathology, Macrophages metabolism, Ozone adverse effects
Abstract

Acute ozone (O 3 ) exposure is associated with multiple adverse cardiorespiratory outcomes, the severity of which varies across individuals in human populations and inbred mouse strains. However, molecular determinants of response, including susceptibility biomarkers that distinguish who will develop severe injury and inflammation, are not well characterized. We and others have demonstrated that airway macrophages (AMs) are an important resident immune cell type that are functionally and transcriptionally responsive to O 3 inhalation. Here, we sought to explore influences of strain, exposure, and strain-by-O 3 exposure interactions on AM gene expression and identify transcriptional correlates of O 3 -induced inflammation and injury across six mouse strains, including five Collaborative Cross (CC) strains. We exposed adult mice of both sexes to filtered air (FA) or 2 ppm O 3 for 3 h and measured inflammatory and injury parameters 21 h later. Mice exposed to O 3 developed airway neutrophilia and lung injury with strain-dependent severity. In AMs, we identified a common core O 3 transcriptional response signature across all strains, as well as a set of genes exhibiting strain-by-O 3 exposure interactions. In particular, a prominent gene expression contrast emerged between a low- (CC017/Unc) and high-responding (CC003/Unc) strain, as reflected by cellular inflammation and injury. Further inspection indicated that differences in their baseline gene expression and chromatin accessibility profiles likely contribute to their divergent post-O 3 exposure transcriptional responses. Together, these results suggest that aspects of O 3 -induced respiratory responses are mediated through altered AM transcriptional signatures and further confirm the importance of gene-environment interactions in mediating differential responsiveness to environmental agents.

Published
2022
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