Your search keyword '"Caroline E. Harms"' showing total 5 results

1. COVID-19 vaccination elicits an evolving, cross-reactive antibody response to epitopes conserved with endemic coronavirus spike proteins

Author

Evan A. Elko, Georgia A. Nelson, Heather L. Mead, Erin J. Kelley, Sophia T. Carvalho, Nathan G. Sarbo, Caroline E. Harms, Virginia Le Verche, Angelo A. Cardoso, Jennifer L. Ely, Annalee S. Boyle, Alejandra Piña, Sierra N. Henson, Fatima Rahee, Paul S. Keim, Kimberly R. Celona, Jinhee Yi, Erik W. Settles, Daniela A. Bota, George C. Yu, Sheldon R. Morris, John A. Zaia, Jason T. Ladner, and John A. Altin

Subjects

CP: Immunology, CP: Microbiology, Biology (General), QH301-705.5

Abstract

Summary: The COVID-19 pandemic has triggered the first widespread vaccination campaign against a coronavirus. Many vaccinated subjects are previously naive to SARS-CoV-2; however, almost all have previously encountered other coronaviruses (CoVs), and the role of this immunity in shaping the vaccine response remains uncharacterized. Here, we use longitudinal samples and highly multiplexed serology to identify mRNA-1273 vaccine-induced antibody responses against a range of CoV Spike epitopes, in both phylogenetically conserved and non-conserved regions. Whereas reactivity to SARS-CoV-2 epitopes shows a delayed but progressive increase following vaccination, we observe distinct kinetics for the endemic CoV homologs at conserved sites in Spike S2: these become detectable sooner and decay at later time points. Using homolog-specific antibody depletion and alanine-substitution experiments, we show that these distinct trajectories reflect an evolving cross-reactive response that can distinguish rare, polymorphic residues within these epitopes. Our results reveal mechanisms for the formation of antibodies with broad reactivity against CoVs.

Published

2022

2. A Framework to Identify Antigen-Expanded T Cell Receptor Clusters Within Complex Repertoires

Author

Valentina Ceglia, Erin J. Kelley, Annalee S. Boyle, Sandra Zurawski, Heather L. Mead, Caroline E. Harms, Jean-Philippe Blanck, Anne-Laure Flamar, Jung Hwa Kirschman, Paul Ogongo, Joel D. Ernst, Yves Levy, Gerard Zurawski, and John A. Altin

Subjects

T cell receptor (TCR), T cell responses, vaccines, dendritic cells, monoclonal antibodies, TCR sequencing, Immunologic diseases. Allergy, RC581-607

Abstract

Common approaches for monitoring T cell responses are limited in their multiplexity and sensitivity. In contrast, deep sequencing of the T Cell Receptor (TCR) repertoire provides a global view that is limited only in terms of theoretical sensitivity due to the depth of available sampling; however, the assignment of antigen specificities within TCR repertoires has become a bottleneck. This study combines antigen-driven expansion, deep TCR sequencing, and a novel analysis framework to show that homologous ‘Clusters of Expanded TCRs (CETs)’ can be confidently identified without cell isolation, and assigned to antigen against a background of non-specific clones. We show that clonotypes within each CET respond to the same epitope, and that protein antigens stimulate multiple CETs reactive to constituent peptides. Finally, we demonstrate the personalized assignment of antigen-specificity to rare clones within fully-diverse uncultured repertoires. The method presented here may be used to monitor T cell responses to vaccination and immunotherapy with high fidelity.

Published

2021

3. A Framework to Identify Antigen-Expanded T Cell Receptor Clusters Within Complex Repertoires

Author

Paul Ogongo, Anne-Laure Flamar, Jung Hwa Kirschman, Heather L. Mead, Jean-Philippe Blanck, Joel D. Ernst, Sandra Zurawski, Caroline E. Harms, Annalee S. Boyle, Erin Kelley, John A. Altin, Gerard Zurawski, Yves Levy, and Valentina Ceglia

Subjects

medicine.drug_class, T cell, medicine.medical_treatment, T-Lymphocytes, Immunology, Receptors, Antigen, T-Cell, Computational biology, Cell Separation, Biology, Monoclonal antibody, Epitope, Deep sequencing, Vaccine Related, Antigen, TCR sequencing, Receptors, medicine, Humans, Immunology and Allergy, T cell receptor (TCR), dendritic cells, Original Research, Prevention, Repertoire, T-cell receptor, Immunotherapy, vaccines, RC581-607, T-Cell, Good Health and Well Being, medicine.anatomical_structure, Medical Microbiology, T cell responses, Immunologic Techniques, Immunization, monoclonal antibodies, T cell receptor, Immunologic diseases. Allergy

Abstract

Common approaches for monitoring T cell responses are limited in their multiplexity and sensitivity. In contrast, deep sequencing of the T Cell Receptor (TCR) repertoire provides a global view that is limited only in terms of theoretical sensitivity due to the depth of available sampling; however, the assignment of antigen specificities within TCR repertoires has become a bottleneck. This study combines antigen-driven expansion, deep TCR sequencing, and a novel analysis framework to show that homologous ‘Clusters of Expanded TCRs (CETs)’ can be confidently identified without cell isolation, and assigned to antigen against a background of non-specific clones. We show that clonotypes within each CET respond to the same epitope, and that protein antigens stimulate multiple CETs reactive to constituent peptides. Finally, we demonstrate the personalized assignment of antigen-specificity to rare clones within fully-diverse uncultured repertoires. The method presented here may be used to monitor T cell responses to vaccination and immunotherapy with high fidelity.

Published

2021

4. Genetic Confirmation of Predation of an Adult Female Eastern Spotted Skunk by a Barred Owl

Author

Kelly J. Pearce, Kevin J. Oxenrider, Kendyl N. Hassler, Lucas E. Price, Thomas L. Serfass, Brin E. Kessinger, Amy B. Welsh, Caroline E. Harms, Rich E. Rogers, and Ethan P. Barton

Subjects

Bubo, biology, Adult female, West virginia, Great horned owl, Zoology, biology.organism_classification, humanities, Predation, parasitic diseases, medicine, medicine.symptom, Eastern spotted skunk, Predator, psychological phenomena and processes, Ecology, Evolution, Behavior and Systematics

Abstract

Avian predation is a primary cause of mortality for Spilogale putorius (Eastern Spotted Skunk) and is generally attributed to Bubo virginianus (Great Horned Owl). We report the first confirmed avian predation of an Eastern Spotted Skunk by a Strix varia (Barred Owl). The radio-collar of an adult female Eastern Spotted Skunk was recovered alongside an owl pellet containing Eastern Spotted Skunk remains in eastern West Virginia. DNA sampled from the surface of the pellet was amplified, sequenced, and compared to known Barred Owl and Great Horned Owl sequences. Differences in 2 single nucleotide polymorphisms confirmed a Barred Owl produced the pellet. Our findings show Barred Owls are at least occasionally an avian predator of this species in eastern forest ecosystems.

Published

2021

5. Population Genetics of a Reintroduced Fisher (Pekania pennanti) Population in West Virginia

Author

Caroline E Harms

Subjects

education.field_of_study, Geography, West virginia, Population, Population genetics, education, Demography

Published

2021