Search

Your search keyword '"Barber, Natalie"' showing total 11 results
Start Over Author "Barber, Natalie"
11 results on '"Barber, Natalie"'

1. Structural approaches towards preventing host cell cytoadhesion and invasion by the malaria parasite

Author

Barber, Natalie Michaela Ena and Higgins, Matthew

Subjects
616.9
Abstract

Malaria, a disease caused by Plasmodia parasites and transmitted by mosquitoes, causes the deaths of 500,000 people each year. Despite advances in malarial therapeu- tics, there is still no effective vaccine. Potential targets for vaccines are those involved in erythrocyte invasion or those expressed by parasite-infected erythrocytes that lead them to cytoadhere to endothelial surfaces. The three targets discussed in this thesis are 1) Plasmodium falciparum erythrocyte membrane protein 1 (Pf EMP1) involved in binding to EPCR, 2) Plasmodium vivax Duffy binding protein (PvDBP) required for P. vivax invasion into erythrocytes, and 3) a Pf EMP1 called Var2CSA, which mediates infected erythrocyte cytoadherence to the placenta. Recently, structure- based vaccine design has successfully been developed. The structures of targets can be used to elucidate the molecular mechanisms by which they interact with the human receptors, as well as to identify epitopes bound by inhibitory antibod- ies. These regions can then be introduced onto smaller scaffold proteins, thereby focusing the immune response to produce antibodies that block the ability of the parasite protein to interact with its human receptors. Here, I demonstrate, through X-ray crystallography and binding studies, that functional sites and epitopes can be introduced onto smaller proteins whilst still retaining the function of the full-length domains. However, immunisation experiments with small immunogens that contain just the receptor binding site of a Pf EMP1 suggested that inhibitory epitopes do not necessarily overlap with the functional binding sites. This was supported by solving the structure of an invasion-blocking antibody in complex with PvDBP, which identified that the epitope was distal to the receptor binding site. Additionally, the challenge to structurally characterise the multidomain binding site and epitopes of Var2CSA, by X-ray crystallography and cryoEM, is highlighted. Overall, this thesis discusses how the structural characterisation of vaccine candidates against malaria can be used to guide future immunogen design.

Published
2020

2. Outbreak of Locally Acquired Mosquito-Transmitted (Autochthonous) Malaria--Florida and Texas, May-July 2023

Author

Blackburn, Dawn, Drennon, Michael, Broussard, Kelly, Morrison, Andrea M., Stanek, Danielle, Sarney, Elizabeth, Ferracci, Christina, Huard, Steve, Brennan, Wade, Eaton, John, Nealeigh, Sara, Barber, Natalie, Zimler, Rebecca A., Adams, Jeremy N., Blackmore, Carina, Gordillo, Manuel, Mercado, Robert, Vore, Harold, Scanlan, Kelly, Motie, Ian, Stanfield, Leslie, Farooq, Ahmed, Widel, Kimberly, Tomson, Kelly, Kerr, Nancy, Nasir, John, Cone, Marshall, Rice, Connor, Larkin, Thomas, Hernandez, Edwin, Bencie, Jennifer, Lesser, Christopher R., Dersch, Max, Ramirez-Lachmann, Samantha, Clark, Marah, Rollo, Susan, Bashadi, Amira, Tyler, Ronald, Bolling, Bethany, Moore, Brent, Sullivan, Brendan, Fonken, Eric, Castillo, Raquel, Gonzalez, Yaziri, Olivares, Gustavo, Mace, Kimberly E., Sayre, Dean, Lenhart, Audrey, Sutcliffe, Alice, Dotson, Ellen, Corredor, Claudia, Rogers, Emma, Raphael, Brian H., Sapp, Sarah G.H., Qvarnstrom, Yvonne, Ridpath, Alison D., and McElroy, Peter D.

Subjects
Texas. Department of State Health Services -- International economic relations, Spinosad, Health care industry -- International economic relations -- Mergers, acquisitions and divestments, Bites and stings, Anopheles, Health care industry, Company acquisition/merger, Health
Abstract

Investigation and Results On May 18, 2023, the Florida Department of Health (FDOH) requested telediagnosis assistance from DPDx, CDC's interactive parasitic diseases website (https://www. cdc.gov/dpdx/index.html), to confirm Plasmodium species in [...]

Published
2023

3. Structural basis for inhibition of Plasmodium vivax invasion by a broadly neutralizing vaccine-induced human antibody

Author

Rawlinson, Thomas. A., Barber, Natalie M., Mohring, Franziska, Cho, Jee Sun, Kosaisavee, Varakorn, Gérard, Samuel F., Alanine, Daniel G. W., Labbé, Geneviève M., Elias, Sean C., Silk, Sarah E., Quinkert, Doris, Jin, Jing, Marshall, Jennifer M., Payne, Ruth O., Minassian, Angela M., Russell, Bruce, Rénia, Laurent, Nosten, François H., Moon, Robert W., Higgins, Matthew K., and Draper, Simon J.

Published
2019
Full Text
View/download PDF

5. Structure-guided design of a synthetic mimic of an endothelial protein C receptor-binding PfEMP1 protein

Author

Barber, Natalie M, Lau, Clinton K Y, Turner, Louise, Watson, Gareth, Thrane, Susan, Lusingu, John P A, Lavstsen, Thomas, Higgins, Matthew K, Barber, Natalie M, Lau, Clinton K Y, Turner, Louise, Watson, Gareth, Thrane, Susan, Lusingu, John P A, Lavstsen, Thomas, and Higgins, Matthew K

Abstract

Structure-guided vaccine design provides a route to elicit a focused immune response against the most functionally important regions of a pathogen surface. This can be achieved by identifying epitopes for neutralizing antibodies through structural methods and recapitulating these epitopes by grafting their core structural features onto smaller scaffolds. In this study, we conducted a modified version of this protocol. We focused on the PfEMP1 protein family found on the surfaces of erythrocytes infected with Plasmodium falciparum A subset of PfEMP1 proteins bind to endothelial protein C receptor (EPCR), and their expression correlates with development of the symptoms of severe malaria. Structural studies revealed that PfEMP1 molecules present a helix-kinked-helix motif that forms the core of the EPCR-binding site. Using Rosetta-based design, we successfully grafted this motif onto a three-helical bundle scaffold. We show that this synthetic binder interacts with EPCR with nanomolar affinity and adopts the expected structure. We also assessed its ability to bind to antibodies found in immunized animals and in humans from malaria-endemic regions. Finally, we tested the capacity of the synthetic binder to effectively elicit antibodies that prevent EPCR binding and analyzed the degree of cross-reactivity of these antibodies across a diverse repertoire of EPCR-binding PfEMP1 proteins. Despite our synthetic binder adopting the correct structure, we find that it is not as effective as the CIDRα domain on which it is based for inducing adhesion-inhibitory antibodies. This cautions against the rational design of focused immunogens that contain the core features of a ligand-binding site of a protein family, rather than those of a neutralizing antibody epitope.IMPORTANCE Vaccines train our immune systems to generate antibodies which recognize pathogens. Some of these antibodies are highly protective, preventing infection, while others are ineffective. Structure-guided ratio

Published
2021

8. Structural basis for therapeutic inhibition of complement C5

Author

Jore, Matthijs M., Johnson, Steven, Sheppard, Devon, Barber, Natalie M., Li, Yang I., Nunn, Miles A., Elmlund, Hans, Lea, Susan M., Jore, Matthijs M., Johnson, Steven, Sheppard, Devon, Barber, Natalie M., Li, Yang I., Nunn, Miles A., Elmlund, Hans, and Lea, Susan M.

Abstract

Activation of complement C5 generates the potent anaphylatoxin C5a and leads to pathogen lysis, inflammation and cell damage. The therapeutic potential of C5 inhibition has been demonstrated by eculizumab, one of the world's most expensive drugs. However, the mechanism of C5 activation by C5 convertases remains elusive, thus limiting development of therapeutics. Here we identify and characterize a new protein family of tick-derived C5 inhibitors. Structures of C5 in complex with the new inhibitors, the phase I and phase II inhibitor OmCI, or an eculizumab Fab reveal three distinct binding sites on C5 that all prevent activation of C5. The positions of the inhibitor-binding sites and the ability of all three C5–inhibitor complexes to competitively inhibit the C5 convertase conflict with earlier steric-inhibition models, thus suggesting that a priming event is needed for activation.

Published
2016

9. The Way They Never Were: Nationalism, Landscape, and Myth in Irish Identity Construction

Author

Barber, Natalie

Abstract

The fairy figure has had a long association with Ireland in popular cultural discourse. While often the source of children's fairy tales, their history in Ireland is far from kitsch. Their enduring association with the Irish has been one of adaptation in the face of colonialism and is linked to the land itself as well as Irish identity. The Gaelic Revival and emerging field of archaeology in the nineteenth century pulled from a strong tradition of myth and storytelling to craft a narrative of authentic Irishness that could resist the English culturally and spiritually. This paper explores the relationship between nationalism, landscape, and mythology that created a space that the fairy survived in as a product of colonial resistance and identity.

Published
2014
Full Text
View/download PDF

11. Outbreak of Locally Acquired Mosquito-Transmitted (Autochthonous) Malaria - Florida and Texas, May-July 2023.

Author

Blackburn D, Drennon M, Broussard K, Morrison AM, Stanek D, Sarney E, Ferracci C, Huard S, Brennan W, Eaton J, Nealeigh S, Barber N, Zimler RA, Adams JN, Blackmore C, Gordillo M, Mercado R, Vore H, Scanlan K, Motie I, Stanfield L, Farooq A, Widel K, Tomson K, Kerr N, Nasir J, Cone M, Rice C, Larkin T, Hernandez E, Bencie J, Lesser CR, Dersch M, Ramirez-Lachmann S, Clark M, Rollo S, Bashadi A, Tyler R, Bolling B, Moore B, Sullivan B, Fonken E, Castillo R, Gonzalez Y, Olivares G, Mace KE, Sayre D, Lenhart A, Sutcliffe A, Dotson E, Corredor C, Rogers E, Raphael BH, Sapp SGH, Qvarnstrom Y, Ridpath AD, and McElroy PD

Subjects
Animals, Humans, Texas epidemiology, Florida epidemiology, Health Personnel, Disease Outbreaks, Malaria epidemiology, Malaria prevention & control
Abstract

Eight cases of locally acquired, mosquito-transmitted (i.e., autochthonous) Plasmodium vivax malaria, which has not been reported in the United States since 2003, were reported to CDC from state health departments in Florida and Texas during May 18-July 17, 2023. As of August 4, 2023, case surveillance, mosquito surveillance and control activities, and public outreach and education activities continue in both states. U.S. clinicians need to consider a malaria diagnosis in patients with unexplained fever, especially in areas where autochthonous malaria has been recently reported, although the risk for autochthonous malaria in the United States remains very low. Prompt diagnosis and treatment of malaria can prevent severe disease or death and limit ongoing transmission to local Anopheles mosquitoes and other persons. Preventing mosquito bites and controlling mosquitoes at home can prevent mosquitoborne diseases, including malaria. Before traveling internationally to areas with endemic malaria, travelers should consult with a health care provider regarding recommended malaria prevention measures, including potentially taking malaria prophylaxis. Malaria is a nationally notifiable disease; continued reporting of malaria cases to jurisdictional health departments and CDC will also help ensure robust surveillance to detect and prevent autochthonous malaria in the United States., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. No potential conflicts of interest were disclosed.

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results