Your search keyword '"Rachael A. Leah"' showing total 12 results

1. Discovery and optimization of a broadly-neutralizing human monoclonal antibody against long-chain α-neurotoxins from snakes

Author

Line Ledsgaard, Jack Wade, Timothy P. Jenkins, Kim Boddum, Irina Oganesyan, Julian A. Harrison, Pedro Villar, Rachael A. Leah, Renato Zenobi, Sanne Schoffelen, Bjørn Voldborg, Anne Ljungars, John McCafferty, Bruno Lomonte, José M. Gutiérrez, Andreas H. Laustsen, and Aneesh Karatt-Vellatt

Subjects

Science

Abstract

The treatment of snakebite envenoming is currently suboptimal. Existing antivenoms often lack efficacy and may cause adverse reactions. Here, the authors derive, develop, and demonstrate the utility of toxin-specific broadly-neutralizing human monoclonal antibodies with established reactivity across related venom toxins from different snake species and show efficacy in rodent models.

Published

2023

2. In vitro discovery of a human monoclonal antibody that neutralizes lethality of cobra snake venom

Author

Line Ledsgaard, Andreas H. Laustsen, Urska Pus, Jack Wade, Pedro Villar, Kim Boddum, Peter Slavny, Edward W. Masters, Ana S. Arias, Saioa Oscoz, Daniel T. Griffiths, Alice M. Luther, Majken Lindholm, Rachael A. Leah, Marie Sofie Møller, Hanif Ali, John McCafferty, Bruno Lomonte, José M. Gutiérrez, and Aneesh Karatt-Vellatt

Subjects

Recombinant antivenom, antibody discovery, affinity maturation, venom neutralization, snake neurotoxins, monoclonal antibodies, Therapeutics. Pharmacology, RM1-950, Immunologic diseases. Allergy, RC581-607

Abstract

The monocled cobra (Naja kaouthia) is among the most feared snakes in Southeast Asia due to its toxicity, which is predominantly derived from long-chain α-neurotoxins. The only specific treatment for snakebite envenoming is antivenom based on animal-derived polyclonal antibodies. Despite the lifesaving importance of these medicines, major limitations in safety, supply consistency, and efficacy create a need for improved treatments. Here, we describe the discovery and subsequent optimization of a recombinant human monoclonal immunoglobulin G antibody against α-cobratoxin using phage display technology. Affinity maturation by light chain-shuffling resulted in a significant increase in in vitro neutralization potency and in vivo efficacy. The optimized antibody prevented lethality when incubated with N. kaouthia whole venom prior to intravenous injection. This study is the first to demonstrate neutralization of whole snake venom by a single recombinant monoclonal antibody, thus providing a tantalizing prospect of bringing recombinant antivenoms based on human monoclonal or oligoclonal antibodies to the clinic.

Published

2022

3. In vivo neutralization of dendrotoxin-mediated neurotoxicity of black mamba venom by oligoclonal human IgG antibodies

Author

Andreas H. Laustsen, Aneesh Karatt-Vellatt, Edward W. Masters, Ana Silvia Arias, Urska Pus, Cecilie Knudsen, Saioa Oscoz, Peter Slavny, Daniel T. Griffiths, Alice M. Luther, Rachael A. Leah, Majken Lindholm, Bruno Lomonte, José María Gutiérrez, and John McCafferty

Subjects

Science

Abstract

Current anti-venoms against black mamba (Dendroaspis polylepis) bites are animal-derived and associated with several limitations. Here, Laustsen and colleagues develop an experimental recombinant anti-venom based on oligoclonal human IgG antibodies and establish its potential protective value in neutralizing dendrotoxin-mediated neurotoxicity using venom challenge in vivo models.

Published

2018

4. Publisher Correction: In vivo neutralization of dendrotoxin-mediated neurotoxicity of black mamba venom by oligoclonal human IgG antibodies

Author

Andreas H. Laustsen, Aneesh Karatt-Vellatt, Edward W. Masters, Ana Silvia Arias, Urska Pus, Cecilie Knudsen, Saioa Oscoz, Peter Slavny, Daniel T. Griffiths, Alice M. Luther, Rachael A. Leah, Majken Lindholm, Bruno Lomonte, José María Gutiérrez, and John McCafferty

Subjects

Science

Abstract

In the original version of this Article, the sixth sentence of the first paragraph of the Introduction incorrectly read ‘Particularly, elapid antivenoms often have an unbalanced antibody content with relatively low amounts of antibodies against small neurotoxic venom components that have low immunogenicity, which often leads to low immune cgqtns in production animals8–10’. The correct version states ‘responses’ instead of ‘cgqtns’. This has been corrected in both the PDF and HTML versions of the Article.

Published

2018

5. Discovery of a broadly-neutralizing human antibody that can rescue mice challenged with neurotoxin-rich snake venoms

Author

Line Ledsgaard, Jack Wade, Kim Boddum, Irina Oganesyan, Julian Harrison, Timothy P. Jenkins, Pedro Villar, Rachael A. Leah, Renato Zenobi, John McCafferty, Bruno Lomonte, José M. Gutiérrez, Andreas H. Laustsen, and Aneesh Karatt-Vellatt

Abstract

Snakebite envenoming continues to claim many lives across the globe, necessitating the development of improved therapies. To this end, human monoclonal antibodies may possess advantages over current plasma-derived antivenoms by offering superior safety and improved neutralization capacity. However, as new antivenom products may need to be polyvalent, i.e., target multiple different snake species, without dramatically increasing dose or cost of manufacture, such monoclonal antibodies need to be broadly-neutralizing. Here, we report the establishment of a pipeline for the discovery of high affinity broadly-neutralizing human monoclonal antibodies. We further demonstrate its utility by discovering an antibody that can prevent lethality induced by N. kaouthia whole venom at an unprecedented low molar ratio of one antibody per toxin, and which also prolongs survival of mice injected with Dendroaspis polylepis or Ophiophagus hannah whole venoms.

Published

2022

6. In vitro discovery and optimization of a human monoclonal antibody that neutralizes neurotoxicity and lethality of cobra snake venom

Author

Saioa Oscoz, Pedro Villar, J. M. Gutierrez, Edward W. Masters, D. T. Griffiths, J. Wade, Aneesh Karatt-Vellatt, Bruno Lomonte, Rachael A. Leah, M. S. Moeller, Urska Pus, P. Slavny, Line Ledsgaard, A. M. Luther, Ana Silvia Arias, John McCafferty, M. Lindholm, K. Boddum, H. Ali, and Andreas Hougaard Laustsen

Subjects

biology, medicine.drug_class, Antivenom, Venom, Monoclonal antibody, biology.organism_classification, complex mixtures, Virology, Affinity maturation, Snake venom, Monoclonal, biology.protein, medicine, Naja kaouthia, Antibody

Abstract

The monocled cobra (Naja kaouthia) is one of the most feared snakes in Southeast Asia. It is a highly dangerous species with a potent venom deriving its toxicity predominantly from abundant long-chain α-neurotoxins. The only specific treatment for snakebite envenoming is antivenom, which is based on animal-derived polyclonal antibodies. Despite the lifesaving importance of these medicines over the past 120 years, and their ongoing role in combating snakebite disease, major limitations in safety, supply consistency, and efficacy creates a need for a new generation of improved treatments based on modern biotechnological techniques. Here, we describe the initial discovery and subsequent optimization of a recombinant human monoclonal immunoglobin G (IgG) antibody against α-cobratoxin using phage display technology. Affinity maturation of the parental antibody by light chain-shuffling resulted in an 8-fold increase in affinity, translating to a significant increase in in vitro neutralization potency and in vivo efficacy. While the parental antibody prolonged survival of mice challenged with purified α-cobratoxin, the optimized antibody prevented lethality when incubated with N. kaouthia whole venom prior to intravenous injection. This study is the first to demonstrate neutralization of whole snake venom by a single recombinant monoclonal antibody. Importantly, this suggests that for venoms whose toxicity relies on a single predominant toxin group, such as that of N. kaouthia, as little as one monoclonal antibody may be sufficient to prevent lethality, thus providing a tantalizing prospect of bringing recombinant antivenoms based on human monoclonal or oligoclonal antibodies to the clinic.One Sentence SummaryA recombinant human monoclonal immunoglobulin G antibody, discovered and optimized using in vitro methods, was demonstrated to neutralize the lethal effect of whole venom from the monocled cobra in mice via abrogation of α-neurotoxin-mediated neurotoxicity.

Published

2021

7. A comprehensive search of functional sequence space using large mammalian display libraries created by gene editing

Author

Edward W. Masters, Sophie Mayle, Daniel T. Griffiths, Maheen Sattar, John McCafferty, Rachael A. Leah, Yanchao Huang, Kothai Parthiban, Rajika L. Perera, Michael R. Dyson, and Sachin Surade

Subjects

Immunology, Programmed Cell Death 1 Receptor, Antibody Affinity, Locus (genetics), Computational biology, CHO Cells, Biology, Antibodies, Monoclonal, Humanized, TALE nuclease, gene targeting, Affinity maturation, 03 medical and health sciences, 0302 clinical medicine, Cricetulus, Genome editing, IgG antibody library, Report, Immunology and Allergy, CRISPR, Animals, Humans, Gene, CRISPR/Cas9, 030304 developmental biology, affinity maturation, Gene Editing, 0303 health sciences, human therapeutic antibody discovery, Mammalian display, Endodeoxyribonucleases, Cas9, Gene targeting, magnetic-activated cell sorting, Flow Cytometry, Complementarity Determining Regions, HEK293 Cells, 030220 oncology & carcinogenesis, Mutagenesis, Site-Directed, Paratope, Binding Sites, Antibody, CRISPR-Cas Systems, Immunoglobulin Heavy Chains, fluorescence-activated cell sorting

Abstract

The construction of large libraries in mammalian cells allows the direct screening of millions of molecular variants for binding properties in a cell type relevant for screening or production. We have created mammalian cell libraries of up to 10 million clones displaying a repertoire of IgG-formatted antibodies on the cell surface. TALE nucleases or CRISPR/Cas9 were used to direct the integration of the antibody genes into a single genomic locus, thereby rapidly achieving stable expression and transcriptional normalization. The utility of the system is illustrated by the affinity maturation of a PD-1-blocking antibody through the systematic mutation and functional survey of 4-mer variants within a 16 amino acid paratope region. Mutating VH CDR3 only, we identified a dominant “solution” involving substitution of a central tyrosine to histidine. This appears to be a local affinity maximum, and this variant was surpassed by a lysine substitution when light chain variants were introduced. We achieve this comprehensive and quantitative interrogation of sequence space by combining high-throughput oligonucleotide synthesis with mammalian display and flow cytometry operating at the multi-million scale.

Published

2019

8. Beyond affinity: selection of antibody variants with optimal biophysical properties and reduced immunogenicity from mammalian display libraries

Author

Rajika L. Perera, Edward W. Masters, Gordana Wozniak-Knopp, Maheen Sattar, Nels Thorsteinson, Johanna L Syrjanen, Kothai Parthiban, Philip C Jones, Deividas Pazeraitis, Florian Rueker, Michael R. Dyson, Rachael A. Leah, Sachin Surade, and John McCafferty

Subjects

Immunology, Cell, Antibody Affinity, Computational biology, Yeast display, Bococizumab, Antibodies, Monoclonal, Humanized, 03 medical and health sciences, 0302 clinical medicine, Genome editing, Report, medicine, Humans, Immunology and Allergy, antibody aggregation, Gene, Selection (genetic algorithm), 030304 developmental biology, 0303 health sciences, Mammalian display, antibody discovery, polyreactivity, biology, gene editing, Chemistry, Immunogenicity, biophysical antibody screening, antibody half-life, HEK293 Cells, medicine.anatomical_structure, 030220 oncology & carcinogenesis, biology.protein, antibody developability, Antibody, Cell Surface Display Techniques, polyspecificity, pharmacokinetics

Abstract

The early phase of protein drug development has traditionally focused on target binding properties leading to a desired mode of therapeutic action. As more protein therapeutics pass through the development pipeline; however, it is clear that non-optimal biophysical properties can emerge, particularly as proteins are formulated at high concentrations, causing aggregation or polyreactivity. Such late-stage “developability” problems can lead to delay or failure in traversing the development process. Aggregation propensity is also correlated with increased immunogenicity, resulting in expensive, late-stage clinical failures. Using nucleases-directed integration, we have constructed large mammalian display libraries where each cell contains a single antibody gene/cell inserted at a single locus, thereby achieving transcriptional normalization. We show a strong correlation between poor biophysical properties and display level achieved in mammalian cells, which is not replicated by yeast display. Using two well-documented examples of antibodies with poor biophysical characteristics (MEDI-1912 and bococizumab), a library of variants was created based on surface hydrophobic and positive charge patches. Mammalian display was used to select for antibodies that retained target binding and permitted increased display level. The resultant variants exhibited reduced polyreactivity and reduced aggregation propensity. Furthermore, we show in the case of bococizumab that biophysically improved variants are less immunogenic than the parental molecule. Thus, mammalian display helps to address multiple developability issues during the earliest stages of lead discovery, thereby significantly de-risking the future development of protein drugs.

Published

2020

9. Cross-reactive SARS-CoV-2 neutralizing antibodies from deep mining of early patient responses

Author

Kothai Parthiban, Sandra Ergueta-Carballo, Aneesh Karatt-Vellatt, Omodele Ashiru, Jacob D. Galson, David A. Matthews, Simon E. Hufton, Deividas Pazeraitis, Edward W. Masters, Claire Tebbutt, Richard Cowan, Mark D. Carr, Wing-Yiu Jason Lee, Sachin Surade, Paul E Pfeffer, Lucia Crippa, Line Ledsgaard, Sophie Millett, Richard J. C. Brown, Danielle Tongue, Emma M. Bentley, Lien Moreels, John McCafferty, Georgia Bullen, Ioannis Diamantopoulos, Krishna Chaitanya, David Tang, Matthew W. Bowler, Pedro Villar, Giada Mattiuzzo, Jane K. Osbourn, Kovilen Sawmynaden, Jamie Campbell, Rachael A. Leah, and Gareth Hall

Subjects

0301 basic medicine, Phage display, medicine.drug_class, Immunology, B-cell receptor, Biology, Antibodies, Viral, Monoclonal antibody, Epitope, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Blocking antibody, medicine, Data Mining, Humans, antibodies, Immunology and Allergy, COVID-19 Serotherapy, Original Research, SARS-CoV-2 variants, convergence, SARS-CoV-2, Immunization, Passive, breakpoint cluster region, Antibodies, Monoclonal, COVID-19, RC581-607, Antibodies, Neutralizing, Virology, 030104 developmental biology, Immunization, Spike Glycoprotein, Coronavirus, biology.protein, Immunologic diseases. Allergy, phage display, Antibody, Cell Surface Display Techniques, 030217 neurology & neurosurgery

Abstract

Passive immunization using monoclonal antibodies will play a vital role in the fight against COVID-19. The recent emergence of viral variants with reduced sensitivity to some current antibodies and vaccines highlights the importance of broad cross-reactivity. This study describes deep-mining of the antibody repertoires of hospitalized COVID-19 patients using phage display technology and B cell receptor (BCR) repertoire sequencing to isolate neutralizing antibodies and gain insights into the early antibody response. This comprehensive discovery approach has yielded a panel of potent neutralizing antibodies which bind distinct viral epitopes including epitopes conserved in SARS-CoV-1. Structural determination of a non-ACE2 receptor blocking antibody reveals a previously undescribed binding epitope, which is unlikely to be affected by the mutations in any of the recently reported major viral variants including B.1.1.7 (from the UK), B.1.351 (from South Africa) and B.1.1.28 (from Brazil). Finally, by combining sequences of the RBD binding and neutralizing antibodies with the B cell receptor repertoire sequencing, we also describe a highly convergent early antibody response. Similar IgM-derived sequences occur within this study group and also within patient responses described by multiple independent studies published previously.

Published

2021

10. Cocktails of human monoclonal IgG antibodies capable of neutralizing dendrotoxin-mediated neurotoxicity of black mamba venom in vivo

Author

Rachael A. Leah, Edward W. Masters, Jos Mar a Guti rrez, Daniel T. Griffiths, Urska Pus, Aneesh Karatt-Vellatt, Ana Silvia Arias, Saioa Oscoz, Cecilie Knudsen, Bruno Lomonte, Andreas Hougaard Laustsen, John McCafferty, Peter Slavny, Alice M. Luther, and Majken Lindholm

Subjects

biology, Chemistry, Neurotoxicity, Dendrotoxin, Venom, Pharmacology, Toxicology, biology.organism_classification, medicine.disease, Monoclonal IgG, Black mamba, In vivo, biology.protein, medicine, Antibody

Published

2019

11. Harnessing human monoclonal antibodies for neutralisation of dendrotoxins in a murine model

Author

Edward W. Masters, Majken L. Olesen, Cecilie Knudsen, Daniel T. Griffiths, Jos Mar a Guti rrez, John McCafferty, Aneesh Karatt-Vellatt, rška Puš, Peter Slavny, Ana Silvia Arias, Rachael A. Leah, Saioa Oscoz, Bruno Lomonte, Alice M. Luther, and Andreas Hougaard Laustsen

Subjects

Chemistry, Murine model, medicine.drug_class, medicine, Toxicology, Monoclonal antibody, Virology, Neutralization

Published

2019

12. Harnessing phage display technology for generating fully human IgG antibodies that neutralise elapid neurotoxins

Author

Rachael A. Leah, Cecilie Knudsen, Alice M. Luther, José María Gutiérrez, Daniel T. Grifiths, John McCafferty, Edward W. Masters, Majken L. Olesen, Urska Pus, Saioa Oscoz, Aneesh Karatt-Vellatt, Peter Slavny, Andreas Hougaard Laustsen, and Bruno Lomonte

Subjects

Phage display, biology.protein, Biology, Antibody, Toxicology, Virology

Published

2019