Sequencing B cell receptor repertoires in human disease: applications in myalgic encephalomyelitis/chronic fatigue syndrome and in experimental malaria infection
dc.contributor.advisor
Cowan, Graeme
dc.contributor.advisor
Ponting, Chris
dc.contributor.author
Ryback, Audrey
dc.contributor.sponsor
Wellcome Trust
en
dc.date.accessioned
2024-03-06T15:26:41Z
dc.date.available
2024-03-06T15:26:41Z
dc.date.issued
2024-02-13
dc.description.abstract
The human adaptive immune system has the capacity to respond to any potential pathogen,
to fine-tune the specificity of this response upon encountering an antigen, and commit
the effective B or T cells to immune memory. This specificity relies on selecting antigenbinders
from a vastly diverse pool of B cell receptors (BCRs) produced by VDJ gene
segment recombination and junctional diversification during B cell development, and
affinity maturation upon encounter with a cognate antigen. Adaptive Immune Receptor
Repertoire sequencing (AIRRseq) enables us to characterise features of B cell populations
by sequencing BCRs. In this thesis AIRRseq was used to investigate properties of the
human BCR repertoire in two different disease settings. We also attempted to improve
on existing methods for BCR-antigen mapping, which would address a major limitation of
current AIRRseq analyses.
Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) is a common chronic
illness with unknown aetiology and characterised uniquely by the exacerbation of symptoms
following exertion. Chronic infection and autoimmunity have been proposed as two
mechanisms that potentially underlie the pathology of ME/CFS. We compared the BCR
repertoires of 25 patients with mild-moderate ME, 36 patients with severe ME, 21 healthy
controls and 28 patients with Multiple Sclerosis to see if we could find signatures of
infection or autoimmune responses. ME patients did not display increased clonality
or differential somatic hypermutation compared to healthy controls and patients with
Multiple Sclerosis. One of two V genes reported to be differentially used in ME patients
in a previous study, was replicated in patients with mild/moderate disease. There were no
obvious differences in affinity maturation in the ME cohort, but we observed skewing of
the ratio of IgM to IgG BCRs in a majority of ME patients.
The second chapter explores a cohort of seven volunteers undergoing a first and second
homologous challenge with Plasmodium falciparum. The BCR repertoires of volunteers
infected with malaria displayed clonal expansion and somatic hypermutation of repertoires in a primary challenge but, upon re-challenge, we did not observe any signatures of clonal
expansion or recurrence of clones expanded in the first challenge. Twenty-eight days post
challenge, volunteers showed a trend towards an enrichment of unmutated IgG B cell
receptors in their repertoires and this signature was enhanced in the second infection.
This was an unexpected finding that warrants further investigation.
Finally, we attempted optimisation of a protocol to pair native B cell receptor heavy
and light chains as expression-ready scFv libraries for phage display at high throughput in a
user-friendly microfluidics system. While significant progress was made with improving on
existing protocols and developing the method, including making a low-cost alternative to a
commercially available droplet generator to generate uniform and stable emulsions at high
throughput, the full reactions to pair native heavy and light chains in single cell reactions
were not achieved. The work described here provides a basis for future lab members to
fully optimise the reactions and will allow the lab to interrogate the antigen specificity of
sequenced BCR repertoires in future. Taken together, these three chapters explore the
uses and limitations of state-of-the-art BCR repertoire sequencing, and generated and
analysed two high-quality BCR repertoire datasets.
en
dc.identifier.uri
https://hdl.handle.net/1842/41600
dc.identifier.uri
http://dx.doi.org/10.7488/era/4332
dc.language.iso
en
en
dc.publisher
The University of Edinburgh
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dc.subject
antigens
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dc.subject
B cell receptor repertoire
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dc.subject
BCR repertoires
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dc.subject
Myalgic Encephalomyelitis
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dc.subject
Chronic Fatigue Syndrome
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dc.subject
autoimmunity
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dc.subject
malaria exposure
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dc.subject
VDJ gene segment recombination
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dc.subject
Adaptive Immune Receptor Repertoire sequencing
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dc.subject
AIRRseq
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dc.subject
IgG B cell receptors
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dc.title
Sequencing B cell receptor repertoires in human disease: applications in myalgic encephalomyelitis/chronic fatigue syndrome and in experimental malaria infection
en
dc.type
Thesis or Dissertation
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dc.type.qualificationlevel
Doctoral
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dc.type.qualificationname
PhD Doctor of Philosophy
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