Inflammatory Bowel Disease Clinical Trial
Official title:
Studying the Role of B Cells in Inflammatory Bowel Disease (IBD), Using a Combination of Experimental and Bioinformatical Techniques.
Our overall objective in this study is to study the role of B cells in inflammatory bowel
disease (IBD), using a combination of high-throughput experimental and novel bioinformatical
techniques.
Idiopathic IBD includes Crohn's disease (CD) and Ulcerative Colitis (UC), which are chronic
inflammatory disorders of the intestine. IBD is common in developed countries, with up to 1
in 200 of individuals affected by theses diseases. It is currently thought that the disease
arises owing to a complex array of genetic, environmental and immunologic susceptibility
factors. T cells are thought to cause the lesions, but the B cell population apparently has
a significant role as well, through secreting antibodies against certain self-antigens. We
believe that a major contribution to the understanding of the pathogenesis of IBD, and
especially of the immune pathway leading to CD, can be achieved by analysis of the B cell
clones participating in immune responses in the gut, in particular their immunoglobulin (Ig)
variable region gene diversity, which has never before been studied in the context of IBD.
The adaptive immune system is one of the only two biological systems capable of continuously
learning and memorizing its experiences. This is a highly complex, distributed system, in
which pathogen recognition, decision-making and action are performed by an interacting
network of diverse lymphocytes. Immune learning and memory are embedded in the dynamical
states of the complete lymphocyte repertoire, and cannot be understood by studying the
behavior of single cell types. This complexity, further increased by the non-linear behavior
of each component, can only be elucidated by using theoretical tools to complement
experimental and clinical studies. Needless to say, many aspects of the deregulation of
lymphocyte clones are not evident in the phenotype of the single cell but rather in the
population dynamics of a whole clone (or many clones) of cells, as in B cell lymphomas. Such
aspects are best elucidated by studies of the population dynamics and genetics of the
relevant B cell clone(s).
In this study, we propose to utilize a novel bioinformatical approach – the analysis of the
shapes of Ig gene mutational lineage trees. This is the main innovative feature in our
proposal, as it taps into parameters that have never before been measured or analyzed with
respect to B lymphocytes in IBD. While the method is new, it has already been shown that
graphical analysis of B cell lineage trees and mathematical quantification of tree
properties provide novel insights into the mechanisms of normal and malignant B cell clonal
evolution. A preliminary analysis of lineage trees from other autoimmune diseases (shown
below) indicates that, given sufficient amounts of data, the method could elucidate changes
in Ig gene diversification and selection in IBD patients.
Moreover, we aim to search for correlations between the parameters characterizing Ig gene
diversification and parameters characterizing patients, disease history and severity, and
histological markers, as this has the potential of yielding novel diagnostic and prognostic
tools.
1. Extraction of Ig gene sequences from IBD patient gut samples. The proposed study aims
to elucidate the role of B cells in IBD via investigating their Ig gene
diversification. Hence the first step should be to extract Ig gene sequences from
samples (cases of resection procedure) archived in the pathology laboratory of the
Sheba Medical Center. Samples from both CD and UC cases will be used, DNA will be
extracted and Ig gene sequences will be amplified via PCR, in order to generate
sufficient data for the bioinformatical analysis. Samples from inflamed gut segments
will be compared to samples from uninflamed segments (where available), in order to
provide an internal control for the comparison of IBD-related and unrelated B cell
clones.
2. Investigation of the repertoire and the degree of clonality in B cells implicated in
IBD, based on the sequences extracted under aim (1).
We assume that B cells involved in a chronic disease state undergo Ig gene
diversification for much longer times than B cells in normal short-term immune
responses, and hence Ig gene sequences from IBD-related B cells will exhibit a high
degree of clonality. There may also be biases in specific Ig variable region (V) gene
segment usage, as has been observed in other chronic diseases. Hence, the sequences
obtained under aim (1) will be aligned with human germline V segment sequences, in
order to identify any possible biases in V segment usage, and to identify clonal
relationships between sets of sequences from the same patient. Since even gut samples
from healthy humans contain many clonally related Ig gene sequences (see below), we
expect to find many such clonal sequences in most samples.
3. Elucidation of the dynamics of the responding B cell clones, using lineage tree
analysis of clonal Ig gene sequences found under aim (2).
Sets of clonally-related Ig gene sequences discovered under aim (3) will be subjected
to lineage tree analysis using the methods developed by the Mehr group. The results of
this analysis will point at the differences between IBD-related and unrelated B cell
clones in the dynamics of somatic hypermutation and antigen-driven selection.
4. Search for correlations between the parameters resulting from lineage tree analysis
(aim 3) and clinical and patient parameters.
A particularly interesting question is whether the parameters generated by lineage tree
analysis of Ig gene sequences are correlated with clinical parameters describing the
patients (e.g. age, gender), the course of the disease (e.g. age of onset, disease duration,
symptom severity) and histological characteristics. We expect that analysis of these two
types of data (bioinformatical and clinical) will reveal quite a few correlations, and that
based on these correlations we may be able to enhance the set of diagnostic and prognostic
tools currently available to clinicians specializing in IBD.
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Observational Model: Defined Population, Time Perspective: Cross-Sectional
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