Abstract
Natalizumab (NTZ) and autologous hematopoietic stem cell transplantation (AHSCT) are two successful treatments for relapsing-remitting multiple sclerosis (RRMS), an autoimmune T-cell-driven disorder affecting the central nervous system that is characterized by relapses interspersed with periods of complete or partial recovery. Both RRMS treatments have been documented to impact T-cell subpopulations and the T-cell receptor (TCR) repertoire in terms of clone frequency, but, so far, the link between T-cell naive and memory populations, autoimmunity, and treatment outcome has not yet been established hindering insight into the post-treatment TCR landscape of MS patients. To address this important knowledge gap, we tracked peripheral T-cell subpopulations (naïve and memory CD4+ and CD8+) across 15 RRMS patients before and after two years of continuous treatment (NTZ) and a single treatment course (AHSCT) by high-throughput TCRß sequencing. We found that the two MS treatments left treatment-specific multidimensional traces in patient TCRß repertoire dynamics with respect to clonal expansion, clonal diversity and repertoire architecture. Comparing MS TCR sequences with published datasets suggested that the majority of public TCRs belonged to virus-associated sequences. In summary, applying multi-dimensional computational immunology to a TCRß dataset of treated MS patients, we show that qualitative changes of TCRß repertoires encode treatment-specific information that may be relevant for future clinical trials monitoring and personalized MS follow-up, diagnosis and treatment regimes. Natalizumab (NTZ) and autologous hematopoietic stem cell transplantation (AHSCT) are two successful treatments for relapsing–remitting multiple sclerosis (RRMS), an autoimmune T-cell–driven disorder affecting the central nervous system that is characterized by relapses interspersed with periods of complete or partial recovery. Both RRMS treatments have been documented to impact T-cell subpopulations and the T-cell receptor (TCR) repertoire in terms of clone frequency, but, so far, the link between T-cell naive and memory populations, autoimmunity, and treatment outcome has not yet been established hindering insight into the posttreatment TCR landscape of MS patients. To address this important knowledge gap, we tracked peripheral T-cell subpopulations (naive and memory CD4+ and CD8+) across 15 RRMS patients before and after 2 years of continuous treatment (NTZ) and a single treatment course (AHSCT) by high-throughput TCRβ sequencing. We found that the two MS treatments left treatment-specific multidimensional traces in patient TCRβ repertoire dynamics with respect to clonal expansion, clonal diversity, and repertoire architecture. Comparing MS TCR sequences with published datasets suggested that the majority of public TCRs belonged to virus-associated sequences. In summary, applying multidimensional computational immunology to a TCRβ dataset of treated MS patients, we show that qualitative changes of TCRβ repertoires encode treatment-specific information that may be relevant for future clinical trials monitoring and personalized MS follow-up, diagnosis, and treatment regimens.
Highlights
Multiple sclerosis (MS) is a heterogeneous, organ-specific, inflammatory disease where peripheral, myelin-autoreactive T cells migrate into the central nervous system (CNS) leading to demyelination
From 15 RRMS patients, we sequenced the TCRβ from T-cell subpopulations [naive, effector memory (EM), central memory (CM) CD4+ and CD8+ and terminally differentiated EM (TEMRA) CD8+ for NTZ; naive and memory CD4+ and CD8+ for AHSCT] sorted from peripheral blood mononuclear cells (PBMCs) before (t0) and after 24 months (t24) of treatment, obtaining a total number of 57,330,057 reads and 1,500,769 total number of V-CDR3-J a.a. clones
Our results show at t24 a significantly less diverse T-cell receptor (TCR) repertoire of CD8+ naive cells of NTZ patients compared to AHSCT (Figure 1C)
Summary
Multiple sclerosis (MS) is a heterogeneous, organ-specific, inflammatory disease where peripheral, myelin-autoreactive T cells migrate into the central nervous system (CNS) leading to demyelination. It is currently the most widespread autoimmune neurological disease, affecting ∼2.5 million people worldwide [1]. 85% of patients are first diagnosed with relapsing–remitting MS (RRMS), and the majority of them are young women [2]. Relapsing–remitting MS is characterized by relapses or exacerbations followed by a period of complete or partial remission lasting from a few days to several months. Over the last 25 years, the immunotherapy of MS and other autoimmune disorders has made considerable progress. Besides first-line treatments that mainly act as immunosuppressants, some of the developed medications are able to rebuild the immune system, inducing profound changes in the lymphocyte repertoire accompanied by long-term therapeutic effects [3]
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