Computational Strategies for Dissecting the High-Dimensional Complexity of Adaptive Immune Repertoires

Enkelejda Miho; Alexander Yermanos; Cédric R Weber; Christoph T Berger; Sai T Reddy; Victor Greiff

doi:10.3389/fimmu.2018.00224

Computational Strategies for Dissecting the High-Dimensional Complexity of Adaptive Immune Repertoires

Enkelejda Miho, Alexander Yermanos, Cédric R Weber, Christoph T Berger, Sai T Reddy, Victor Greiff^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

Abstract

The adaptive immune system recognizes antigens via an immense array of antigen-binding antibodies and T-cell receptors, the immune repertoire. The interrogation of immune repertoires is of high relevance for understanding the adaptive immune response in disease and infection (e.g., autoimmunity, cancer, HIV). Adaptive immune receptor repertoire sequencing (AIRR-seq) has driven the quantitative and molecular-level profiling of immune repertoires, thereby revealing the high-dimensional complexity of the immune receptor sequence landscape. Several methods for the computational and statistical analysis of large-scale AIRR-seq data have been developed to resolve immune repertoire complexity and to understand the dynamics of adaptive immunity. Here, we review the current research on (i) diversity, (ii) clustering and network, (iii) phylogenetic, and (iv) machine learning methods applied to dissect, quantify, and compare the architecture, evolution, and specificity of immune repertoires. We summarize outstanding questions in computational immunology and propose future directions for systems immunology toward coupling AIRR-seq with the computational discovery of immunotherapeutics, vaccines, and immunodiagnostics.

Original language	English
Article number	224
Pages (from-to)	224
Journal	Frontiers in Immunology
Volume	9
Issue number	FEB
DOIs	https://doi.org/10.3389/fimmu.2018.00224
Publication status	Published - 2018
Externally published	Yes

Keywords

Adaptive Immunity/immunology
Animals
Autoimmune Diseases/immunology
Computational Biology/instrumentation
Data Interpretation, Statistical
HIV Infections/immunology
High-Throughput Nucleotide Sequencing/methods
Humans
Machine Learning
Neoplasms/immunology
Receptors, Immunologic/genetics
Signal Transduction/immunology
Software

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10.3389/fimmu.2018.00224

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title = "Computational Strategies for Dissecting the High-Dimensional Complexity of Adaptive Immune Repertoires",

abstract = "The adaptive immune system recognizes antigens via an immense array of antigen-binding antibodies and T-cell receptors, the immune repertoire. The interrogation of immune repertoires is of high relevance for understanding the adaptive immune response in disease and infection (e.g., autoimmunity, cancer, HIV). Adaptive immune receptor repertoire sequencing (AIRR-seq) has driven the quantitative and molecular-level profiling of immune repertoires, thereby revealing the high-dimensional complexity of the immune receptor sequence landscape. Several methods for the computational and statistical analysis of large-scale AIRR-seq data have been developed to resolve immune repertoire complexity and to understand the dynamics of adaptive immunity. Here, we review the current research on (i) diversity, (ii) clustering and network, (iii) phylogenetic, and (iv) machine learning methods applied to dissect, quantify, and compare the architecture, evolution, and specificity of immune repertoires. We summarize outstanding questions in computational immunology and propose future directions for systems immunology toward coupling AIRR-seq with the computational discovery of immunotherapeutics, vaccines, and immunodiagnostics.",

keywords = "Adaptive Immunity/immunology, Animals, Autoimmune Diseases/immunology, Computational Biology/instrumentation, Data Interpretation, Statistical, HIV Infections/immunology, High-Throughput Nucleotide Sequencing/methods, Humans, Machine Learning, Neoplasms/immunology, Receptors, Immunologic/genetics, Signal Transduction/immunology, Software",

author = "Enkelejda Miho and Alexander Yermanos and Weber, {C{\'e}dric R} and Berger, {Christoph T} and Reddy, {Sai T} and Victor Greiff",

note = "Publisher Copyright: {\textcopyright} 2018 Miho, Yermanos, Weber, Berger, Reddy and Greiff.",

year = "2018",

doi = "10.3389/fimmu.2018.00224",

language = "English",

volume = "9",

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AU - Miho, Enkelejda

AU - Yermanos, Alexander

AU - Weber, Cédric R

AU - Berger, Christoph T

AU - Reddy, Sai T

AU - Greiff, Victor

PY - 2018

Y1 - 2018

N2 - The adaptive immune system recognizes antigens via an immense array of antigen-binding antibodies and T-cell receptors, the immune repertoire. The interrogation of immune repertoires is of high relevance for understanding the adaptive immune response in disease and infection (e.g., autoimmunity, cancer, HIV). Adaptive immune receptor repertoire sequencing (AIRR-seq) has driven the quantitative and molecular-level profiling of immune repertoires, thereby revealing the high-dimensional complexity of the immune receptor sequence landscape. Several methods for the computational and statistical analysis of large-scale AIRR-seq data have been developed to resolve immune repertoire complexity and to understand the dynamics of adaptive immunity. Here, we review the current research on (i) diversity, (ii) clustering and network, (iii) phylogenetic, and (iv) machine learning methods applied to dissect, quantify, and compare the architecture, evolution, and specificity of immune repertoires. We summarize outstanding questions in computational immunology and propose future directions for systems immunology toward coupling AIRR-seq with the computational discovery of immunotherapeutics, vaccines, and immunodiagnostics.

AB - The adaptive immune system recognizes antigens via an immense array of antigen-binding antibodies and T-cell receptors, the immune repertoire. The interrogation of immune repertoires is of high relevance for understanding the adaptive immune response in disease and infection (e.g., autoimmunity, cancer, HIV). Adaptive immune receptor repertoire sequencing (AIRR-seq) has driven the quantitative and molecular-level profiling of immune repertoires, thereby revealing the high-dimensional complexity of the immune receptor sequence landscape. Several methods for the computational and statistical analysis of large-scale AIRR-seq data have been developed to resolve immune repertoire complexity and to understand the dynamics of adaptive immunity. Here, we review the current research on (i) diversity, (ii) clustering and network, (iii) phylogenetic, and (iv) machine learning methods applied to dissect, quantify, and compare the architecture, evolution, and specificity of immune repertoires. We summarize outstanding questions in computational immunology and propose future directions for systems immunology toward coupling AIRR-seq with the computational discovery of immunotherapeutics, vaccines, and immunodiagnostics.

KW - Adaptive Immunity/immunology

KW - Animals

KW - Autoimmune Diseases/immunology

KW - Computational Biology/instrumentation

KW - Data Interpretation, Statistical

KW - HIV Infections/immunology

KW - High-Throughput Nucleotide Sequencing/methods

KW - Humans

KW - Machine Learning

KW - Neoplasms/immunology

KW - Receptors, Immunologic/genetics

KW - Signal Transduction/immunology

KW - Software

U2 - 10.3389/fimmu.2018.00224

DO - 10.3389/fimmu.2018.00224

M3 - Review article

C2 - 29515569

SN - 1664-3224

VL - 9

SP - 224

JO - Frontiers in Immunology

JF - Frontiers in Immunology

IS - FEB

M1 - 224

ER -

Computational Strategies for Dissecting the High-Dimensional Complexity of Adaptive Immune Repertoires

Abstract

Keywords

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