Personalized Immunotherapy for Tumor Diseases and Beyond

Table of Contents

Preface

List of Contributors

Introduction

Chapter 1 Mhc and Cancer Immunotherapy

• Overview of Mhc Genes and Molecules

1. Characteristics of the Hla Gene Complex
2. Hla Molecule Structure
3. Distribution and Function of Hla Molecules
4. Mhc Allele Detection

• Mhc Class I Molecular Loss and Cancer Immunotherapy

1. Loss of Class I Hla Expression in Tumor Tissues
2. Types of Class I Hla Deletion.
3. Expression of Class I Hla Molecules and Efficiency of Immunotherapy
4. the Relation Between Selective Pressure of Immunocyte and Changes of Class-I Hla

• Expression Pattern in Tumor Cells
• Expression Levels of Nonclassical Mhc Class I and Tumor Immune
• Escape

1. the Hla Class I Antigen Expression and Cancer
2. Roles of Hla Ib Antigens in Immune Modulation
3. Clinical Relevance of Hla Ib Expression in Cancers
4. Prospective of Hla-E and Hla-G Targeted Cancer Immunotherapy

• Mhc for T-Cell Epitope and Active Immune Vaccines
• Mhc for Adoptive Immune Cell Therapy
• Conclusion
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 2 Immune Cells Signaling-Pathway and Genomic Profiles for Personalized Immunotherapy

• Introduction
• T-Cell Membrane Signaling
• T-Cells Pathway and Networks
• Genomic Expression Profile of T-Cells

1. Genomic Expression Profiles of Til
2. Genomic Expression Profiles from Peripheral Blood Immune Cells

• Genomic Expression Profile of B-Cell

1. Genomic Expression Profiles of B-Lymphocyte
2. Network of B-Lymphocyte

• Genomic Expression Profile and Network of Nk-Cell

1. Nk-Lymphocyte
2. Genomic Expression Profiles of Nk-Lymphocyte
3. Network of Nk-Lymphocyte

• Li-Hua Jiang and Wei-Hua Yan
• Wei Zhang, Yan Qu, Meihua Lin, Amit Datta, George E. Liu and Biaoru Li

1. Nkt-Lymphocyte
2. Genomic Expression Profiles and Network of Nkt-Lymphocyte

• Genomic Expression Profile of Macrophage

1. Macrophage
2. Genomic Expression Profiles and Network of Macrophages

• Conclusion
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 3 Immunoassay of Personalized Immunotherapy

• Introduction
• Basic Record of Immune Function and Response
• Delayed-Type Hypersensitivity in Vivo
• Measures of Immune Function Ex Vivo

1. Detection of T-Cell Number with Intracellular Cytokines by Flow Cytometry
2. Detection of Secreted Cytokines by Elisa Assays
3. Lymphoproliferation Assay
4. Ctl and Quantifying Ctl

• Measures of Antigen-Specific Immune Responses in Vitro/Ex Vivo

1. Peptide Mhc Tetramers
2. Tcr Complementarity Determining Region

• Measurement of Cytokine Mrna
• Measurement of Tumor Antibodies
• Measurement of Immune Targets for Immunotherapy
• Measuring Inhibitory and Activating Receptors by Ihc Staining
• Measurement of Mrna and Snps in Inhibitory and Activating Receptor
• Measuring Inhibitory Receptors by Elisa or Facs at the Cell Level

1. Detection of Inhibitory Receptors by Flow Cytometry
2. Detection of Inhibitory Receptors by Elisa Assays

• Technical Consideration and Standardization
• Conclusion
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 4 Tumor Microenvironment, Ado/Ido Pathway-Foundation of Personalized Immunotherapy

• Introduction
• Extracellular Matrix with Network
• Regulating Cells

1. Tumor-Associated Macrophages
2. Neutrophils
3. Tumor-Infiltrating Lymphocytes
4. Carcinoma Associated Fibroblasts

• Myeloid-Derived Suppressor Cells (Mdsc)
• Regulating Molecules

1. Ado Regulating Pathways

• Li-Hua Jiang and Biaoru Li
• Xiao Zhu, Lihua Jiang and Biaoru Li
• Genomic Expression Profile of Nkt-Cell

2. Ido Regulating Pathways

• Therapeutic Targets with Their Agents

1. Therapies Antibodies and Kinase Inhibitors
2. Therapeutic Targets of Ado Pathway
3. Therapeutic Targets of Ido Pathway
4. Other Ways of Tme Therapy

• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 5 Molecular Targeting Checkpoint in Cancer-Foundation of Personalized Immunotherapy

• Introduction
• Molecular Targeting Checkpoint Inhibitors
• Pd-1/Pd-L1
• Ctla-4
• Tim-3
• Lag-3
• Siglec-15
• Application of Molecular Targeting Checkpoint Inhibitors
• Small Cell Lung Cancer
• Non-Small Cell Lung Cancer (Nsclc)
• Hepatocellular Carcinoma (Hcc) (For Pdl1)
• Melanoma
• Kidney Cancer
• Problem
• Conclusion and Perspective
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 6 Molecular Screening and Neoantigen Cloningfundamental

• Of Adoptive T-Cell Immunotherapy
• Introduction
• Molecular Screening Neoantigen and Mutants

1. Phage Display Screen System
2. Scfv Screening
3. Tcr Screening
4. Yeast Two-Hybrid Screening
5. Molecular Technique Supporting Genomics and Bioinformatics
6. Other Screenings of Molecular Biology

• Molecular Constructs

1. Car Design and Constructs
2. Specific Tcr Design
3. Specific T-Cell and Constructs

• Vector Selection for Gene Package and Delivery
• Conclusion
• Consent for Publication
• Shuzhen Tan and Xiao Zhu
• Wei Zhang, George Liu, Emmanuelle Devemy and Biaoru Li
• Conflict of Interest
• Acknowledgements
• References

Chapter 7 Primary Cell Culture and T-Cell Cloning -Fundamental of Adoptive T-Cell Immunotherapy

• Introduction
• Personalized Muiltiple Dimensional Culture System

1. 2-D Primary Cell Culture
2. Humanized Animal Model by Primary Tumor Cells
3. Basic 3-D Primary Tumor Cell Culture
4. 3-D Bio-Printing Primary Tumor Cell and Tissue Culture
5. Multiple D Primary Tumor Cell Culture

• T-Cell Cloning with Culture

1. Til Culture with Til Polyclonal Strategy and Techniques
2. Specific Peptides Pulsed Dendritic Cells (Dc) Co-Culture Cd8+Cell with Ctl Cell

• Cloning and Culture

3. Shared Antigen Car and Tcr T-Cell Construct with Cloning Culture
4. Genomic Supporting Patient's Neoantigen-Specific Car T-Cell and Tcr T-Cell

• Construction with Their Cloning Culture

5. Genomic Supporting Functional Til with Their Polyclonal Cultures

• Cytokines of Specific T-Cell Therapy
• Conclusion
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 8 Bioinformatics of T-Cell and Primary Tumor Cellsfundamental

• Of Adoptive T-Cell Immunotherapy
• Introduction
• Workflow of Tumor Sampling with Snp and Genomic Analysis

1. Clinical Tumor Sampling to the Isolation of Tumor Cells and Til

• Tumor Gwas and Genomic Profile with Analysis

1. Snp Detection and Analysis
2. Detection of Genomic Expression

• System Modeling for Tumor Cells and Tils

1. System Modeling of a Network to Discover Ges
2. Ges Determining Targets

• Neoantigen Analysis and Determination
• Bioifnroamtics Integration for T-Cell Targets
• Successful System Biology Integration for Functional
• Polyclonal Til Targets
• Conclusion
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References
• Biaoru Li, Supriya Perabekam, Alan Larson and Hong-Liang Hu
• George Liu, Jie Zheng and Biaoru Li

Chapter 9 Development of Adoptive T-Cell Immunotherapy-Future of Personalized Immunotherapy

• Introduction
• History and Development of Immune Therapy

1. Development of Til Culture Procedures for Clinical Application
2. Development of Tils Clinical Application
3. Tils Clinical Location Administration
4. Immune Cell Therapy Beyond Tils

• Development and Application of Nk Cells

5. Development of Nk Cells Culture
6. Development of a Clinical Application for Nk Immunotherapy
7. Research and Development of Autologous Lymphocytes

• Current Consideration After Completion of Clinical Trials
• Future of Adoptive T-Cell Immunotherapy
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 10 Gene Therapy and Genomic Editing-Development of Adoptive T-Cell Immunotherapy

• Introduction
• Development of Vectors of Clinical Gene Therapy
• Background of Gene Editing for Adoptive T-Cell Immunotherapy 164
• Application of Gene Editing for T-Cell Immunotherapy

1. Gene Editing of T-Cells as a Universal Donor
2. Biomarker Depletion of Allogeneic Stem Cell to Support Car-T Biomarker of Non-

• Specific Targets

3. Depletion of Immunosuppression for T-Cell Function

• Conclusion
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Chapter 11 Genetically Modified T-Cells Affinity to Tumor Cellsdevelopment

• Of Adoptive T-Cell Immunotherapy
• Introduction
• History and Development of Tcr and Car Immune Therapy
• Generation of Clinically Effective Tcr T-Cell and Car T-Cells
• Clinical Trials of Tcr T-Cell and Car T-Cell
• Company Products of Car T-Cell and Tcr T-Cell
• Future of Car T-Cell and Tcr T-Cell
• Consent for Publication
• Conflict of Interest
• Acknowledgements
• References

Author

• Biaoru Li
• Alan Larson
• Shen Li