Inflammation Viral Infections Cytokines T Cells Antibodies Vaccine Efficacy Macrophages Tumor Microenvironment Innate Immunity Transplant Rejection Antibody Response Antibody Production B Cells Allergic Reactions Immune Amnesia Vaccination Natural Killer Cells Pathogen Interaction Vaccine-Induced Immunity Viral Mutations Tumor Immunology Pathogen Evasion Viral Evasion Viral Reactivation Neuroscience Virtual Reality Neutrophils Vaccine Evasion Cancer Immunotherapy Fever Vulnerable Populations Immunoglobulin E Vaccination Efficacy Microbial Metabolism Dendritic Cells Cellular Immunity Vaccine Mechanisms Memory Cells Pregnancy Allergens T Cell Activation Autoimmunity Type 2 Immunity Neuroimmune Interactions Pain Sensation Visual Cues Neurons Immunomodulation Neuroimmunology Anticipatory Behavior DNA Repair Innate Immune System T-Helper Cells Infection Fungal Virulence Factors Autoimmune Diseases Innate Lymphoid Cells Sex Differences T-Cells IgE Antibodies Spleen Function DNA Damage T Follicular Helper Cells T-cells Pro-inflammatory Cytokines Helper T Cells Cancer Detection Interferon Response Antibody-Mediated Rejection Vaccine Effectiveness Interferon Cancer Immunology T-regulatory Cells Myeloid Cells Clinical Trials Immune Dysfunction COVID-19 Immune Rejection Chronic Conditions Virus Mutations Venom Immunology Cellular Subtypes Vaccination Strategies Antibody-Dependent Cellular Cytotoxicity Probiotics Aging Immunosenescence Temperature Effects Cell Communication Age-related Differences Systemic Reactions Nitric Oxide Infectious Diseases Memory Immunity Environmental Factors Th1 Cells T-cell Response Local Immune Response Fatty Acid Metabolism Adjuvants
Depleting these intestinal immune cells or blocking T cells reduced brain pathology and motor problems in the experiments.
