B Cells and Antibodies



Similar documents
HUMORAL IMMUNE RE- SPONSES: ACTIVATION OF B CELLS AND ANTIBODIES JASON CYSTER SECTION 13

B cell activation and Humoral Immunity

Activation and effector functions of HMI

specific B cells Humoral immunity lymphocytes antibodies B cells bone marrow Cell-mediated immunity: T cells antibodies proteins

LESSON 3: ANTIBODIES/BCR/B-CELL RESPONSES

2) Macrophages function to engulf and present antigen to other immune cells.

Microbiology AN INTRODUCTION EIGHTH EDITION

Name (print) Name (signature) Period. (Total 30 points)

B Cell Generation, Activation & Differentiation. B cell maturation

Antibody Structure, and the Generation of B-cell Diversity CHAPTER 4 04/05/15. Different Immunoglobulins

Chapter 43: The Immune System

ANIMALS FORM & FUNCTION BODY DEFENSES NONSPECIFIC DEFENSES PHYSICAL BARRIERS PHAGOCYTES. Animals Form & Function Activity #4 page 1

Autoimmunity and immunemediated. FOCiS. Lecture outline

The Body s Defenses CHAPTER 24

The Immune System: A Tutorial

Overview. Transcriptional cascades. Amazing aspects of lineage plasticity. Conventional (B2) B cell development

Basics of Immunology

The Immune System. 2 Types of Defense Mechanisms. Lines of Defense. Line of Defense. Lines of Defense

Recognition of T cell epitopes (Abbas Chapter 6)

Effector Mechanisms of Humoral Immunity

Antibody Function & Structure

Immunology. B lymphocytes & Antibodies , Ruhr-Universität Bochum Marcus Peters, marcus.peters@rub.de

CONTENT. Chapter 1 Review of Literature. List of figures. List of tables

Chapter 5: Organization and Expression of Immunoglobulin Genes

T Cell Maturation,Activation and Differentiation

Hapten - a small molecule that is antigenic but not (by itself) immunogenic.

Pulling the Plug on Cancer Cell Communication. Stephen M. Ansell, MD, PhD Mayo Clinic

1) Siderophores are bacterial proteins that compete with animal A) Antibodies. B) Red blood cells. C) Transferrin. D) White blood cells. E) Receptors.

Chapter 3. Immunity and how vaccines work

TEMA 10. REACCIONES INMUNITARIAS MEDIADAS POR CÉLULAS.

Asthma (With a little SCID to start) Disclosures Outline Starting with the Immune System The Innate Immune System The Adaptive Immune System

Guidance for Industry

10. T and B cells are types of a. endocrine cells. c. lymphocytes. b. platelets. d. complement cells.

Lymph capillaries, Lymphatic collecting vessels, Valves, Lymph Duct, Lymph node, Vein

How do plasma cells survive

Supplemental Material CBE Life Sciences Education. Su et al.

Bio 20 Chapter 11 Workbook Blood and the Immune System Ms. Nyboer

OKT3. ~ The first mouse monoclonal antibody. used in clinical practice in the field of transplantation ~

Types, production of antibodies and Antibody/antigen interaction

ELISA BIO 110 Lab 1. Immunity and Disease

Natalia Taborda Vanegas. Doc. Sci. Student Immunovirology Group Universidad de Antioquia

Immunity and how vaccines work

Chapter 14: The Lymphatic System and Immunity

Staph Protein A, Immune Complexes, Cryoglobulins, and the Treatment of Rheumatoid Arthritis:

CHAPTER 9 IMMUNOGLOBULIN BIOSYNTHESIS

The immune system. Bone marrow. Thymus. Spleen. Bone marrow. NK cell. B-cell. T-cell. Basophil Neutrophil. Eosinophil. Myeloid progenitor

MULTIPLE MYELOMA. Dr Malkit S Riyat. MBChB, FRCPath(UK) Consultant Haematologist

Chapter 16: Innate Immunity

Making the switch to a safer CAR-T cell therapy

Cancer Immunotherapy: Can Your Immune System Cure Cancer? Steve Emerson, MD, PhD Herbert Irving Comprehensive Cancer Center

Core Topic 2. The immune system and how vaccines work

Anti-CD38 anti-cd3 bispecific antibody in multiple myeloma

EMABling Antibody Production Platform

Figure 14.2 Overview of Innate and Adaptive Immunity

One of the more complex systems we re looking at. An immune response (a response to a pathogen) can be of two types:

Problem Set 6 KEY

Hypersensitivity. TYPE I Hypersensitivity Classic allergy. Allergens. Characteristics of allergens. Allergens. Mediated by IgE attached to Mast cells.

Dendritic Cells: A Basic Review *last updated May 2003

Understanding the immune response to bacterial infections

Why use passive immunity?

Unit 1 Higher Human Biology Summary Notes

Cardiovascular System. Blood Components

Functions of Blood. Collects O 2 from lungs, nutrients from digestive tract, and waste products from tissues Helps maintain homeostasis

The role of IBV proteins in protection: cellular immune responses. COST meeting WG2 + WG3 Budapest, Hungary, 2015

Some terms: An antigen is a molecule or pathogen capable of eliciting an immune response

Why discuss CLL? Common: 40% of US leukaemia. approx 100 pa in SJH / MWHB 3 inpatients in SJH at any time

Immunology Ambassador Guide (updated 2014)

Welcome to Mini Med School at the Child & Family Research Institute

Why is FTO important?

A disease and antibody biology approach to antibody drug discovery

Systemic Lupus Erythematosus (SLE)

Chapter 2 Antibodies. Contents. Introduction

Applications of Ab Molecules. Chapter 4 Monoclonal Ab (p.99) Chapter 5 Ab genes and Ab Engineering (p.128)

Hemolysis. Intravascular vs. Extravascular. Classification. Warm vs. Cold Auto. Warm Auto. WAIHA Serologic Investigation

TABLE OF CONTENT. Page ACKNOWLEDGEMENTS. iii ENGLISH ABSTRACT THAI ABSTRACT. vii LIST OF TABLES LIST OF FIGURES. xvi ABBREVIATIONS.

Immuno-Oncology Therapies to Treat Lung Cancer

CHAPTER 2 ANTIGEN/ANTIBODY INTERACTIONS

Clinically Actionable Biomarkers in Rheumatoid Arthritis

Focus on Preventing Disease. keeping an eye on a healthy bottom line. Cattle Industry

Module 2: Antibodies and Antigens

Rheumatoid arthritis: an overview. Christine Pham MD

The Most Common Autoimmune Disease: Rheumatoid Arthritis. Bonita S. Libman, M.D.

Understanding the Immune System in Myeloma

Mechanical barriers are a crucial first line of defence. It would be impossible to provide an exhaustive list. Two examples are:

A customizable ADCC assay service for antibodies & fusion proteins.

Idiotypes. Introduction. Structure and Expression of Idiotypes. Advanced article

Immunity. Humans have three types of immunity innate, adaptive, and passive: Innate Immunity

Plasma Cells. Introduction. Development, Differentiation and Migration. Advanced article. Plasma cell morphology

Final Review. Aptamers. Making Aptamers: SELEX 6/3/2011. sirna and mirna. Central Dogma. RNAi: A translation regulation mechanism.

Course Curriculum for Master Degree in Medical Laboratory Sciences/Clinical Microbiology, Immunology and Serology

CHAPTER 8 IMMUNOLOGICAL IMPLICATIONS OF PEPTIDE CARBOHYDRATE MIMICRY

Treatment of Rheumatoid Arthritis in the New Millennium. Neal I. Shparago, D.O., FACP, FACR

Chapter 18: Applications of Immunology

Transcription:

B Cells and Antibodies Andrew Lichtman, MD PhD Brigham and Women's Hospital Harvard Medical School Lecture outline Functions of antibodies B cell activation; the role of helper T cells in antibody production Therapeutic targeting of B cells

The Importance of Antibodies Humoral immunity is the defense mechanism against extracellular microbes Most current vaccines work by stimulating effective antibody responses Antibodies are mediators of many immune/inflammatory diseases Antibodies are used as therapeutic agents Principles of Humoral Immunity Antibodies are produced only by B lymphocytes. Humoral immune responses are initiated by binding of antigen to membrane bound antibody on B cells. Antibody responses are specialized and fine tuned by signals from helper T cells. Activated B cells secrete soluble antibodies of the same specificity as the membrane receptors.

Structure of antibody molecules Diverse immunoglobulin (Ig) molecules are generated by recombination of gene segments and variations introduced at sites of recombination. B cells express Ig receptors for antigens and secrete the same Ig after activation. B cell activation and antibody production

The effector functions of antibodies Leukocyte Fc receptors Activating Fc receptors on phagocytes (macrophages, neutrophils) ingest opsonized microbes for destruction: FcRI Fc receptor on NK cells binds to opsonized cells and kill the cells: FcRIII Fc receptors with other functions: FcRII, neonatal Fc receptor (FcRn)

Inhibitory Fc receptors One class of Fc receptor on B cells (also macrophages and DCs) delivers inhibitory signals: FcRII Function and clinical significance: Terminates B cell responses after antibodies are produced (Ab engages inhibitory FcR): antibody feedback Intravenous IgG (IVIg) is used to treat inflammatory diseases; may work by engaging inhibitory FcR Mutations in FcRIIb gene associated with lupus-like disease in mice; humans? (uncontrolled B cell activation) IgG recycling by FcRn Derry C. Roopenian & Shreeram Akilesh Nature Reviews Immunology 7, 715-725,2007.

T-dependent and T-independent antibody responses B cells can recognize a wide variety of chemical structures (proteins, polysaccharides, lipids) and make antibodies against these T cells recognize only MHC-associated peptides Helper T cells help B cells and stimulate isotype switching, affinity maturation, and generation of long-lived plasma cells and memory cells T-dependent responses can occur only against proteins (the antigens for T cells) These are the most varied and effective antibody responses Subsets of B cells

Helper T cell-dependent B cell responses Long-lived plasma cells, memory B cells APC Helper T cell Follicle B cell Follicular helper T cell T cell response Germinal center reaction T-B cell interaction Short-lived plasma cells Sequence of T-dependent B cell activation Initial T-B interaction occurs at the edge of lymphoid follicles Early antibody response, generates small numbers of short-lived plasma cells Some activated B and T cells migrate back into the follicle and form the germinal center (GC) Tremendous B cell proliferation in GC Role of follicular helper T cells Induction of enzyme activation-induced deaminase (AID) in B cells, which stimulates isotype switching and somatic mutation

Molecular basis of T-B cell interaction: how do these cells communicate? B cells bind native protein antigen, internalize it, process it, and present peptides on MHC-II to helper T cells B cells see native protein, T cells see peptides derived from the protein Helper T cells are activated to express CD40L and secrete cytokines, which stimulate B cell responses Mechanisms of helper T cell-mediated activation of B lymphocytes

Actions of helper T cells Helper T cells stimulate B cells to produce large amounts of antibodies, undergo isotype switching and affinity maturation, and generate long-lived plasma cells and memory B cells Mostly in germinal centers Role of follicular helper T cells (IL-21?) Many of the reactions are dependent on induction of the enzyme AID in B cells Heavy chain isotype (class) switching: B cells make different antibodies with the same specificity as the original antibody Naïve B cells V Sµ Cµ S C IgM T cell help: CD40L --> AID Cytokines target different C regions Deletion of Cµ, joining of V and C Activated (isotype switched) B cells V C IgG V = variable region C = constant region S = switch segment

Immunoglobulin (Ig) heavy chain isotype (class) switching Affinity maturation of antibodies In responses to protein antigens, the affinity of the antibody increases with repeated stimulation Caused by somatic mutations in Ig V genes, followed by selection of highaffinity B cells Stimulated by helper T cells in GCs (Tfh cells) activating AID in B cells, which induces somatic mutations in Ig genes

Affinity maturation of antibodies Early antibody response V C Low-affinity antibody Response to repeated stimulation with protein antigens Mutations Somatic mutations in Ig V genes --> Selection of high-affinity B cells High-affinity antibody Selection of high-affinity B cells in germinal centers

Plasma cells and memory B cells Plasma cells generated during GC reaction migrate to bone marrow and survive for years, producing antibody Much of circulating IgG is produced by longlived plasma cells, provides initial protection Some activated B cells develop into memory cells, which recirculate and do not secrete antibody but can be rapidly reactivated to become plasma cells Choice of plasma cells and memory cells is determined by expression of different transcription factors in the activated B cells Therapeutic strategies targeting B cells and antibodies Plasmapheresis (in severe cases of autoimmunity) B cell depletion: anti-cd20 antibody IVIg (does it act on B cells or on FcRN?) BAFF antagonists; other approaches

B cell depletion therapy Rituximab is an anti-cd20 mab approved for treatment of RA, and in clinical trials for several other autoimmune diseases. Rituximab appears to be effective in RA, SLE, and surprisingly MS CD20 is expressed on most mature B cells, but not plasma cells. Rituximab treatment results in long term, profound depletion of circulating B cells, although circulating memory B cells and tissue B cells are not as fully depleted, and plasma cells are not reduced. Why does B cell depletion therapy work? Reduced levels of pathogenic autoantibodies Does not always correlate with clinical response Role of B cells in presenting antigens to T cells Activated B cells can secrete cytokines Activated B cells can organize tertiary lymphoid tissue

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information