6.2.4 Humoral Immunity

    Cards (86)

    • What is humoral immunity and its role in the immune response?
      Defends against pathogens using antibodies
    • Upon antigen binding, B cells become activated and differentiate into plasma cells.
    • Steps in the process of humoral immunity
      1️⃣ Recognition: B lymphocytes recognize antigens on pathogens
      2️⃣ Activation: B cells differentiate into plasma cells
      3️⃣ Antibody Production: Plasma cells secrete antibodies
      4️⃣ Memory Cells: Some B cells become memory cells
    • Memory cells provide long-term immunity in humoral immunity.
    • Match the type of immunity with its key players:
      Humoral Immunity ↔️ B lymphocytes, antibodies
      Cell-Mediated Immunity ↔️ T lymphocytes, macrophages
    • What is the target of humoral immunity?
      Extracellular pathogens
    • Humoral immunity neutralizes pathogens through antibody binding.
    • Cell-mediated immunity directly kills infected cells.
    • What are the key cells involved in humoral immunity?
      B lymphocytes, plasma cells
    • B lymphocytes recognize antigens and differentiate into plasma cells.
    • Plasma cells produce and secrete antibodies.
    • Steps in the process of antigen presentation and B cell activation
      1️⃣ Antigen Uptake by APCs
      2️⃣ Antigen Presentation via MHC II
      3️⃣ T Helper Cell Activation
      4️⃣ B Cell Activation
      5️⃣ B Cell Differentiation
    • Match the cell with its role in antigen presentation and B cell activation:
      APCs ↔️ Engulf and process antigens
      T Helper Cells ↔️ Interact with MHC II-antigen
      B Cells ↔️ Activate via BCR binding
    • Humoral immunity targets extracellular pathogens in blood and lymph.
    • The key players in humoral immunity are B lymphocytes and antibodies.
    • What type of pathogens does humoral immunity target?
      Extracellular pathogens
    • The key cells involved in humoral immunity are B lymphocytes and plasma
    • B lymphocytes recognize antigens and differentiate into plasma cells.
    • Plasma cells produce and secrete antibodies to neutralize pathogens
    • T helper cells recognize MHC II-antigen complexes via their TCRs.
    • Activated T helper cells secrete cytokines that stimulate B cells to differentiate into plasma cells and memory cells.
    • Steps in the process of antigen presentation and B cell activation
      1️⃣ Antigen uptake by APCs
      2️⃣ Antigen presentation by MHC II
      3️⃣ T helper cell activation
      4️⃣ B cell activation
    • Match the molecule with its role in antigen presentation and B cell activation:
      MHC II ↔️ Displays antigens on APCs to T helper cells
      TCRs ↔️ Recognize MHC II-antigen complexes on T helper cells
      BCRs ↔️ Bind antigens on B cells
      Cytokines ↔️ Stimulate B cell differentiation
    • Antigen-Presenting Cells (APCs) like macrophages and dendritic cells engulf pathogens
    • APCs present peptide fragments bound to MHC Class II molecules.
    • T helper cells recognize the MHC II-antigen complex via their T cell receptors
    • B cells need to bind the same antigen via their BCRs for full activation.
    • What class of MHC molecules is involved in presenting antigens to T helper cells?
      MHC Class II
    • T helper cells recognize the MHC II-antigen complex via their TCRs
    • Activated T helper cells secrete cytokines that stimulate B cells to differentiate into plasma cells and memory cells.
    • What is the role of MHC II molecules in antigen presentation?
      Displays antigens to Th cells
    • Match the molecule with its role in humoral immunity:
      TCRs ↔️ Recognize MHC II-antigen complexes
      BCRs ↔️ Bind antigens on B cells
      Cytokines ↔️ Stimulate B cell differentiation
    • B lymphocytes differentiate into plasma cells and memory B cells after activation by T helper cells
    • Plasma cells produce and secrete large amounts of antibodies to neutralize pathogens.
    • Where are plasma cells primarily located?
      Lymph nodes and bone marrow
    • Match the cell type with its primary function:
      Plasma Cells ↔️ Produce antibodies
      Memory B Cells ↔️ Provide long-term immunity
    • What are antibodies primarily composed of?
      Glycoproteins
    • An antibody consists of two heavy chains and two light chains linked by disulfide bonds.
    • The Fab region of an antibody is responsible for binding to specific antigens
    • Match the antibody function with its description:
      Neutralization ↔️ Prevents antigens from infecting cells
      Opsonization ↔️ Marks antigens for phagocytosis
      Complement Activation ↔️ Triggers complement cascade
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