The Immune System. The immune system recognizes foreign bodies and responds with the production of immune cells and proteins

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1 hapter 43 The Immune System PowerPoint Lecture Presentations for Biology Eighth Edition Neil ampbell and Jane Reece Overview: Reconnaissance, Recognition, and Response Barriers help an animal to defend itself from the many dangerous pathogens it may encounter The immune system recognizes foreign bodies and responds with the production of immune s and proteins Two major kinds of defense have evolved: innate immunity and acquired immunity Lectures by hris Romero, updated by Erin Barley with contributions from Joan Sharp Fig Innate immunity is present before any exposure to pathogens and is effective from the time of birth It involves nonspecific responses to pathogens Innate immunity consists of external barriers plus internal ular and chemical defenses 1.5 µm Fig Pathogens (microorganisms and viruses) Acquired immunity, or adaptive immunity, develops after exposure to agents such as microbes, toxins, or other foreign substances It involves a very specific response to pathogens INNATE IMMUNITY Barrier defenses: Skin Recognition of traits Mucous membranes shared by broad ranges Secretions of pathogens, using a small set of receptors Internal defenses: Rapid response Phagocytic s Antimicrobial proteins Inflammatory response Natural killer s AQUIRED IMMUNITY Recognition of traits specific to particular pathogens, using a vast array of receptors Slower response Humoral response: Antibodies defend against infection in body fluids. ell-mediated response: ytotoxic lymphocytes defend against infection in body s. 1

2 oncept 43.1: In innate immunity, recognition and response rely on shared traits of pathogens Both invertebrates and vertebrates depend on innate immunity to fight infection Vertebrates also develop acquired immune defenses Innate Immunity of Invertebrates In insects, an exoskeleton made of chitin forms the first barrier to pathogens The digestive system is protected by low ph and lysozyme, an enzyme that digests microbial walls Hemocytes circulate within hemolymph and carry out phagocytosis, the ingestion and digestion of foreign substances including bacteria Fig Microbes PHAGOYTI ELL Hemocytes also secrete antimicrobial peptides that disrupt the plasma membranes of bacteria Vacuole Lysosome containing enzymes Fig The immune system recognizes bacteria and fungi by structures on their walls An immune response varies with the class of pathogen encountered 2

3 Fig RESULTS Fig. 43-5a 100 Wild type RESULTS % survival 75 Mutant drosomycin 50 Mutant Mutant defensin Hours post-infection Fruit fly survival after infection by N. crassa fungi 100 % survival Mutant Wild type Mutant drosomycin Mutant defensin % survival Mutant drosomycin Wild type Mutant Mutant defensin Hours post-infection Fruit fly survival after infection by M. luteus bacteria Hours post-infection Fruit fly survival after infection by N. crassa fungi Fig. 43-5b RESULTS % survival Mutant drosomycin Wild type Mutant defensin Mutant t Hours post-infection Fruit fly survival after infection by M. luteus bacteria Innate Immunity of Vertebrates The immune system of mammals is the best understood of the vertebrates Innate defenses include barrier defenses, phagocytosis, antimicrobial peptides Additional defenses are unique to vertebrates: the inflammatory response and natural killer s Barrier Defenses ellular Innate Defenses Barrier defenses include the skin and mucous membranes of the respiratory, urinary, and reproductive tracts Mucus traps and allows for the removal of microbes White blood s (leukocytes) engulf pathogens in the body Groups of pathogens are recognized by TLR, Toll-like receptors Many body fluids including saliva, mucus, and tears are hostile to microbes The low ph of skin and the digestive system prevents growth of microbes 3

4 Fig EXTRAELLULAR FLUID WHITE BLOOD ELL VESILE pg DNA ds RNA Helper protein Lipopolysaccharide TLR9 TLR3 TLR4 Flagellin TLR5 Inflammatory responses A white blood engulfs a microbe, then fuses with a lysosome to destroy the microbe There are different types of phagocytic s: Neutrophils engulf and destroy microbes Macrophages are part of the lymphatic system and are found throughout the body Eosinophils discharge destructive enzymes Dendritic s stimulate development of acquired immunity Fig Adenoid Interstitial fluid Antimicrobial Peptides and Proteins Tonsil Lymph nodes Spleen Peyer s patches (small intestine) Appendix Lymphatic vessels Tissue s Lymph node Lymphatic vessel Blood capillary Masses of defensive s Peptides and proteins function in innate defense by attacking microbes directly or impeding their reproduction Interferon proteins provide innate defense against viruses and help activate macrophages About 30 proteins make up the complement system, which causes lysis of invading s and helps trigger inflammation Inflammatory Responses Fig Following an injury, mast s release histamine, which promotes changes in blood vessels; this is part of the inflammatory response These changes increase local blood supply and allow more phagocytes and antimicrobial proteins to enter tissues Pus, a fluid rich in white blood s, dead microbes, and debris, accumulates at the site of inflammation Pathogen Splinter hemical Macrophage signals Mast apillary Red blood s Phagocytic 4

5 Fig Fig Pathogen Splinter Pathogen Splinter Mast hemical Macrophage signals Fluid Mast hemical Macrophage signals Fluid apillary apillary Phagocytosis Red blood s Phagocytic Red blood s Phagocytic Natural Killer ells Inflammation can be either local or systemic (throughout the body) Fever is a systemic inflammatory response triggered by pyrogens released by macrophages, and toxins from pathogens All s in the body (except red blood s) have a class 1 MH protein on their surface ancerous or infected s no longer express this protein; natural killer (NK) s attack these damaged s Septic shock is a life-threatening condition caused by an overwhelming inflammatory response Innate Immune System Evasion by Pathogens Some pathogens avoid destruction by modifying their surface to prevent recognition or by resisting breakdown following phagocytosis Tuberculosis (TB) is one such disease and kills more than a million people a year oncept 43.2: In acquired immunity, lymphocyte receptors provide pathogen-specific recognition White blood s called lymphocytes recognize and respond to antigens, foreign s Lymphocytes that mature in the thymus above the heart are called T s, and those that mature in bone marrow are called B s 5

6 Acquired Immunity: An Overview Lymphocytes contribute to immunological memory, an enhanced response to a foreign encountered previously ytokines are secreted by macrophages and dendritic s to recruit and activate lymphocytes B s and T s have receptor proteins that can bind to foreign s Each individual lymphocyte is specialized to recognize a specific type of Antigen Recognition by Lymphocytes Fig An antigen is any foreign to which a lymphocyte responds A single B or T has about 100,000 identical antigen receptors Antigenbinding site Antigenbinding site binding Antigen- site Disulfide bridge Variable regions V V onstant regions Light chain Transmembrane region Heavy chains Plasma membrane α chain β chain Disulfide bridge B ytoplasm of B ytoplasm of T T (a) B receptor (b) T receptor Fig. 43-9a Antigenbinding site Antigenbinding site Fig. 43-9b Antigenbinding site Disulfide bridge Variable regions Variable regions V V Light chain onstant regions Transmembrane region onstant regions Transmembrane region Heavy chains Plasma membrane Plasma membrane α chain β chain Disulfide bridge B ytoplasm of B ytoplasm of T T (a) B receptor (b) T receptor 6

7 Fig All antigen receptors on a single lymphocyte recognize the same epitope, or antigenic determinant, on an antigen Antigen-binding sites Antigenbinding sites Epitopes (antigenic determinants) B s give rise to plasma s, which secrete proteins called antibodies or immunoglobulins Antibody A Antigen Antibody B Antibody The Antigen Receptors of B ells and T ells B receptors bind to specific, intact antigens The B receptor consists of two identical heavy chains and two identical light chains Secreted antibodies, or immunoglobulins, are structurally similar to B receptors but lack transmembrane regions that anchor receptors in the plasma membrane The tips of the chains form a constant () region, and each chain contains a variable (V) region, so named because its amino acid sequence varies extensively from one B to another Each T receptor consists of two different polypeptide chains The tips of the chain form a variable (V) region; the rest is a constant () region T s can bind to an antigen that is free or on the surface of a pathogen T s bind to antigen fragments presented on a host These antigen fragments are bound to surface proteins called MH s MH s are so named because they are encoded by a family of genes called the major histocompatibility complex Video: T ell Receptors 7

8 The Role of the MH In infected s, MH s bind and transport antigen fragments to the surface, a process called antigen presentation Fig Top view: binding surface exposed to antigen receptors A nearby T can then detect the antigen fragment displayed on the s surface Depending on their source, peptide antigens are handled by different classes of MH s lass I MH Antigen Plasma membrane of infected Antigen Fig lass I MH s are found on almost all nucleated s of the body They display peptide antigens to cytotoxic T s Infected Antigen fragment lass I MH T receptor Antigen associates with MH T recognizes combination Microbe 2 1 Antigenpresenting Antigen fragment lass II MH T receptor (a) ytotoxic T (b) Helper T Lymphocyte Development lass II MH s are located mainly on dendritic s, macrophages, and B s Dendritic s, macrophages, and B s are antigen-presenting s that display antigens to cytotoxic T s and helper T s The acquired immune system has three important properties: Receptor diversity A lack of reactivity against host s Immunological memory 8

9 Generation of Lymphocyte Diversity by Gene Rearrangement Differences in the variable region account for specificity of antigen receptors Fig DNA of undifferentiated B V 37 V 38 V 39 V 40 J 1 J 2 J 3 J 4 J 5 Intron DNA of differentiated B V 37 V 38 V 39 J 5 Intron 1 DNA deleted between randomly selected V and J segments The immunoglobulin (Ig) gene encodes one chain of the B receptor Many different chains can be produced from the same Ig chain gene by rearrangement of the DNA Rearranged DNA is transcribed and translated and the antigen receptor formed pre-mrna mrna ap V 39 J 5 V 39 Light-chain polypeptide V Variable region Functional gene 2 Transcription Intron J 5 onstant region 3 RNA processing Poly-A tail 4 Translation B B receptor V V V V Origin of Self-Tolerance Amplifying Lymphocytes by lonal Selection Antigen receptors are generated by random rearrangement of DNA As lymphocytes mature in bone marrow or the thymus, they are tested for self-reactivity Lymphocytes with receptors specific for the body s own s are destroyed by apoptosis, or rendered nonfunctional In the body there are few lymphocytes with antigen receptors for any particular epitope The binding of a mature lymphocyte to an antigen induces the lymphocyte to divide rapidly This proliferation of lymphocytes is called clonal selection Two types of clones are produced: short-lived activated effector s and long-lived memory s Fig Antigen s B s that differ in antigen specificity Antigen receptor The first exposure to a specific antigen represents the primary immune response During this time, effector B s called plasma s are generated, and T s are activated to their effector forms Antibody s In the secondary immune response, memory s facilitate a faster, more efficient response lone of memory s lone of plasma s Animation: Role of B ells 9

10 Fig Primary immune response to antigen A produces antibodies to A. y concentration trary units) Antibody (arbi 10 4 Secondary immune response to antigen A produces antibodies to A; primary immune response to antigen B produces antibodies to B Antibodies to A 10 2 Antibodies to B Exposure to antigen A Exposure to antigens A and B Time (days) oncept 43.3: Acquired immunity defends against infection of body s and fluids Acquired immunity has two branches: the humoral immune response and the mediated immune response Humoral immune response involves activation and clonal selection of B s, resulting in production of secreted antibodies ell-mediated immune response involves activation and clonal selection of cytotoxic T s Helper T s aid both responses Fig Humoral (antibody-mediated) immune response Antigen (1st exposure) Engulfed by Antigenpresenting ell-mediated immune response Key Stimulates Gives rise to Fig a Key Humoral (antibody-mediated) immune response Stimulates Gives rise to Antigen (1st exposure) Engulfed by Antigenpresenting B Helper T ytotoxic T B Helper T Memory Helper T s Memory Helper T s Plasma s Antigen (2nd exposure) Memory Memory B s ytotoxic T s Active ytotoxic T s Plasma s Memory B s Antigen (2nd exposure) Secreted antibodies Defend against extraular pathogens by binding to antigens, thereby neutralizing pathogens or making them better targets for phagocytes and complement proteins. Defend against intraular pathogens and cancer by binding to and lysing the infected s or cancer s. Secreted antibodies Defend against extraular pathogens Fig b Antigen (1st exposure) Engulfed by Antigenpresenting Helper T Memory Helper T s Antigen (2nd exposure) ell-mediated immune response Memory ytotoxic T s Key ytotoxic T Stimulates Gives rise to Active ytotoxic T s Helper T ells: A Response to Nearly All Antigens A surface protein called D4 binds the class II MH This binding keeps the helper T joined to the antigen-presenting while activation occurs Activated helper T s secrete cytokines that stimulate other lymphocytes Defend against intraular pathogens Animation: Helper T ells 10

11 Fig ytotoxic T ells: A Response to Infected ells Antigenpresenting Bacterium Peptide antigen lass II MH D4 TR (T receptor) ytotoxic T s are the effector s in mediated immune response ytotoxic T s make D8, a surface protein that greatly enhances interaction between a target and a cytotoxic T Humoral immunity (secretion of antibodies by plasma s) ytokines B Helper T ytotoxic T ell-mediated immunity (attack on infected s) Binding to a class I MH complex on an infected activates a cytotoxic T and makes it an active killer The activated cytotoxic T secretes proteins that destroy the infected target Animation: ytotoxic T ells Fig Fig ytotoxic T ytotoxic T Perforin Perforin Granzymes Granzymes D8 TR D8 TR lass I MH lass I MH Pore Target Peptide antigen Target Peptide antigen Fig B ells: A Response to Extraular Pathogens ytotoxic T D8 lass I MH Target Perforin Granzymes TR Peptide antigen Pore Released cytotoxic T Dying target The humoral response is characterized by secretion of antibodies by B s Activation of B s is aided by cytokines and antigen binding to helper T s lonal selection of B s generates antibodysecreting plasma s, the effector s of humoral immunity 11

12 Fig Fig Antigen-presenting Bacterium Peptide antigen B lass II MH TR D4 ytokines Helper T Activated helper T lone of plasma s lone of memory B s Endoplasmic reticulum of plasma Secreted antibody s Antigen-presenting Bacterium Peptide antigen lass II MH TR D4 Helper T 2 µm Fig Fig Antigen-presenting Bacterium Antigen-presenting Bacterium Peptide antigen B Peptide antigen B lass II MH TR D4 ytokines lass II MH TR D4 lone of plasma s Secreted antibody ytokines s Helper T Activated helper T Helper T Activated helper T lone of memory B s Fig a Endoplasmic reticulum of plasma Antibody lasses The five major classes of antibodies, or immunoglobulins, differ in distribution and function Polyclonal antibodies are the products of many different clones of B s following exposure to a microbial antigen 2 µm Monoclonal antibodies are prepared from a single clone of B s grown in culture 12

13 Fig Fig a lass of Immunoglobulin (Antibody) Distribution Function IgM First Ig class Promotes neutralization and cross- (pentamer) produced after initial exposure to linking of antigens; antigen; then its very effective in concentration in complement system the blood declines activation J chain IgG Most abundant Ig Promotes opsonization, neutralization, (monomer) class in blood; also present in and cross-linking of tissue fluids antigens; less effective in activation of complement system than IgM Only Ig class that crosses placenta, thus conferring passive immunity on fetus IgA Present in Provides localized (dimer) secretions such defense of mucous as tears, saliva, membranes by mucus, and cross-linking and J chain breast milk neutralization of antigens Presence in breast milk confers Secretory passive immunity component on nursing infant IgE Present in blood Triggers release from (monomer) at low concentrations basophils of hista- mast s and mine and other chemicals that cause allergic reactions lass of Immunoglobulin (Antibody) IgM (pentamer) J chain Distribution First Ig class produced after initial exposure to antigen; then its concentration in the blood declines Function Promotes neutralization and crosslinking of antigens; very effective in complement system activation IgD (monomer) Transmembrane region Present primarily Acts as antigen on surface of receptor in the B s that have antigen-stimulated not been exposed proliferation and to antigens differentiation of B s (clonal selection) Fig b Fig c lass of Immunoglobulin (Antibody) IgG (monomer) Distribution Most abundant Ig class in blood; also present in tissue fluids Function Promotes opsonization, neutralization, and cross-linking of antigens; less effective in activation of complement system than IgM lass of Immunoglobulin (Antibody) IgA (dimer) J chain Distribution Present in secretions such as tears, saliva, mucus, and breast milk Function Provides localized defense of mucous membranes by cross-linking and neutralization i of antigens Only Ig class that crosses placenta, thus conferring passive immunity on fetus Secretory component Presence in breast milk confers passive immunity on nursing infant Fig d Fig e lass of Immunoglobulin (Antibody) Distribution Function lass of Immunoglobulin (Antibody) Distribution Function IgE (monomer) o Present in blood at low concentrations Triggers release from mast s and basophils of histamine and other chemicals that cause allergic reactions IgD (monomer) Transmembrane region Present primarily on surface of B s that have not been exposed to antigens Acts as antigen receptor in the antigen-stimulated proliferation and differentiation of B s (clonal selection) 13

14 The Role of Antibodies in Immunity Fig Neutralization occurs when a pathogen can no longer infect a host because it is bound to an antibody Viral neutralization Virus Opsonization Bacterium Activation of complement system and pore formation omplement proteins Opsonization occurs when antibodies bound to antigens increase phagocytosis Macrophage Formation of membrane attack complex Flow of water and ions Antibodies together with proteins of the complement system generate a membrane attack complex and lysis Foreign Pore Animation: Antibodies Fig a Fig b Viral neutralization Opsonization Bacterium Virus Macrophage Fig c Activation of complement system and pore formation Active and Passive Immunization omplement proteins Formation of membrane attack complex Flow of water and ions Pore Active immunity develops naturally in response to an infection It can also develop following immunization, also called vaccination In immunization, a nonpathogenic form of a microbe or part of a microbe elicits an immune response to an immunological memory Foreign 14

15 Fig Passive immunity provides immediate, shortterm protection It is conferred naturally when IgG crosses the placenta from mother to fetus or when IgA passes from mother to infant in breast milk It can be conferred artificially by injecting antibodies into a nonimmune person Immune Rejection Blood Groups ells transferred from one person to another can be attacked by immune defenses This complicates blood transfusions or the transplant of tissues or organs Antigens on red blood s determine whether a person has blood type A (A antigen), B (B antigen), AB (both A and B antigens), or O (neither antigen) Antibodies to nonself blood types exist in the body Transfusion with incompatible blood leads to destruction of the transfused s Recipient-donor combinations can be fatal or safe Tissue and Organ Transplants MH s are different among genetically nonidentical individuals Differences in MH s stimulate rejection of tissue grafts and organ transplants hances of successful transplantation increase if donor and recipient MH tissue types are well matched Immunosuppressive drugs facilitate transplantation Lymphocytes in bone marrow transplants may cause the donor tissue to reject the recipient 15

16 oncept 43.4: Disruption in immune system function can elicit or exacerbate disease Some pathogens have evolved to diminish the effectiveness of host immune responses Exaggerated, Self-Directed, and Diminished Immune Responses If the delicate balance of the immune system is disrupted, effects range from minor to often fatal Allergies Fig Allergies are exaggerated (hypersensitive) responses to antigens called allergens In localized allergies such as hay fever, IgE antibodies produced after first exposure to an allergen attach to receptors on mast s IgE Allergen Histamine Granule Mast Autoimmune Diseases The next time the allergen enters the body, it binds to mast associated IgE s Mast s release histamine and other mediators that cause vascular changes leading to typical allergy symptoms An acute allergic response can lead to anaphylactic shock, a life-threatening reaction that can occur within seconds of allergen exposure In individuals with autoimmune diseases, the immune system loses tolerance for self and turns against certain s of the body Autoimmune diseases include systemic lupus erythematosus, rheumatoid arthritis, insulindependent diabetes mellitus, and multiple sclerosis 16

17 Fig Exertion, Stress, and the Immune System Moderate exercise improves immune system function Psychological stress has been shown to disrupt hormonal, nervous, and immune systems Immunodeficiency Diseases Acquired Immune System Evasion by Pathogens Inborn immunodeficiency results from hereditary or developmental defects that prevent proper functioning of innate, humoral, and/or -mediated defenses Pathogens have evolved mechanisms to attack immune responses Acquired immunodeficiency results from exposure to chemical and biological agents Acquired immunodeficiency syndrome (AIDS) is caused by a virus Antigenic Variation Through antigenic variation, some pathogens are able to change epitope expression and prevent recognition The human influenza virus mutates rapidly, and new flu vaccines must be made each year Human viruses occasionally exchange genes with the viruses of domesticated animals This poses a danger as human immune systems are unable to recognize the new viral strain Fig Million ns of parasites per ml of blood Antibodies to variant 1 appear Variant 1 Antibodies to variant 2 appear Variant 2 Antibodies to variant 3 appear Variant Weeks after infection 17

18 Latency Attack on the Immune System: HIV Some viruses may remain in a host in an inactive state called latency Herpes simplex viruses can be present in a human host without causing symptoms Human immunodeficiency virus (HIV) infects helper T s The loss of helper T s impairs both the humoral and -mediated immune responses and leads to AIDS HIV eludes the immune system because of antigenic variation and an ability to remain latent while integrated into host DNA Animation: HIV Reproductive ycle Fig Latency AIDS l concentration (s/mm 3 ) Helper T cel in blood Relative antibody concentration Relative HIV concentration Helper T concentration People with AIDS are highly susceptible to opportunistic infections and cancers that take advantage of an immune system in collapse The spread of HIV is a worldwide problem The best approach for slowing this spread is education about practices that transmit the virus Years after untreated infection ancer and Immunity The frequency of certain cancers increases when the immune response is impaired Two suggested explanations are Immune system normally suppresses cancerous s Increased inflammation increases the risk of cancer Fig. 43-UN1 Elimination of self-reactive B s Stem ell division and gene rearrangement lonal selection Formation of activated populations Antigen Antibody Memory s Effector B s Microbe Receptors bind to antigens 18

19 Fig. 43-UN2 You should now be able to: 1. Distinguish between innate and acquired immunity 2. Name and describe four types of phagocytic s 3. Describe the inflammation response 4. Distinguish between the following pairs of terms: antigens and antibodies; antigen and epitope; B lymphocytes and T lymphocytes; antibodies and B receptors; primary and secondary immune responses; humoral and -mediated d response; active and passive immunity 5. Explain how B lymphocytes and T lymphocytes recognize specific antigens 6. Explain why the antigen receptors of lymphocytes are tested for self-reactivity 7. Describe clonal selection and distinguish between effector s and memory s 8. Describe the ular basis for immunological memory 9. Explain how a single antigen can provoke a robust humoral response 10. ompare the processes of neutralization and opsonization 11. Describe the role of MH in the rejection of tissue transplants 12. Describe an allergic reaction, including the roles of IgE, mast s, and histamine 13. Describe some of the mechanisms that pathogens have evolved to thwart the immune response of their hosts 14. List strategies that can reduce the risk of HIV transmission 19

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