ࡱ> q` sbjbjqPqP 1::k~~~~DH~Dt^$Ҏh:.6rό Ps~ΆD0tȑLȑόȑό$tr{d{  Overview of the Lymphoid System Pathogens Microscopic organisms that cause disease Viruses Bacteria Fungi Parasites Each attacks in a specific way The Lymphoid System Protects us against disease Lymphoid system cells respond to Environmental pathogens Toxins Abnormal body cells, such as cancers Specific Defenses Lymphocytes Part of the immune response Identify, attack, and develop immunity: to a specific pathogen The Immune System Immunity The ability to resist infection and disease All body cells and tissues involved in production of immunity Not just lymphoid system Nonspecific Defenses Block or attack any potential infectious organism Cannot distinguish one attack from another Organization of the Lymphoid System Lymph A fluid similar to plasma but does not have plasma proteins Lymphatic vessels (lymphatics) Carries lymph from peripheral tissues to the venous system Lymphoid tissues and lymphoid organs Lymphocytes, phagocytes, and other immune system cells Function of the Lymphoid System To produce, maintain, and distribute lymphocytes Structures of Body Defenses Lymphocyte Production Lymphocytes are produced In lymphoid tissues (e.g., tonsils) Lymphoid organs (e.g., spleen, thymus) In red bone marrow Lymphocyte distribution Detects problems Travels into site of injury or infection Lymphocyte Circulation From blood to interstitial fluid through capillaries Returns to venous blood through lymphatic vessels Lymph = interstitial fluid that has entered a lymphatic The Circulation of Fluids From blood plasma to lymph and back to the venous system Transports hormones, nutrients, and waste products Lymphatic Vessels Are vessels that carry lymph Lymphoid system begins with smallest vessels Lymphatic capillaries (terminal lymphatics) Lymphatic Capillaries Differ from blood capillaries in four ways Start as pockets rather than tubes Have larger diameters Have thinner walls Flat or irregular in section Lymphatic Capillaries Endothelial cells loosely bound together with overlap Overlap acts as one-way valve Allows fluids, solutes, viruses, and bacteria to enter Prevents return to intercellular space Lymph Flow From lymphatic capillaries to larger lymphatic vessels containing one-way valves Lymphatic vessels travel with veins Lacteals Are special lymphatic capillaries in small intestine Transport lipids from digestive tract Lymphatic Vessels Superficial lymphatics Deep lymphatics Are located in Skin Mucous membranes Serous membranes lining body cavities Superficial and Deep Lymphatics The deep lymphatics Are larger vessels that accompany deep arteries and veins Superficial and deep lymphatics Join to form large lymphatic trunks Trunks empty into two major collecting vessels: thoracic duct right lymphatic duct Major Lymph-Collecting Vessels The base of the thoracic duct Expands into cisterna chyli Cisterna chyli receives lymph from Right and left lumbar trunks Intestinal trunk The Inferior Segment of Thoracic Duct Collects lymph from Left bronchiomediastinal trunk Left subclavian trunk Left jugular trunk Empties into left subclavian vein The Right Lymphatic Duct Collects lymph from Right jugular trunk Right subclavian trunk Right bronchiomediastinal trunk Empties into right subclavian vein Lymphedema Blockage of lymph drainage from a limb Causes severe swelling Interferes with immune system function Lymphocytes Make up 2030% of circulating leukocytes Most are stored, not circulating Three Classes of Circulating Lymphocytes T cells Thymus-dependent B cells Bone marrow-derived NK cells Natural killer cells T Cells Make up 80% of circulating lymphocytes Three Main Types of T Cells Cytotoxic T cells Helper T cells Suppressor T cells Cytotoxic T Cells Attack cells infected by viruses Produce cell-mediated immunity Helper T Cells Stimulate function of T cells and B cells Suppressor T Cells Inhibit function of T cells and B cells Regulatory T Cells Are helper and suppressor T cells Control sensitivity of immune response Other T Cells Inflammatory T cells Suppressor/inducer T cells B Cells Make up 1015% of circulating lymphocytes Differentiate (change) into plasma cells Plasma cells Produce and secrete antibodies (immunoglobulin proteins) Antigens Targets that identify any pathogen or foreign compound Immunoglobulin Proteins (Antibodies) The binding of a specific antibody to its specific target antigen initiates antibody-mediated immunity Antibody-Mediated Immunity A chain of events that destroys the target compound or organism Natural Killer (NK) Cells Also called large granular lymphocytes Make up 510% of circulating lymphocytes Responsible for immunological surveillance Attack foreign cells, virus-infected cells, and cancer cells Lymphocyte Distribution Tissues maintain different T cell and B cell populations Lymphocytes wander through tissues Enter blood vessels or lymphatics for transport Can survive many years Lymphocyte production (lymphopoiesis) involves Bone marrow Thymus Peripheral lymphoid tissues Hemocytoblasts In bone marrow, divide into two types of lymphoid stem cells Lymphoid Stem Cells Group 1 Remains in bone marrow Produces B cells and natural killer cells Group 2 Migrates to thymus Produces T cells in environment isolated by blood-thymus barrier T Cells and B Cells Migrate throughout the body To defend peripheral tissues Retain their ability to divide Is essential to immune system function Differentiation B cells differentiate With exposure to hormone called cytokine (interleukin-7) T cells differentiate With exposure to several thymic hormones Lymphoid Tissues Connective tissues dominated by lymphocytes Lymphoid Nodule Areolar tissue with densely packed lymphocytes Germinal center contains dividing lymphocytes Distribution of Lymphoid Nodules Lymph nodes Spleen Respiratory tract (tonsils) Along digestive and urinary tracts Mucosa-Associated Lymphoid Tissue (MALT) Lymphoid tissues associated with the digestive system Aggregated lymphoid nodules Clustered deep to intestinal epithelial lining Appendix (or vermiform appendix) Contains a mass of fused lymphoid nodules The Five Tonsils In wall of pharynx Left and right palatine tonsils Pharyngeal tonsil (adenoid) Two lingual tonsils Lymphoid Organs Lymph nodes Thymus Spleen Are separated from surrounding tissues by a fibrous connective tissue capsule Lymph Nodes Trabeculae Bundles of collagen fibers Extend from capsule into interior of lymph node Hilum A shallow indentation where blood vessels and nerves reach the lymph node Afferent lymphatic vessels Carry lymph: from peripheral tissues to lymph node Efferent lymphatic vessels Leave lymph node at hilum Carry lymph to venous circulation Lymph from Afferent Lymphatics Flows through lymph node in a network of sinuses From subcapsular space: contains macrophages and dendritic cells Through outer cortex: contains B cells within germinal centers Through deep cortex: dominated by T cells Through the core (medulla): contains B cells and plasma cells, organized into medullary cords Finally, into hilum and efferent lymphatics A filter Purifies lymph before return to venous circulation Removes Debris Pathogens 99% of antigens Antigen Presentation First step in immune response Extracted antigens are presented to lymphocytes Or attached to dendritic cells to stimulate lymphocytes Lymphoid Functions Lymphoid tissues and lymph nodes Distributed to monitor peripheral infections Respond before infections reach vital organs of trunk Lymph Nodes of Gut, Trachea, Lungs, and Thoracic Duct Protect against pathogens in digestive and respiratory systems Lymph Nodes (Glands) Large lymph nodes at groin and base of neck Swell in response to inflammation Lymphadenopathy Chronic or excessive enlargement of lymph nodes may indicate infections, endocrine disorders, or cancer The Thymus Located in mediastinum Atrophies after puberty Diminishing effectiveness of immune system Divisions of the Thymus Thymus is divided into two thymic lobes Septa divide lobes into smaller lobules A Thymic Lobule Contains a dense outer cortex and a pale central medulla Lymphocytes Divide in the cortex T cells migrate into medulla Mature T cells leave thymus by medullary blood vessels Reticular Epithelial Cells in the Cortex Surround lymphocytes in cortex Maintain bloodthymus barrier Secrete thymic hormones that stimulate Stem cell divisions T cell differentiation Reticular Epithelial Cells in the Medulla Form concentric layers known as thymic (Hassall) corpuscles The medulla has no bloodthymus barrier T cells can enter or leave bloodstream Thymus Hormones Thymosin, an extract from the thymus that promotes development of lymphocytes Three Functions of the Spleen Removal of abnormal blood cells and other blood components by phagocytosis Storage of iron recycled from red blood cells Initiation of immune responses by B cells and T cells In response to antigens in circulating blood Structure of the Spleen Attached to stomach by gastrosplenic ligament Contacts diaphragm and left kidney Splenic veins, arteries, and lymphatic vessels Communicate with spleen at hilum Inside fibrous capsule Red pulp: contains many red blood cells White pulp: resembles lymphoid nodules Trabecular Arteries Branch and radiate toward capsule Finer branches surrounded by white pulp Capillaries discharge red blood cells into red pulp Red Pulp Contains elements of circulating blood Plus fixed and free macrophages Splenic Circulation Blood passes through Network of reticular fibers Then enters large sinusoids (lined by macrophages) Which empty into trabecular veins Spleen Function Phagocytes and other lymphocytes in spleen Identify and attack damaged and infected cells In circulating blood Body defenses provide resistance to fight infection, illness, and disease Two categories of defenses Nonspecific defenses Specific defenses Nonspecific and specific defenses operate together to provide resistance to infection and disease Nonspecific Defenses Always work the same way Against any type of invading agent Specific Defenses Protect against specific pathogens Depend on activities of lymphocytes Specific resistance (immunity) Develops after exposure to environmental hazards Nonspecific Defenses Seven major categories of nonspecific defenses Physical barriers Phagocytes Immunological surveillance Interferons Complement Inflammatory response Fever Physical Barriers Keep hazardous materials outside the body Phagocytes Attack and remove dangerous microorganisms Immunological Surveillance Constantly monitors normal tissues With natural killer cells (NK cells) Interferons Chemical messengers that trigger production of antiviral proteins in normal cells Antiviral proteins Do not kill viruses Block replication in cell Complement (C) Proteins Form the complement system Complement action of antibodies Inflammation Triggers a complex inflammatory response Fever A high body temperature Increases body metabolism Accelerates defenses Inhibits some viruses and bacteria Physical Barriers Outer layer of skin Hair Epithelial layers of internal passageways Secretions that flush away materials Sweat glands, mucus, and urine Secretions that kill or inhibit microorganisms Enzymes, antibodies, and stomach acid Two Classes of Phagocytes Microphages Neutrophils and eosinophils Leave the bloodstream Enter peripheral tissues to fight infections Macrophages Large phagocytic cells derived from monocytes Distributed throughout body Make up monocytemacrophage system (reticuloendothelial system) Activated Macrophages Respond to pathogens in several ways Engulf pathogen and destroy it with lysosomal enzymes Bind to pathogen so other cells can destroy it Destroy pathogen by releasing toxic chemicals into interstitial fluid Two Types of Macrophages Fixed macrophages Also called histiocytes Stay in specific tissues or organs: e.g., dermis and bone marrow Free macrophages Travel throughout body Special Histiocytes Microglia: found in central nervous system Kupffer cells: found in liver sinusoids Free Macrophages Special free macrophages Alveolar macrophages (phagocytic dust cells) Movement and Phagocytosis All macrophages Move through capillary walls (emigration) Are attracted or repelled by chemicals in surrounding fluids (chemotaxis) Phagocytosis begins: when phagocyte attaches to target (adhesion) and surrounds it with a vesicle Immunological surveillance is carried out by natural killer (NK) cells Identify and attach to abnormal cell (nonselective) Golgi apparatus in NK cell: forms perforin vesicles Vesicles release proteins called perforins (exocytosis) Perforins lyse abnormal plasma membrane Also attack cancer cells and cells infected with viruses Immunological Surveillance Cancer cells With tumor-specific antigens: are identified as abnormal by NK cells some cancer cells avoid NK cells (immunological escape) Viral infections Cells infected with viruses: present abnormal proteins on plasma membranes allow NK cells to identify and destroy them Interferons Proteins (cytokines) released by activated lymphocytes and macrophages Cytokines Chemical messengers released by tissue cells To coordinate local activities To act as hormones to affect whole body Three Types of Interferons Alpha-interferons Produced by leukocytes Stimulate NK cells Beta-interferons Secreted by fibrocytes Slow inflammation Gamma-interferons Secreted by T cells and NK cells Stimulate macrophage activity Complement Plasma contains 11 special complement (C) proteins That complement antibody action Complement activation Complements work together in cascades Two pathways activate the complement system: classical pathway alternative pathway Complement Activation: The Classical Pathway Fast method: C1 binds to antibody molecule attached to antigen (bacterium) Bound protein acts as enzyme Catalyzes chain reaction Complement Activation: The Alternative Pathway Slow method: exposed to antigen Factor P (properdin) Factor B Factor D interact in plasma Complement Activation Both pathways end with Conversion of inactive complement protein C3 To active form C3b Effects of Complement Activation Stimulation of inflammation Attraction of phagocytes Enhancement of phagocytosis by opsonization Complements working with antibodies (opsonins) Destruction of target plasma membranes Five complement proteins join to form membrane attack complex (MAC) Inflammation Also called inflammatory response A localized response Triggered by any stimulus that kills cells or injures tissue Cardinal Signs and Symptoms Swelling (tumor) Redness (rubor) Heat (calor) Pain (dolor) Three Effects of Inflammation Temporary repair and barrier against pathogens Retards spread of pathogens into surrounding areas Mobilization of local and systemic defenses And facilitation of repairs (regeneration) Products of Inflammation Necrosis Local tissue destruction in area of injury Pus Mixture of debris and necrotic tissue Abscess Pus accumulated in an enclosed space Fever A maintained body temperature above 37C (99F) Pyrogens Any material that causes the hypothalamus to raise body temperature: circulating pathogens, toxins, or antibody complexes Endogenous pyrogens = interleukin-1 (IL-1) pyrogen released by active macrophages a cytokine Specific Defenses Specific resistance (immunity) Responds to specific antigens With coordinated action of T cells and B cells T Cells Provide cell-mediated immunity Defend against abnormal cells and pathogens inside cells B Cells Provide antibody-mediated immunity Defend against antigens and pathogens in body fluids Forms of Immunity Innate Present at birth Acquired After birth Active Antibodies develop after exposure to antigen Passive Antibodies are transferred from another source Active Immunity Naturally acquired Through environmental exposure to pathogens Induced Through vaccines containing pathogens Passive Immunity Naturally acquired Antibodies acquired from the mother Induced By an injection of antibodies Four Properties of Immunity Specificity Each T or B cell responds only to a specific antigen and ignores all others Versatility The body produces many types of lymphocytes: each fights a different type of antigen active lymphocyte clones itself to fight specific antigen Memory Some active lymphocytes (memory cells): stay in circulation provide immunity against new exposure Tolerance Immune system ignores normal (self) antigens The Immune Response Two main divisions Cell-mediated immunity (T cells) Antibody-mediated immunity (B cells) T Cells and Immunity Cell-mediated immunity (T cells) Cytotoxic T cells (also called TC cells) Attack cells infected by viruses Responsible for cell-mediated immunity Helper T cells (also called TH cells) Stimulate function of T cells and B cells Suppressor T cells (also called TS cells) Inhibit function of T cells and B cells Antigen Recognition T cells only recognize antigens that are bound to glycoproteins in plasma membranes MHC Proteins The membrane glycoproteins that bind to antigens Genetically coded in chromosome 6 The major histocompatibility complex (MHC) Differs among individuals Two Classes of MHC Proteins Class I Found in membranes of all nucleated cells Class II Found in membranes of antigen-presenting cells (APCs) Found in lymphocytes Class I MHC Proteins Pick up small peptides in cell and carry them to the surface T cells ignore normal peptides Abnormal peptides or viral proteins activate T cells to destroy cell Class II MHC Proteins Antigenic fragments From antigenic processing of pathogens Bind to Class II proteins Inserted in plasma membrane to stimulate T cells Antigen-Presenting Cells (APCs) Responsible for activating T cells against foreign cells and proteins Phagocytic APCs Free and fixed macrophages In connective tissues Kupffer cells Of the liver Microglia In the CNS Non-phagocytic (pinocytic) APCs Langerhans cells In the skin Dendritic cells In lymph nodes and spleen Antigen Recognition Inactive T cell receptors Recognize Class I or Class II MHC proteins Recognize a specific antigen Binding occurs when MHC protein matches antigen CD Markers Also called cluster of differentiation markers In T cell membranes Molecular mechanism of antigen recognition More than 70 types: designated by an identifying number CD3 Receptor Complex Found in all T cells CD4 Markers Found on cytotoxic T cells and suppressor T cells Respond to antigens on Class I MHC proteins CD8 Markers Found on helper T cells Respond to antigens on Class II MHC proteins CD8 or CD4 Markers Bind to CD3 receptor complex Prepare cell for activation Costimulation For T cell to be activated, it must be costimulated By binding to stimulating cell at second site Which confirms the first signal Two Classes of CD8 T Cells Activated by exposure to antigens on MHC proteins One responds quickly: producing cytotoxic T cells and memory T cells The other responds slowly: producing suppressor T cells Cytotoxic T Cells Also called killer T cells Seek out and immediately destroy target cells Actions of Cytotoxic T Cells Release perforin: To destroy antigenic plasma membrane Secrete poisonous lymphotoxin: To destroy target cell Activate genes in target cell: That cause cell to die Slow Response Can take up to 2 days from time of first exposure to an antigen for cytotoxic T cells to reach effective levels Memory TC Cells Produced with cytotoxic T cells Stay in circulation Immediately form cytotoxic T cells if same antigen appears again Suppressor T Cells Secrete suppression factors Inhibit responses of T and B cells Act after initial immune response Limit immune reaction to single stimulus Helper T Cells Activated CD4 T cells divide into Active helper T cells (TH cells): secrete cytokines Memory TH cells: remain in reserve Four Functions of Cytokines Stimulate T cell divisions Produce memory TH cells Accelerate cytotoxic T cell maturation Attract and stimulate macrophages Attract and stimulate NK cells Promote activation of B cells B Cells and Immunity B Cells Responsible for antibody-mediated immunity Attack antigens by producing specific antibodies Millions of populations, each with different antibody molecules B Cell Sensitization Corresponding antigens in interstitial fluids bind to B cell receptors B cell prepares for activation Preparation process is sensitization B Cell Sensitization During sensitization, antigens are Taken into the B cell Processed Reappear on surface, bound to Class II MHC protein Helper T Cells Sensitized B cell is prepared for activation but needs helper T cell activated by same antigen B Cell Activation Helper T cell binds to MHC complex Secretes cytokines that promote B cell activation and division B Cell Division Activated B cell divides into Plasma cells Memory B cells Plasma Cells Synthesize and secrete antibodies into interstitial fluid Memory B Cells Like memory T cells, remain in reserve to respond to next infection Antibody Structure Two parallel pairs of polypeptide chains One pair of heavy chains One pair of light chains Each chain contains Constant segments Variable segments Five Heavy-Chain Constant Segments Determine five types of antibodies IgG IgE IgD IgM IgA Variable Segments of Light and Heavy Chains Determine specificity of antibody molecule Binding Sites Free tips of two variable segments Form antigen binding sites of antibody molecule Which bind to antigenic determinant sites of antigen molecule Antigen-Antibody Complex An antibody bound to an antigen A Complete Antigen Has two antigenic determinant sites Binds to both antigen-binding sites of variable segments of antibody B Cell Sensitization Exposure to a complete antigen leads to B cell sensitization Immune response Hapten (also called partial antigen) Must attach to a carrier molecule to act as a complete antigen Dangers of Haptens Antibodies produced will attack both hapten and carrier molecule If carrier is normal Antibody attacks normal cells For example, penicillin allergy Five Classes of Antibodies Also called immunoglobulins (Igs) Are found in body fluids Are determined by constant segments Have no effect on antibody specificity Seven Functions of Antigen-Antibody Complexes Neutralization of antigen-binding sites Precipitation and agglutination: formation of immune complex Activation of complement Attraction of phagocytes Opsonization: increasing phagocyte efficiency Stimulation of inflammation Prevention of bacterial and viral adhesion Primary and Secondary Responses to Antigen Exposure Occur in both cell-mediated and antibody-mediated immunity First exposure Produces initial primary response Next exposure Triggers secondary response More extensive and prolonged Memory cells already primed The Primary Response Takes time to develop Antigens activate B cells Plasma cells differentiate Antibody titer (level) slowly rises Peak response Can take 2 weeks to develop Declines rapidly IgM Is produced faster than IgG Is less effective The Secondary Response Activates memory B cells At lower antigen concentrations than original B cells Secretes antibodies in massive quantities Effects of Memory B Cell Activation IgG Rises very high and very quickly Can remain elevated for extended time IgM Production is also quicker Slightly extended Combined Responses to Bacterial Infection Neutrophils and NK cells begin killing bacteria Cytokines draw phagocytes to area Antigen presentation activates Helper T cells Cytotoxic T cells B cells activate and differentiate Plasma cells increase antibody levels Combined Responses to Viral Infection Similar to bacterial infection But cytotoxic T cells and NK cells are activated by contact with virus-infected cells Immune System Development Immune System Development Fetus can produce immune response (has immunological competence) After exposure to antigen At about 34 months Development of Immunological Competence Fetal thymus cells migrate to tissues that form T cells Liver and bone marrow produce B cells 4-month fetus produces IgM antibodies Before Birth Maternal IgG antibodies Pass through placenta Provide passive immunity to fetus After Birth Mothers milk provides IgA antibodies While passive immunity is lost Normal Resistance Infant produces IgG antibodies through exposure to antigens Antibody, B cell, and T cell levels slowly rise to adult levels About age 12 Six Groups of Hormonal Cytokines Interleukins Interferons Tumor necrosis factors (TNFs) Chemicals that regulate phagocytic activities Colony-stimulating factors (CSFs) Miscellaneous cytokines Immune Disorders Autoimmune disorders Immunodeficiency disease Allergies Autoimmune Disorders A malfunction of system that recognizes and ignores normal antigens Activated B cells make autoantibodies against body cells Thyroiditis Rheumatoid arthritis Insulin-dependent diabetes mellitus (IDDM) Immunodeficiency diseases result from Problems with embryological development of lymphoid tissues: Can result in severe combined immunodeficiency disease (SCID) Viral infections such as HIV Can result in AIDS Immunosuppressive drugs or radiation treatments: Can lead to complete immunological failure Allergies Inappropriate or excessive immune responses to antigens Allergens Antigens that trigger allergic reactions Four Categories of Allergic Reactions Type I Immediate hypersensitivity Type II Cytotoxic reactions Type III Immune complex disorders Type IV Delayed hypersensitivity Type I Allergy Also called immediate hypersensitivity A rapid and severe response to the presence of an antigen Most commonly recognized type of allergy Includes allergic rhinitis (environmental allergies) Type I Allergy Sensitization leads to Production of large quantities of IgE antibodies distributed throughout the body Second exposure leads to Massive inflammation of affected tissues Severity of reaction depends on Individual sensitivity Locations involved Allergens (antigens that trigger reaction) in bloodstream may cause anaphylaxis Anaphylaxis Can be fatal Affects cells throughout body Changes capillary permeability Produce swelling (hives) on skin Smooth muscles of respiratory system contract Make breathing difficult Peripheral vasodilatation Can cause circulatory collapse (anaphylactic shock) Antihistamines Drugs that block histamine released by mast cells Can relieve mild symptoms of immediate hypersensitivity Stress and the Immune Response Glucocorticoids Secreted to limit immune response Long-term secretion (chronic stress): inhibits immune response lowers resistance to disease Functions of Glucocorticoids Depression of the inflammatory response Reduction in abundance and activity of phagocytes Inhibition of interleukin secretion Aging and the Immune Response Immune system diminishes with age, increasing vulnerability to infections and cancer Four Effects of Aging on the Immune Response Thymic hormone production is greatly reduced T cells become less responsive to antigens Fewer T cells reduces responsiveness of B cells Immune surveillance against tumor cells declines Interactions with Other Systems Nervous and Endocrine Systems Interact with thymic hormones Adjust sensitivity of immune response Disorders of the Lymphoid System Three categories affect immune response Disorders resulting from: an insufficient immune response an inappropriate immune response an excessive immune response Uv- L 1 K % D  / 0 } . 8 j`vx Fg -=`ccLYg\s&go2hHho5OJQJhHho5CJOJQJaJhHhoOJQJhHhoCJOJQJaJP!,U]flv  - @ L i  & Fgdo & Fgdo & Fgdo & Fgdos 1 K a % D  . / 0 1 M d  & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdod }  . / G | 9l 8[q & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdoq Cju(N`x  & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo Fg =`~5Ocw & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & FgdowEQz Gcu & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo$%8`s0Yg & Fgdo & Fgdo & Fgdo & Fgdo & Fgdon 6aE\ & & Fgdo & Fgdogdo & Fgdo & Fgdo & Fgdo&=go2Yj 6Fu & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo2Y3 B R S d s !d!j!!!!!"""Z""""#.#B#X#s######$&$G$$$%~% '7'j'|'''()c))))*'+W+n+++++, ,*,G, -*-U-q-----.G.7/hHho5CJOJQJaJhHho5OJQJhHhoCJOJQJaJhHhoOJQJPBx 3 S o ! !! & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo!4!d!j!!!!""8"Z"["|""".#X####$&$-$7$ & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo7$G$]${$$$$%H%~%%% &6&X&h&&&&& '7'O'w' & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdow''''' ('(^((((())C))))),*K****'+ & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo'+@+n+++++ ,G,\,~,,,, -*-+-@-U-q---- & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo-.2.G.....6/7/L/f/////03040I0x00000 & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo7/K////03000 1,1W1r1111-2[2s22222 3[333$4J4f4r44415K5i55P6j6{6}6666677?7L77777P8Z8q88888991:P:::::; <'<:<d<u<<<<.=N=d=hHho5OJQJhHhoOJQJhHhoCJOJQJaJhHho5CJOJQJaJO00000 1,1W1r11112-2A2[2s222222 3#3 & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo#383[3n333333$4J4K4f4r444444 5)5i55 & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo555 6P6j6}6666667?7g7x777778\8q888 & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo8999m999:#:1:P:w:::: ;9;F;;;;; < < & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo <'<:<Q<d<u<<<<<<<<.=N=d====== >V> & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdod=====>>s>>>>>?D?n?p?????@@-@5@7@^@@@*BUBoBwBxBBBBBBB2Cs>>>>>>?-?D?q??????@7@^@@@@@%A & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo & Fgdo%ABASAcApA~AAAA*BUBoBxBBBBBBC2C>>)>U>]>>>>>>>??h?t???@ @2@F@l@v@@@@@AA)AJAtAAAA B6B^BsBBBC)CTCoCCCCCCD+DhDDDDDE:EkElEEEEFF$F1F;FFFgFxFFFFFF G&GVGbGGGGGHH3H4H@HrHHHHHHI"I?INIIIIIJ4JcJ~JJJJJK)KOKnKKKKK:LKLkLLLLLM8MaMqMMMMMMN"N:NaNNNNNNNN O8 0?8 0@ 0A1( 0Bj( 0Cj 0D1( 0E( 0F 0G1( 0HN ( 0IN ( 0JN 8 0K 8 0L 8 0M 8@0  0N1( 0O 8 0P ( 0Q 8 0RF 8 0SF H 0T H 0U  0V1( 0W 8 0X ( 0Y 8 0Z= 8 0[= (@0  0\1( 0] 8 0^ 8 0_ 8 0` ( 0a  0b1( 0c5 8 0dO 8 0eO 8 0fO ( 0g5 @01 0h1( 0i ( 0j ( 0k  0l1( 0mE ( 0nE  0o1( 0p 8 0q ( 0r 8 0s ( 0t 8 0u  0v1( 0w 0x1( 0yG( 0zG( 0{G@01 0|1( 0}( 0~ 01( 0(@0 01( 0% 01( 0`( 0`(@0` 01( 0( 0 01( 0( 0( 08 0Y 01( 0 01( 0 01( 00@ 0(@ 0(@ 0(@ 0(@ 0(@0 0(@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 0@0@ 0(@ 08@ 08@ 0(@ 08@ 08@ 08@0@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 08@ 0(@ 08@ 0@0 0(@ 0@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 08@ 0@ 0(@ 0@ 0(@ 08@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0@ 0@0@ 0(@ 08@ 08@ 0(@ 08@ 0(@ 08@ 0H@ 0(@ 08@ 08@ 0H@0@ 0(@ 08@ 08@ 08@ 08@ 08@ 0(@ 08@ 0(@ 08@ 08@ 08@ 0@ 0(@ 0(@ 08@ 0@ 0(@ 08@ 08@ 0@ 0(@ 0@ 0(@ 0(@ 0@ 0(@ 0@0@ 0(@ 0(@ 08@ 0@ 0(@ 0(@ 0@ 0(@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 08@ 0@ 0(@ 0@ 0(@ 0(@ 0(@ 08@ 0@ 0(@ 0(@ 0(@ 08@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 0@0@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 08@ 08@ 0@ 0@ 0(@ 0(@ 0@ 0(@0@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 08@ 0@0@0@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 0@ 0(@ 0@ 0(@ 08@ 0@ 0(@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 0@ 0(@ 0@ 0(@ 08@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0(@ 08@ 0(@ 08@ 0@0@ 0(@ 08@ 08@ 08@ 08@0(@ 08@ 08@ 08@ 0@ 0(@ 08@ 08@ 08@ 0@ 0(@ 08@ 08@ 0H@ 0(@ 08@ 0@ 0(@ 0(@ 0@ 0(@ 08@ 0@ 0(@ 08@ 08@ 08@ 0H@ 0H@ 0@ 0(@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 0H@ 0H@ 0(@ 08@ 0H@ 0H@ 0@ 0(@ 0@ 0(@ 08@ 08@ 0@0@ 0(@ 08@ 08@ 0(@ 08@ 08@ 0(@ 08@ 08@ 0@0@ 0(@ 08@ 0(@ 08@ 08@ 0H@ 0H@ 0(@0@ 0(@ 0(@ 08@ 0@ 0(@ 08@ 08@ 08@ 0@ 0(@ 08@ 08@ 0@0 0(@ 0(@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 08@ 0@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 0(@ 08@ 0H@ 0(@ 0H@ 0H@ 0@0@0(@ 08@ 08@ 0(@ 08@ 08@ 0(@ 08@ 08@ 0@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0(@0@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 08@ 0(@ 08@ 0H@ 0H@ 0(@ 08@ 0H@ 0H@ 0(@ 08@ 0@ 0(@ 08@ 08@ 0(@0@0@ 0(@ 08@ 08@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 0@ 0(@ 0(@ 08@ 08@ 0@ 0(@ 08@ 0(@ 08@ 08@ 0@ 0(@ 08@ 08@ 0@ 0(@ 08@ 08@ 08@ 0@0@ 0(@ 0@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 08@ 08@ 0(@ 0@ 0(@ 08@ 08@ 08@ 0H@ 0@ 0(@ 0@0@ 0(@ 0(@ 0@ 0(@ 0(@ 0@0@ 0(@ 0(@ 0@ 0(@ 08@ 08@ 0@ 0(@ 08@ 0H@ 08@ 0H@ 0@ 0(@ 0(@ 0@0(@ 08@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 0H@ 08@ 0H@ 0@ 0(@ 08@ 08@ 0(@ 0(@ 0(@ 0(@0@0@0@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 08@ 08@ 0@ 0(@ 0@ 0(@ 08@ 0(@0@ 0(@ 08@ 08@ 0@ 0(@ 0@ 0(@ 0(@0@ 0(@ 08@ 08@ 0(@ 08@ 08@ 0@ 0(@ 08@ 08@ 08@ 08@ 08@ 0@ 0(@ 0@ 0(@ 08@ 08@ 0@ 0(@ 0(@0@ 0(@ 0(@ 0@ 0(@ 08@ 08@ 0@ 0(@ 0@ 0(@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0(@ 0@0@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@0 0(@ 0(@ 08@ 0(@ 08@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 08@ 0(@ 08@ 08@ 0@ 0(@ 08@ 08@ 0@ 0(@ 08@ 08@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 08@ 08@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@0@0@ 0(@ 08@ 08@ 0@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 08@ 0@ 0(@ 08@ 0@0@ 0(@ 0(@ 08@ 0@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@ 0@0@ 0(@ 0(@ 0(@ 0@ 0(@ 0(@ 0(@ 0(@ 0(@ 0(@0@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 0@ 0(@ 0@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 08@0@ 0(@ 0(@ 0(@ 0(@ 0@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 08@ 0(@ 0@ 0(@ 0(@ 0(@ 08@ 0(@ 08@ 0(@ 08@ 0@ 0(@ 0(@ 0@ 0(@ 08@ 08@ 0H@ 0H@ 0@ 0(@ 0(@ 0(@ 0@0@0@ 0@0@ 0(@ 0(@ 0(@ 0(@ 0(@0(@0@0@ 0(@ 0(@ 0@ 0(@ 08@ 0H@ 0H@ 0H@ 0@0!,U]flv C( N ` x kI00I00I00I00I00I00I00I00I00I00I00}+=+:JPK00`I00@ 0I00I00I00K0027/d=FO\ns:ELRW[ah d q w&!7$w''+-0#358 <V>%ACFHKNPS:V+Yq[I^a|cfhknqs;=>?@ABCDFGHIJKMNOPQSTUVXYZ\]^_`bcdefgijs<8Bl v } [ e - 5 6 ; = E F K % / } cl+5sFM di16oyXgjpF O c!i!k!r!!!""W#d#####G$Q$+%2%%%(())r,},,,,,- -1-9-M-`---..////?/F/////P0Z0\0h091>1[1c11111111193D34&4-484i4t44444667778-858\9a9i9n92;:;;;;;JASABBBB3CECCCEEEEEEFF1F:FJFTFVF_FaFeFgFqFFFIHRH?ILIuII>JGJJJKKK'KaKlKLLYLbLLLENNNiSlSmSpSqStSuSxSyS|SUUUV-V3VVVVVXX}XXXXXXCZFZ_ZbZ,[/[x[{[[[U\^\\]^^^^ _#_r_u_`%`>`B`\`f```kayaaaccAeDeghhhiijjk q0u000P2S2w2{222 335555;;;;< <????2@6@F@M@GG4J=J~JJMMMM~OOP#PQQQQ/U3U}XX[[?=>$D;5'<a 2 6W  @{@Wingdings-{@"Arial-- 2 =- 2 + 4-2 _ Pathogens <<'?=><?4# 2  A@Wingdings-@"Arial-- 2 @5- 2 @ )-G2 @(Microscopic organisms that cause diseaseT4+=44=>4#=+><@5a4#'?='#4<?4<#?4<=4< 2 @  @@Wingdings-@"Arial-- 2 .- 2 H -2 eVirusesyD+?4<4 2  A- 2 3.- 2 3H -2 3eBacteriaE<4'<+< 2 3 @- 2 .- 2 H -2 eFungir9??? 2 v A- 2 &.- 2 &H -2 &e Parasites<<+<4'<4 2 &* A- 2 5- 2  )-:2 Each attacks in a specific way ?<4?#<('<4;4$?#<$4?<4#4#R<;# 2   A 2   @- 2 =- 2 + 4-(2 _The Lymphoid Systemp>?<#8;a>?=>#E;4'=a 2  @- 2 (5- 2 ( )-42 (Protects us against diseasew<+='<4'4#?4#<>=?5'$>4<<4< 2 (7  @- 2 5- 2  )-;2  Lymphoid system cells respond to8;a>?=>#5;4'<a#5<4#+<4>=?>#'= 2   A- 2 .- 2 H -.2 eEnvironmental pathogens??;+=?a<?'=#>='@=><?4 2 j  @- 2 .- 2 H -2 eToxins>=;?4 2  @- 2  .- 2  H -C2  e%Abnormal body cells, such as cancers aD>?=+a<$>=>;#4<5$#4?4?$<4#4<?4<+4# 2   A- 2 =- 2 + 4-&2 _Specific Defenses D><4#4#M<#<?4<4# 2  @- 2  5- 2   )-2   Lymphocytes8;a>?=4;'<4 2  v A- 2 .- 2 H -52 ePart of the immune response <<+'#=##'?<$aa@?<#+<4>=?4<# 2 >  ?- 2  .- 2  H -F2  e'Identify, attack, and develop immunity:e*><?'#<$#<('<4<$#<@>#><;<=>#ba?@'<- 2  =  @@"Arial-@"Arial-- 2 .- 2  -,2 to a specific pathogen'=#<#4><4$4#>='?=?<? 2 L  @ 2   @ 2 }  @- 2 =- 2 + 4-&2 _The Immune System >?<#*aa??<#D;5'<a# 2  @- 2 5- 2  )-2 Immunity*aa?@'; 2  A- 2 .- 2 H -M2 e,The ability to resist infection and disease >?<#<>';$'=#+<44'$?#<4'=@#<?>$>4<<5<# 2   @- 2 5- 2  )-2  All body cellD$>=>;#4<S2 >0s and tissues involved in production of immunity4#<@>#(44?<4#?;=;<>#@#>+=>?4'=?#=#$ab??(; 2  @- 2 .- 2 H -12 eNot just lymphoid system sK='#"?4'$;b>?=?#5;4'<a# 2   A- 2 =- 2 + 4-+2 _Nonspecific Defenses nK=?4><4#4#M<#<?4=4# 2  @- 2 5- 2  )-U2 1Block or attack any potential infectious organismE=4;#=+#<''<4;#<@;$>='<?'=#?#<4'=?4$=+><?4a 2 ~  A- 2 5- 2  )-J2 *Cannot distinguish one attack from anotherF<??='#>4'?>@4?$=?<#<''<4;##+=a#<?>'?<+ 2 q  @ 2  @- 2 y5- 2 y# <-@2 y_#Organization of the Lymphoid SystemiO+><?5<'=?#=#$'?<$8;a>?=>$D;4'<a 2 y  A@"Verdana- - 2 .- 2  0- 2 Lymphi@AjFG 2 Z G@Wingdings- - 2 l&- 2 l@ %-.2 leA fluid similar to plasD##@>#5b<+#'=$>=4A2 l$ma but does not have plasma proteinsa<#>@'#>=<4#?='#@<;<#><4a<$>+='<?5 2 l @- 2 .- 2  0- 82 Lymphatic vessels (lymphatics)@AjFGC.";"AB;;B#;"6"AjFGC.";;6 2   H- 2 _&- 2 _@ %-b2 _e:Carries lymph from peripheral tissues to the venous systemF<++<4#;a>?##+=a$><+>?<+<#'54?<4#(=#'?<#;<?=?4#4;4'=a 2 _+ @- 2 .- 2  0- %2 Lymphoid tissues o@AjFGE"F".";;GB;#-2 and<?>- #2  lymphoid organs""AjFGE"F"E2FCG; 2 \  G- 2 R.- 2 R 0- 12 RLymphocytes, phagocytes, @AjFGE;A.B;$"FGCFE;A.B;$"-2 R and<?>- 22 R  other immune system cells"E.GC2""jjGGB";B;.Bj#;B""; 2 R H 2  G- 2 E @- 2 =- 2 + 4-:2 _Function of the Lymphoid System9??5'=?#=#$'?<#8;b>?=>$D;4'<a 2   A- 2 P5- 2 P )-2 PTo >=#O2 P-produce, maintain, and distribute lymphocytes>+=>?4<$#a<?(<?$#<??#>5'+??'<#<a>?=4;'<4 2 P  A"Systemp-                     ՜.+,04 hp  WCJC7k e Overview of the Lymphoid System Overview of the Lymphoid System Pathogens 1 Microscopic organisms that cause disease( Each attacks in a specific way  The Lymphoid System$ Protects us against disease) Lymphoid system cells respond to Specific Defenses  Lymphocytes  The Immune System  ImmunityF All body cells and tissues involved in production of immunity Nonspecific Defenses : Block or attack any potential infectious organism3 Cannot distinguish one attack from another ( Organization of the Lymphoid System Lymph' Lymphatic vessels (lymphatics)- Lymphoid tissues and lymphoid organs? Lymphocytes, phagocytes, and other immune system cells  $ Function of the Lymphoid System9 To produce, maintain, and distribute lymphocytes   Structures of Body Defenses Lymphocyte Production ! Lymphocytes are produced! Lymphocyte distribution  Lymphocyte Circulation = From blood to interstitial fluid through capillaries: Returns to venous blood through lymphatic vessels@ Lymph = interstitial fluid that has entered a lymphatic The Circulation of FluidsA From blood plasma to lymph and back to the venous system; Transports hormones, nutrients, and waste products Lymphatic Vessels & Are vessels that carry lymph 5 Lymphoid system begins with smallest vessels Lymphatic Capillaries 3 Differ from blood capillaries in four ways Lymphatic Capillaries > Endothelial cells loosely bound together with overlap& Overlap acts as one-way valve Lymph FlowY From lymphatic capillaries to larger lymphatic vessels containing one-way valves, Lymphatic vessels travel with veins Lacteals= Are special lymphatic capillaries in small intestine. Transport lipids from digestive tract Lymphatic Vessels Superficial lymphatics  Deep lymphatics  Are located in% Superficial and Deep Lymphatics  The deep lymphatics ) Superficial and deep lymphatics # Major Lymph-Collecting Vessels' The base of the thoracic duct + Cisterna chyli receives lymph from + The Inferior Segment of Thoracic Duct  Collects lymph from* Empties into left subclavian vein The Right Lymphatic Duct  Collects lymph from+ Empties into right subclavian vein  Lymphedema / Blockage of lymph drainage from a limb Causes severe swelling0 Interferes with immune system function  Lymphocytes1 Make up 2030% of circulating leukocytes) Most are stored, not circulating- Three Classes of Circulating Lymphocytes T cells B cells NK cells T Cells / Make up 80% of circulating lymphocytes Three Main Types of T Cells Cytotoxic T cells Helper T cells Suppressor T cells  Cytotoxic T Cells ) Attack cells infected by viruses' Produce cell-mediated immunity Helper T Cells2 Stimulate function of T cells and B cells Title Headingsd  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijkmnopqrstuvwxyz{|}~Root Entry F s1TablelWordDocument1SummaryInformation((DocumentSummaryInformation8CompObjq  FMicrosoft Office Word Document MSWordDocWord.Document.89q