Biology 112

Chapter 14: Lymphatic System & Immunity

Introduction/Functions of the Lymphatic System

• draining excess interstitial fluid: lymphatic vessels drain excess fluid from tissue spaces & return it to the blood
• transporting dietary lipids: lymphatic vessels transport lipids & lipid-soluble vitamins (A,D,E & K) absorbed by GI tract to the blood
• carrying out immune responses: lymphatic tissue initiates specific immune responses to microbes or abnormal cells

Lymphatic Pathways: lymphatic capillaries ® lymphatic vessels ® subclavian veins

• lymphatic capillaries: microscopic closed-ended tubes that extend into interstitial spaces & receive lymph through their walls
• lymphatic vessels: walls similar to veins (thinner) with valves to prevent backflow
• large lymphatic vessels pass through lymph nodes & merge into lymphatic trunks
• lymphatic trunks lead to 2 collecting ducts: thoracic duct & right lymphatic duct
• collecting ducts join subclavian veins

Tissue Fluid & Lymph

• tissue fluid is formed from blood plasma; includes smaller proteins (excludes large)
• increased protein concentration in tissue fluid increases colloid osmotic pressure
• pressure increase forces some tissue fluid into lymphatic capillaries ® lymph
• lymph returns proteins with fluid to bloodstream & transports foreign particles to lymph nodes
• movement of lymph is generally slow due to low pressure; contraction of skeletal muscles & pressure due to breathing accelerates lymph movement

Lymphoid Organs: Thymus & Spleen
Thymus: located in mediastinum above heart

• composed of lymphatic tissue subdivided into lobules
• size is large at birth; shrinks during aging following puberty
• T lymphocytes mature (become fully active) in the thymus; the mature T cells then may migrate to other lymphoid tissues to provide immunity

Spleen: located in upper left quadrant of abdominopelvic cavity; under diaphragm & posterolateral to stomach

• resembles large lymph node subdivided into lobules
• islands of white pulp contains lymphocytes; surrounding red pulp contains red blood cells & some leukocytes
• sinuses within splenic lobules filled with blood; spleen is primary site for red blood cell breakdown
• macrophages in spleen filter foreign particles & begin breakdown of damaged RBCs

Body Defenses Against Infection: innate (nonspecific) & adaptive (specific)

• pathogens (bacteria, viruses, fungi, parasites, etc.) cause infection

Innate (Nonspecific) Defenses: includes species resistance, mechanical & chemical barriers, fever, inflammation & phagocytosis

• species resistance: each species is resistant to diseases that affect other species
• mechanical barriers: skin & mucous membranes; block entry of pathogens
• chemical barriers: enzymes & acid (low pH) in gastric juice kill pathogens; antimicrobials (lysozyme) in tears kills some pathogens
• interferons: proteins released by virus-infected cells that stimulate uninfected cells to synthesize antiviral proteins
• stimulates phagocytosis, blocks viral replication, enhances WBC activity & slows tumor growth
• fever: increase in body temperature due to infection
• decreases blood iron level (slows bacterial growth) & increases phagocyte activity
• inflammation: tissue response to injury or infection
• 4 signs: localized redness, swelling, heat & pain
• chemicals released by damaged tissues attract WBCs to site
• inflammatory mediators: histamine from mast cells & basophils & other chemicals that cause vasodilation & increased blood vessel permeability
• fibrous CT may form  a sac around injured tissue & block pathogen spread
• phagocytosis: neutrophils & macrophages destroy bacteria & foreign particles
• neutrophils enter infected tissue from blood; monocytes exit bloodstream & transform into macrophages that stay in tissues
• phagocytes associated with lining of blood vessels, bone marrow, liver, spleen, lungs & lymph nodes

Adaptive (Specific) Defenses: immune responses to specific pathogens & unwanted cells by antibodies from B lymphocytes & T lymphocytes

• antigens: molecules (especially proteins) that provoke an immune response
• during development, body learns to distinguish self antigens from nonself
• nonself antigens combine with surface receptors on B cells & T cells and stimulate an immune reaction
• haptens: small molecules that need carrier (larger molecule) to become antigenic
• lymphocytes are produced in red bone marrow & released into blood
• T cells mature in the thymus
• B cells mature in the bone marrow
• lymphatic tissues contain both T cells & B cells
• T cells interact with antigens directly ® cellular immune response
• T cells secrete cytokines (interleukins) that enhance cellular responses to antigens
• T cells may also secrete toxic substances that destroy target cells
• B cells interact with antigens indirectly ® humoral immune response
• T cells & B cells can form millions of different varieties to react against a wide variety of possible antigens
• each individual variety can interact with only one specific antigen
• members of each variety form a clone
• T cells & cellular immune response
• T cells activate when an antigen-presenting cell (APC) displays a foreign antigen
• macrophages phagocytize pathogen or large antigen, partially digests proteins & displays antigens on cell surface in association with major histocompatibility complex (MHC or HLA) protein
• helper T cell: activated by binding antigen/HLA complex on APC
• when helper T cell binds antigen/HLA complex on B cell, it releases cytokines that stimulate B cell & T cell proliferation & attracts macrophages for phagocytosis
• cytotoxic T cells recognize antigen/HLA complexes on tumor cells or virus-infected cells & destroy these cells with perforin proteins
• memory T cells respond quickly to subsequent antigen exposure
• B cells & humoral immune response
• a B cell becomes activated when antigen binds to cell surface receptors; activation may be enhanced by helper T cell stimulation
• an activated B cell generates a clone that produces memory B cells & plasma cells that secrete antibodies
• antibodies bind to & generally inactivate the antigen
• B cells & their antibodies can defend against millions of different antigens by forming different antigen-binding sites on antibodies
• 5 classes of antibodies (immunoglobulins)
• antibodies are soluble proteins consisting of 4 polypeptide chains (2 heavy chains, 2 light chains) that form a Y-shaped structure
• each antibody has 2 antigen-binding sites at variable regions of chains
• IgD: B cell antigen receptor
• IgM: pentamer in blood; first Ig class secreted; agglutinating agent; activates complement
• IgG: most abundant antibody in blood; protects against bacteria, viruses & toxins; activates complement; crosses placenta
• IgA: dimer found in secretions (mucus, saliva, sweat intestinal juice, milk), helps to prevent pathogens from entering body
• IgE: normally rare in blood (increase during allergic reaction), binds to mast cells & basophils & causes release of histamine & other mediators of inflammation
• antibody actions
• antibodies bind to antigens, activate complement, & stimulate tissue inflammation
• antigen binding results in agglutination, precipitation or neutralization
• activated complement attracts phagocytes, makes foreign cells more susceptible to phagocytosis & ruptures foreign cell membranes (lysis)
• primary & secondary immune responses
• primary immune response is body’s first response to antigen; antibodies are produced for several weeks & long-lived memory cells are produced
• secondary immune response uses memory cells to react quickly to subsequent exposure to previously encountered antigen
• practical classification of immunity
• active immunity: produce own antibodies; passive immunity: given antibodies
• naturally acquired active immunity: produced through antigens from infections
• artificially acquired active immunity: produced through antigens from vaccines
• naturally acquired passive immunity: antibodies pass from mother to child        
• artificially acquired passive immunity: antibodies acquired from immune serum
• allergic reactions
• allergic reactions are excessive immune responses to antigens (allergens) that may damage tissue
• repeated exposure to antigens can result in delayed hypersensitivity that can cause skin inflammation
• immediate hypersensitivity results from overproduction of IgE against allergen
• allergy results from mast cells releasing histamine, prostaglandin & leukotrienes that cause tissue inflammation, contraction of bronchial & intestinal smooth muscles & increased mucus production
• allergy symptoms include hives, hay fever, asthma, eczema & gastric disturbance
• transplantation & tissue rejection
• tissue rejection occurs when immune system of transplant recipient reacts against donated tissue
• matching donor & recipient tissue antigens (MHC antigens (HLA in humans) on cell surface of tissue cells) & immunosuppression can minimize tissue rejection
• immunosuppressive drugs may, however, increase likelihood of infection
• autoimmunity
• in autoimmune disorders, the immune system produces autoantibodies that attack a person’s own body tissues
• autoimmunity may result from a previous viral infection, faulty T cell development or a nonself antigen that resembles self antigen