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DEFENSE AGAINST DISEASE © 2016 Paul Billiet ODWS INFECTIOUS DISEASE Caused by microbes which invade the body and upset it’s homeostasis Microbes that cause diseases = pathogens E.g. viruses, bacteria, fungi, protozoans. © 2016 Paul Billiet ODWS Antibiotics Only useful against bacteria Inhibit growth of prokaryote but do not affect eukaryotes Viruses use their host cell’s metabolism Viruses a unaffected by antibiotics. © 2016 Paul Billiet ODWS Penecillin • Alexandre Fleming 1928 • Florey & Chain 1939-1940 © 2016 Paul Billiet ODWS Fleming • Plate of staphylococcus bacteria contaminated by mould • The mould inhibited bacterial growth • Toxicity tests seemed good on mice & rabbits • But the active component seemed to disappear rapidly from the blood • Fleming though it might be useful as an antiseptic. © 2016 Paul Billiet ODWS Mould colony Zone of inhibition Bacteria Florey & Chain 1940 • Purified penicillin • Not an enzyme • 8 mice injected with a streptococcal infection • 4 experimental 4 controls • 16.5h later the control mice were dead • Scaled up testing on hundreds of mice. © 2016 Paul Billiet ODWS Skin – primary defense © 2016 Paul Billiet ODWS www.agen.ufl.edu/.../lect/lect_19/lect_19.htm. Skin • Skin consists of the epidermis • Dead, waterproof layer prevents microbes from entering the skin • Continually replaced from below • Skin flora act as commensals • Blood clotting seals cuts. © 2016 Paul Billiet ODWS Mucus membranes – primary defense www.lab.anhb.uwa.edu.au/.../Images/sto040pa.jpg © 2016 Paul Billiet ODWS Mucus membranes • Mucus membranes cover the inner compartments of the body • Cells being constantly renewed from below Not waterproof • These membranes secrete mucus (mucopolysaccharide), and sugars • Mucus traps materials in the airways • A commensal flora grows there too feeding on the secretions. © 2016 Paul Billiet ODWS Other defences • HCl is secreted from the stomach mucosa = an anti-microbial agent • Secretions of lysozyme produced by glands such as tear and salivary glands. © 2016 Paul Billiet ODWS Phagocytic leucocytes • Leucocytes (white blood cells) can act directly upon microbes by PHAGOCYTOSIS (Cell Mediated Immunity) • Phagocytes recognise and engulf foreign (nonself) material • Pus forms when large numbers of phagocytes die from engulfing microbes. © 2016 Paul Billiet ODWS Phagocytosis library.thinkquest.org/.../phagocytosis.gif Antibodies • Antibodies are proteins produced by B-cell lymphocytes • Antibodies recognise non-self molecules called antigens • They call up phagocytes • They have two or more antigen binding sites • They are very specific: One antibody recognises one antigen molecule • The different binding sites can bind to two or more cells clumping them together = AGGLUTINATION. © 2016 Paul Billiet ODWS Agglutination www.vet-lyon.fr/.../ENV_immuno_1A/immun1-04.htm. Antibodies = immunoglobulins imgt.cines.fr/.../_UK/PosterIGH/imagesIgH.png www.science-projects.com/IgG.GIF © 2016 Paul Billiet ODWS Antigens • Antigens are molecules found on the surface of non-self cells (e.g. microbes infecting the body or transplants) • They are usually complex molecules (e.g. glycoproteins). © 2016 Paul Billiet ODWS www.okc.cc.ok.us/.../plasmamembrane2.jpg Antibody production • Each type of antibody is produced by a specific lymphocyte B-cell • B-cells are produced by the red bone marrow • The body produces a vast range of B-cells capable of producing different antibody molecules (cf What is a gene?) • Early on in development the body learns to recognise the difference between self (belonging to the body) and non-self (foreign material) • Only non-self recognising lymphocytes are retained. © 2016 Paul Billiet ODWS The Lymophocyte B-Cell www.visualsunlimited.com/.../188/188898.jpg The T-cells • Macrophages capture pathogens and present their antigens to helper T-cell lymphocytes • Helper T-cell lymphocytes stimulate the appropriate B-cells to multiply forming a clone. depts.washington.edu/tumorvac/MultiMedia/Imag... © 2016 Paul Billiet ODWS Immunisation • These B-cells produce the antibodies to fight that particular microbe • Antibodies are found in the blood plasma (Humoral Immunity) • When the infection is overcome memory cells remain so the immune response is faster the second time the body is infected (natural immunity) • The body can be stimulated into producing the memory cells by vaccination/immunisation (artificial immunity). © 2016 Paul Billiet ODWS HIV attacks the immune system • HIV (Human Immunodeficiency Virus) is the virus that causes AIDS (Acquired Immune Deficiency Syndrome) • HIV infects the body through transfer of body fluids (blood, blood products, semen) or across the placenta • HIV infects one type of the T-cell lymphocyte, helper T-cells. • Antibody production cannot be stimulated. © 2016 Paul Billiet ODWS AIDS • The immune system fails to respond to an infection by certain bacteria (e.g. pneumonia) and fungi (e.g. Candida) which are normally easily resisted • The disease may take 8-10 years to reveal itself • This gives time for several cross infections • There is no vaccine yet • Drugs may stop the disease progressing but do not cure it. © 2016 Paul Billiet ODWS THE IMMUNE SYSTEM Challenge & Response • Infection = Challenge • Reaction of immune system = Response Self & Non-self • Molecules which belong to the body = Self • Antigens which are foreign = Non-self © 2016 Paul Billiet ODWS THE IMMUNE SYSTEM Bone marrow Stem cells B-cells © 2016 Paul Billiet ODWS T-Cells Macrophages B-cells Antigen presented independently B-cell primed Helper TH-cells Plasma cell clone Specific antibody produced Memory cells Agglutination of toxins and pathogens Attraction of macrophages Activation of complement enzymes in the plasma © 2016 Paul Billiet ODWS T-Cells Thymus gland Helper TH-cells Suppressor TS-cells Stimulate specific B-cell to develop Switch off immune response © 2016 Paul Billiet ODWS Cytotoxic TE-cells Lyse cancer cells and cells infected by viruses Macrophages Phagocytose pathogens and present antigen to T-cell along with Class II MHC protein Helper TH-cells Suppressor TS-cells © 2016 Paul Billiet ODWS Cytotoxic TE-cells Phagocytosis Humeral response Agglutination • Chemicals in the plasma respond • For pathogens in the blood stream, lungs, skin and gut. © 2016 Paul Billiet ODWS Cell-mediated response Phagocytosis and cytotoxic cells • White blood cells directly involved • For pathogens inside cells (e.g. viruses) and cancerous cells • The lymphocyte must recognise both SELF (MHC) proteins and NON-SELF antigen. © 2016 Paul Billiet ODWS Allergies • An immune response to a substance that is normally harmless • Results from the response of a mast cell • B-cells produce IgE antibodies in response to antigens • Mast cells are activated by IgE. Mast cells • Mast cells are leukocytes that patrol to body cavities • Mast cells protect against parasite infection • Mast cells release histamine protein. © 2016 Paul Billiet ODWS Histamine • Histamine provokes increase blood flow to and permeability of blood vessels in an infected region (inflammatory response) • Histamine also increases smooth muscle contraction to expel parasites. © 2016 Paul Billiet ODWS
