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The Immune System

The Immune System. the Human Battle against the Microbe World. Questions:. We all get sick sometimes...but then we get better. What happens when we get sick? Why do we get better?. The Invaders . . . . Bacteria Viruses < Click to find out more about Microbes & Disease >

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The Immune System

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  1. The Immune System the Human Battle against the Microbe World

  2. Questions: • We all get sick sometimes...but then we get better. • What happens when we get sick? • Why do we get better?

  3. The Invaders . . . • Bacteria • Viruses • < Click to find out more about Microbes & Disease > • parasites such as fungi, protista, & worms

  4. Our 1st Line of Defense... • The Integumentary System… • Skin • Mucous membranes • Mucous • provides a physical barrier preventing microbial access

  5. Other mechanisms of Defense... • Physiological variables • pH of our environment • temperature of our environment • chemical defenses • nitric oxide, enzymes, proteins, complement • AND the IMMUNE SYSTEM…

  6. ANATOMY OF THE IMMUNE SYSTEM • The immune system is localized in several parts of the body • immune cells develop in the primary organs -bone marrow and thymus (yellow) • immune responses occur in the secondary organs (blue)

  7. ANATOMY OF THE IMMUNE SYSTEM • Thymus– glandular organ near the heart – where T cells learn their jobs • Bone marrow – blood-producing tissue located inside certain bones • blood stem cells give rise to all of the different types of blood cells • Spleen– serves as a filter for the blood • removes old and damaged red blood cells • removes infectious agents and uses them to activate cells called lymphocytes • Lymph nodes – small organs that filter out dead cells, antigens, and other “stuff” to present to lymphocytes • Lymphatic vessels – collect fluid (lymph) that has “leaked” out from the blood into the tissues and returns it to circulation

  8. How the Immune System Responds to Pathogens

  9. Inflammatory reaction

  10. Immune System : 2 branches • The Innate Immune system = • a general response to anything other than recognized “self cells” • The Adaptive Immune System = • a specific counter-assault against a “known foreign” invader [previously recognized]

  11. Major Concepts - • What Happens during an infection ? • How can immune cells distinguish foreign invaders from our own cells ? • How can we make 100,000,000 different antibodies with only 30,000 genes ?

  12. What Happens during an infection? • Innate Immunity - the troops are called to battle… • injury & infection • macrophages slip between cells [extravasation] to arrive • cytokine chemicals attract other “troops” [chemotaxis] • histamine chemicals dilate blood vessels for easier access to injury [vasodilation] • < Click on link to view Movie of inflammation > • http://www.muhealth.org/~pharm204/inflammation.mov

  13. What are macrophages ? • Phagocytic cells - able to ingest small foreign invaders • neutrophils • monocyte • <Click on link to view animation > • http://www.mnsfld.edu/~mcb/images/macrophage.gif • they release cytokines that enhance the immune response

  14. Mast cells /basophils • release histamine that dilates blood vessels • causes redness [erythrema], swelling [edema], and heat [fever]

  15. Your Challenge . . . • You are a macrophage in the following game… • your mission is to phagocytize the mumps viruses • use your mouse on the arrows  or  or  • HINT: antigens are specialized proteins on cell surfaces that provide I.D. recognition • http://www.pbs.org/wgbh/nova/aids/immunewave.html

  16. Summary: • Macrophages are able to launch the first strike… • more help is needed to overcome rapidly reproducing invaders… • Help from the ADAPTIVE IMMUNE System results in a coordinated successful defense ! • Major players . . . the B lymphocytes

  17. How can antibodies distinguish our self from foreign invaders? • Adaptive Immune System - function • There are 2 types of lymphocytes: • T lymphocytes [ T - Helper cells ] - help signal immune cells into action • B lymphocytes [ B cells ] - make special proteins called antibodies

  18. How can antibodies distinguish “self”cells from foreign invaders? • Adaptive Immune System - origin • There are 2 types of lymphocytes: • 1st Type - T lymphocytes - [ T - Helper cells ] begin in the red bone marrow

  19. & migrate to the thymus gland ... • These Lymphocytes are sorted into 2 types • Identification tag is a protein called Major Histocompatability Complex [MHC] Foreign Self- ID

  20. & in the thymus gland . . . • All diversely varying MHC lymphocytes will wait for a call to action . . . • All “self” MHC cells are destroyed - to remove the chance of “friendly fire” casualties Foreign Self- ID Saved to be educated… in body defense Dropped out!

  21. These Lymphocytes will mature into T-Helper cells • They function to stimulate B cells to activate their attack against the invaders

  22. Adaptive Immune System • The 2nd type of lymphocyte is: • B lymphocytes [ B cells] - start in the bone marrow and circulate through the body • they are called into action when stimulated by a foreign antigen. . . [ usually a protein from the invader]

  23. When an invader attacks. . . • An antigen is phagocytized by the B cell • is broken into non-infective pieces • & attached to the cell’s MHC when processed through the cell’s machinery • MHC-antigen complex is placed on the cell membrane surface • where it is recognized by the T Helper cell • <Click on Link to see Antigen Expression process > • http://www.nature.com/nrm/journal/v2/n3/animation/nrm0301_179a_swf_MEDIA1.html

  24. When help arrives . . . • The T-helper cell receptor “docks” with the B cell’s MHComplex • B cells proliferate . . . Antigen & T-helper cell Naïve cell Proliferation of cell line

  25. B cells differentiate into . . . • Antibody producing cells [attack mode] • Memory cells [remembers & future protection] Antigen & T-helper cell antibodies memory

  26. The RESULT . . . • The Antibody producing B cells mounts a successful attack against the invader • the memory B cells save the “recognition ID” for many years in preparation for future invasion

  27. How can we make 100,000,000 different antibodies with only 30,000 genes? • Problem: • microorganisms easily out-number the total number of genes on the human genome • if only one gene was responsible for coding for one antibody, there still wouldn’t be enough information to use • Question: • How can such a small amount of information be used for successful antibody diversity ?

  28. Consider the following . . .What is true about the different cells of the body? • Which Statement is most correct ? • All cells in the body are the same and function the same way • All cells are the same, but function differently because they are located in different places • All cells have the same genetic material, but different cells use different active genes to make them function differently • Does this same principle apply to antibodies ?

  29. The correct answer is . . . • All cells have the same genetic material, but different cells use different active genes to make them function differently <Click for Answer> < Click on Animation Link to learn how gene segments are combined to produce a large number of diverse antibodies >

  30. Summary • What Happens during an infection ? • The immune system activates a multitude of characters to defend the body in a variety of ways. • Several players work together, feedback systems enhance or suppress functions as changes occur

  31. Summary • How can immune cells distinguish foreign invaders from our own cells ? • By using the invader’s own antigen, immune cells can be produced for specific organisms & used to enhance the defense effort • [ as long as the invading organism is the only target ! ]

  32. Summary • How can we make 100,000,000 different antibodies with only 30,000 genes ? • Mixing & matching pieces of genetic material produce huge numbers of antibody, as well as very specific antibody • The immune system is well equiped to defend the human body against the daily onslaught of microorganisms . . . If everything goes as planned . . .

  33. For further information . . . • Immunology Project Resources – • Understanding Autoimmune Disease • http://www.niaid.nih.gov/publications/autoimmune/work.htm • Antibody descriptions [IgG, IgM, IgA] • http://sprojects.mmi.mcgill.ca/immunology/Ig_text.htm • Immunology Hyperlinked History & Molecular Movies • http://www.bio.davidson.edu/courses/Immunology/Bio307.html • Nature Magazine & Immunology • http://www.nature.com/nature/view/030102.html • NCBI Genome Database • http://www.ncbi.nlm.nih.gov/ • NCBI Genome Base • http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=1589796 • Immune System Animation Links through Anatomy & Physiology Groups • http://science.nhmccd.edu/biol/ap2int.htm • Pier,G. ,Lyczak,J., Wetzler,L; Immunology, Infection, and Immunity; American Society for Microbiology Press,2004,p.12.

  34. Thank you!

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