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General Microbiology (Micr300)

General Microbiology (Micr300) . Lecture 14 Overview of Host Defenses Innate Immunity (Text Chapter: 22.1-22.2). Overview of Host Defenses. Definitions. Immunity is the ability of an organism to resist infection

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General Microbiology (Micr300)

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  1. General Microbiology (Micr300) Lecture 14 Overview of Host Defenses Innate Immunity (Text Chapter: 22.1-22.2)

  2. Overview of Host Defenses

  3. Definitions • Immunity is the ability of an organism to resist infection • Innate immunity is the ability to recognize patterns of microbes and their products and to eliminate microbes with either preformed or rapidly made available effectors. It does not rely on previous exposure to a pathogen or its products. • Adaptive immunity (antigen-specific immunity) is the acquired ability to specifically recognize and destroy an individual pathogen or its products and rely on its previous exposure to the pathogen or its products.

  4. Two Arms of Host Defenses • Innate Immunity • Functional at birth • Preformed or available within hours post infection • Pattern recognition • Widely present in nature including plants, invertebrates and vertebrates • Adaptive Immunity • Acquired • Available within days • Highly specific • Memory

  5. The Key Players of Host Defenses

  6. Cells and Organs of the Immune System • The majority of the cells involved in immunity originate from hematopoieticstem cells in the bone marrow (Figure 22.1). • The blood and lymph systems (Figure 22.2) circulate cells and proteins that are important for a functional immune system. Whole blood is composed of plasma, a liquid containing proteins and a variety of other solutes and suspended cells. There are red blood cells or erythrocytes, which carry hemoglobin, and white blood cells or leukocytes which are mediating immunity.

  7. Origins of Major Cells Involved in Immune Response Myelyoid Cells Lymphoid Cells Memory cells

  8. Blood and Lymph Systems

  9. Organs with Immune Functions • Bone marrow • Thymus • Spleen • Lymph nodes • MALT and GALT

  10. Overview of Immune Response

  11. Innate Immunity

  12. The Key Players of Host Defenses

  13. Complement • System of over 20 serum proteins • Active components (C-) and inhibitors • Early events: proteolytic cascade generates bioactive cleavage fragments • Late events: Protein polymerization generate a pore on target cell

  14. Complement Is Multifunctional Collectin Antigen-Antibody (Classical) Microbial Surfaces (Alternative) Vasoactive Inflammation Neutrophil recruitment Opsonization Membrane Attack Complex (Pore)

  15. The Complement Pore Bhakdi et al

  16. Antimicrobial Peptides • Wide spread in nature • Gene-encoded • Small (< 100 amino acids) • Cationic • positive net charge at physiological pH • Arginine and/or lysine rich • Amphiphilic: contain both hydrophilic and hydrophobic domains

  17. Antimicrobial Peptides Act Through Pore Formation - - - - - - - - - - - - - - - - - - - - + + + + + + + + Alex M. Cole

  18. Membrane Targeted Activity of Antimicrobial Peptides • Electron micrograph of Neisseria gonorrhoeae after treatment with antimicrobial peptides: - + Qu et al

  19. Phagocytes • Important mediators of the innate immune response are phagocytes • Phagocytes are primarily involved in taking up (phagocytosis) and killing microbes • Phagocytes recognize microbes through a broad range of receptors • Pathogen-associated pattern molecules • Opsonines

  20. Phagocytes (Professional Eaters) Granulocyte in action: uptake of Candida • Neutrophil Granulocytes • Monocytes • Macrophages Granulocyte after phagocytosis of S. aureus

  21. Opsonins • Opsonins significantly enhance microbial uptake by phagocytes • Cover microbial surfaces and are recognized by specific receptors on phagocyte surfaces • Examples are: • Antibodies • Complement cleavage product

  22. Major Steps in Opsonophagocytosis • Opsonization • Attachment • Engulfment • Phagosome formation • Phagolysosome formation • Killing and digestion 5. 6. 4. 2./3. 1.

  23. Killing and Digestion by Phagocytes • Reactive oxygen and reactive nitrogen intermediates • Antimicrobial peptides • Low pH • Hydrolases, proteases, phopholipases

  24. Inflammation, Fever, and Septic Shock • Inflammation is characterized by pain (dolor), swelling (tumor), redness (rubor), and heat (calor). The local inflammatory response is a normal and generally desirable outcome of an immune response. Uncontrolled systemic inflammation, called septic shock, can lead to serious illness and death. • The first inflammatory cell to arrive at the scene of an infection or tissue injury is the neutrophil, shortly thereafter monocytes that become macrophages. These cells are attracted to the site of an active infection or tissue injury by soluble chemoattractants.

  25. Activated Macrophage

  26. Natural Killer Cells • Large granular lymphocyte-like cells • Lyse target cells • Important in infections with viruses and intracellular organisms

  27. Epithelial cells Skin Mucosa

  28. Epithelial Cells are Defense Cells • Express toll-like receptors (TLR 1 –10), that recognize specific pathogen assocated molecule patterns • TLR-2: Peptidoglycan • TLR-4: LPS • TLR-9: Flagella • Produce antimicrobial peptides • Secrete pro-inflammatory cytokines

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