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Miroslav Votava FACTORS OF PATHOGENICITY AND VIRULENCE – II

Institute for Microbiology, Medical Faculty of Masaryk University and St. Anna Faculty Hospital in Brno. Miroslav Votava FACTORS OF PATHOGENICITY AND VIRULENCE – II The ninth l ecture for 2nd-year students April 1 5 th , 20 13.

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Miroslav Votava FACTORS OF PATHOGENICITY AND VIRULENCE – II

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  1. Institute for Microbiology, Medical Faculty of Masaryk University and St. Anna Faculty Hospital in Brno Miroslav Votava FACTORS OF PATHOGENICITY AND VIRULENCE – II The ninth lecture for 2nd-year students April 15th, 2013

  2. Three elements of pathogenicity and virulence – revision 1. Communicability(transmissibility) = ability to be transmitted between hosts 2. Invasiveness = ability to: - enter the host ability to - multiply within = overcome - spread through it the defence 3. Toxicity = ability to do harm to the host

  3. Transmissibility – revision It depends on • the way of transmission– especially on - the way in which a microbe leaves the body - the amount of excreted microbes - the portal of entry into other host • the microbe tenacity– thedegree of its resistance to the external environment • the minimum infectious dose – the number of microbes required for the start of infection • the behaviour of host – the abuse of host‘s defensive reflexes for the transmission

  4. Invasiveness= entering the host– revision Most often throughmucosae Sometimes the entering is preceded by the colonization = overcoming the concurrence of commensals Prerequisiteof successful entry: ability to - adheretoepithelium by means of adherence factors - penetratethrough epithelium by means of penetration factors

  5. Penetration into internal environment – revision A. Direct penetration by means of cracks in skin (e.g. Str. pyogenes, wartviruses) cracks in mucosa (T. pallidum, HBV, HIV) animal or arthropod bite (rabies virus, plasmodia) enzymes (penetration factors) lecithinase (C. perfringens) hyaluronidase(S. pyogenes) B. Forced phagocytosis by means of e.g. invasines(e.g. Listeria monocytogenes)

  6. Defense against infection – revision Two tightly linkeddefense systems: 1. Innate immunity(nonspecific one) 2. Acquired(specific, adoptive)immunity Both systems hand in hand a) prevent microbes from colonizing bodily surfaces b) bar the penetration of microbes into tissues c) inhibit their spread through the body d) neutralize their toxins e) aim for their liquidation and removal of their remains

  7. Innate immunity – revision Properties - acts nonspecifically against whole microbial groups (bacteria, viruses etc.) -isinherited, therefore it exists from the birth -is present in all members ofthe given species -is no match for obligate pathogens -works instantly – which is extremely important(!) -actsuniformly even during repeated contact Tools Barriers ofcolonization,penetration& spreading Tools liquidating microbesincluding fever Inflammation– calor, dolor, rubor, tumor, functio laesa

  8. Acquired immunity – revision Properties - affects specifically only a particular microbe - forms only during the lifetimeafter the contact with the agent - develops only ina particular individual - protects also against virulent strains of obligate pathogens - starts to operate relatively late, after immune reaction has developed - after repeated contact it acts more quicklyand efficiently Tools Antigen-presenting cells (phagocytes) T cells and activated macrophages(cell-mediatedimmunity) B cells and producers ofantibodies(humoral immunity)

  9. Cell-mediated immunity – revision Indispensable against intracellular parasites(e.g. viruses, mycobacteria), whichin a non-immune macroorganism remain alive and aredisseminatedby means of phagocytes through the body In an immune macroorganism: immune lymphocytes Th1react with microbial antigens and producecytokines,which activate macrophages Activated macrophages1.phagocyte more vividly, 2. reliably kill engulfed microbes, 3. damage the neighboring tissueas well(delayed hypersensitivity) In virus infections and in tumours afflicted cells are killed by cytotoxic Tc lymphocytes

  10. Protection by antibodies – revision • Bacterial infections: support of phagocytosis –opsonization of encapsulated bacteria (IgG) inhibition of adherence to epithelium – mucosal antibodies IgA neutralization of bacterial toxins (IgG) bacteriolysis by complement (IgM, IgG) transfer of immunity across the placenta(IgG) • Parasitic infections: expulsion of helminths (IgE) • Viral infections: neutralization of virus infectivity (IgG, IgA) …

  11. How do microbes face immunity – A A) Ability to overcome the innate immunity: - Resistingcomplementinhibitingcomplement activation protectingtheir own surface - Resistingphagocytosis avoidingbeing engulfedsurviving inside the phagocyte - Interfering with the cytokinefunction

  12. Resisting complement 1. Inhibiting complement activation capsule: meningococci, pneumococci – shielding surface molecules inhibitorsof complement activation: gonococci – addition of sialic acid to terminal saccharides; many viruses, E. coli and S. pyogenes – production of regulation factor H; S. pyogenes and P. aeruginosa – enzymes splitting C3b a C5a) 2. Protecting the microbial surface salmonellae and E. coli in S phase, flagella of motile bacteria Ability to resist complement →seroresistance

  13. Resisting phagocytosis – I 1. Avoiding being engulfed inhibitors ofchemotaxis (bordetellae, vaginal anaerobes, pseudomonads) leucocidins and lecithinase (staphylococci, streptococci, pseudomonads, clostridia) injecting Yop (yersiniae) the most important:formation of capsule (!) agents of meningitis and pneumonia (N. meningitidis, H.influenzae, E. coli, S.pneumoniae,K. pneumoniae)

  14. Resisting phagocytosis – II 2. Survival inside the phagocyte blockade of phagolysosome formation (Chlamydia, Mycobacterium, Legionella, Toxoplasma) escape from phagosome (Rickettsia, Shigella, Listeria, Leishmania, Trypanosoma) production of antioxidants (staphylococci, gonococci, meningococci) markedtenacity (Coxiella, Ehrlichia)

  15. How do microbes face immunity– B B) Ability to overcome the acquired immunity: Always an attempt to avoid antibodies or immune lymphocytesby - quick reproduction(respiratory viruses, diarrhoeal agents, malarial plasmodia) - attemptsto deceive immune system to hide to change one‘s own antigens to induce tolerance - attemptstosuppress immune reaction

  16. Ability to deceive the immune system – I • To hide in neural ganglions (HSV, VZV) on intracellular membranes (HIV, adenov.) in infectious focuses (M. tbc, echinococci) in privileged sites (agents of mucosal infections, T. gondii ineye, retroviruses in cellular genome) 2. To induce the immune tolerance (CMV, rubella v., leishmaniae, cryptococci, maybe even HIV)

  17. Ability to deceive the immune system – II 3. To change one‘s ownantigens antigenic mimicry (S. pyogenes, T. pallidum, M. pneumoniae) antigenic camouflage (schistosomes – blood proteins, staphylococci – protein A, streptococci – protein G, CMV – βmG) antigenic variability (trypanosomes, borreliae, gonococci, influenza virus)

  18. Ability to suppress the immune reaction - invasion into the immune system (HIV, measlesvirus) • interference in cytokine formation (M. leprae, protozoa) • production of superantigens (staphylococci, streptococci) • production of proteases (meningococci, gonococci, haemophili, pneumococci) • binding the Fcfragment of IgG (staphylococci, streptococci, HSV) - ? (influenza virus, HBV, EBV)

  19. Toxicity – I Damage by direct effectof infectious agent • Cellular death lysis by toxins, viruses, immune lymphocytes apoptosis (HSV, shigellae) • Metabolic injury – influence of exotoxins • Mechanical causes (schistosomal eggs, Pneumoc. jirovecii, pseudomembranes in diphtheria) The most frequent cause of death → septic shock triggered by endotoxins G – : lipopolysaccharide G + : teichoic acid + peptidoglycan

  20. Bacterial exotoxins • Spreading factors (hyase, DNase, elastase, collagenase) • Cytolysins (lecithinase, sfingomyelinase, hemolysins) • Inhibitors of proteosynthesis (diphtheria toxin) • Pharmacologically effective toxins (choleragen, E. coli thermolabile enterotoxin, pertussis toxin) • Neurotoxins (tetanotoxin, botulotoxin) • Superantigens (staphylococcal enterotoxin and exfoliatin, streptococcal pyrogenic toxin)

  21. Toxicity – II Damage as a result of defence reactions a) Injuries caused byinflammatory reaction: calor, rubor, tumor, dolor, functio laesa = typical markers of inflammation = symptoms of disease edema: encephalitis, epiglottitis inflammatory infiltrate: pneumonia suppuration: blennorrhoeaneonatorum formation of connective tissue: scarring

  22. Toxicity – III Damage as a result of defence reactions b) Injuries caused by specific immune reaction(immunopathological consequences of hypersensitivity) 1st type: (IgE, anaphylaxis)helminthoses 2nd type: (cytotoxicity) hepatitis B, febris rheumat. 3rd type: (immunocomplexes) farmers lungs, poststreptococcal nephritis, systemic reactions during sepsis 4th type: (late, cellular) tbc, lepra, syphilis, actinomycosis, rash in measles

  23. Recommended reading material Paul de Kruif: Microbe Hunters Paul de Kruif: Men against Death Axel Munthe: The Story of San Michele Sinclair Lewis: Arrowsmith André Maurois: La vie de Sir Alexander Fleming Hans Zinsser: Rats, Lice, and History Michael Crichton: Andromeda Strain Albert Camus: Peste Victor Heisser: An American Doctor Odyssey Please mail me other suggestions at: mvotava@med.muni.cz Thank you for your attention

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