host microbe interaction

Introduction to Host-Microbe Interactions

Normal Flora

• More bacterial than human cells in the body– provide some nutrients (vitamin K)– stimulate immune system, immunity can be

cross-reactive against certain pathogens– Prevent colonization by potential pathogens

(antibiotic-associated colitis, Clostridium difficile)

Potential Colonization Sites

Types of Pathogens

• Primary Pathogens– Cause disease upon infection, not normally

associated with host• Plague (Yersinia pestis), influenza virus

• Opportunistic Pathogens– Cause disease under some circumstances,

sometime members of normal flora• Pseudomonas, Candida albicans

Progression of Disease

• Transmission: infectious dose from 10-106 organisms

• Incubation period: few days (common cold)-weeks (hepatitis A)-months (rabies)

• Convalescence: – Clearing (Strep throat, S. pyogenes)– Latency (Chicken pox, tuberculosis, cold sores)

Koch’s Postulates• Proposed by Robert Koch• Conclude that a microbe causes a particular

disease• Must fulfill four postulates• 1. Microorganism must be present in every

case of the disease• 2. Organism must be grown in pure culture

from disease hosts• 3. Produce the same disease from the pure

culture• 4. Organism recovered from experimentally

infected hosts

Molecular Postulates• Describe virulence factors

• Four postulates

• 1. Virulence gene or its product must be present

• 2. Virulence gene must transform a non-pathogen into a pathogen

• 3. Virulence gene must be expressed during disease process

• 4. Antibodies against gene products are protective

Establishing an Infection

• 1. Encounter: – fecal-oral (cholera)– human-human (tuberculosis)– animal-human (rabies)– vector-borne (plague, lyme disease)– environmental contact (anthrax)

Establishing an Infection

• 2. Adherence– Prevents early clearance– Often bind host tissues via pili– Specificity can determine host range of

pathogen

Establishing an Infection• 3. Colonization: multiplication and maintainance

– Competition with normal flora– Resist:

• bile • stomach acid • peristalsis • skin secretions • IgA (mucosal antibodies)• compete with host for iron

Establishing an Infection

• 4. Molecule Delivery– Affects target

cell structure and host response

Invasion:Breaching Anatomical Barriers

• Find new niche with few competitors• Gain access to rich nutrient supply• 1. Skin: tough barrier, rely on wounds or

insect vectors• 2. Crossing mucous membrane (e.g.

intestinal epithelial cells)

Zippering-model of invasion

Tight ligand-receptor interactions direct uptake

“one at a time” uptake

Ruffling method of invasion

General induced cellular response

Can lead to co-invasion of other bacteria in close proximity

M cell Invasion

• M cells are a portal to the immune system• Important site of “antigen sampling”• Some pathogens use phagocytic nature of

M cells to access deeper tissues by transcytosis

Avoiding the Host Defenses

• 1. Hiding within host cells– Avoid exposure to host antibodies if remain

intracellular– Access to rich source of nutrients

Cell-to-cell Spreading

Shigella and Listeria species lyse out of vacuole

-assemble actin at pole-actin propels them into neighboring cell

“convergent evolution”

“molecular mimicry”

Avoiding the Host Defenses

• 2. Avoiding complement killing– Complement factors in blood serum can assemble

into MAC “membrane attach complex” that are bactericidal

– C3b is first component of complex to bind– Some bacteria bind factors that regulate C3b

activity, prevent MAC assembly• “serum-resistance”

Avoiding the Host Defenses

• 3. Avoiding phagocytosis

– Innate immune cells engulf (phagocytose) and kill microorganisms with degradative enzymes

– Block signaling molecule production or degrade them after production

• C5a cleaved by C5a peptidase of Strep pyogenes (strep throat)

Avoiding the Host Defenses

• 3. Avoiding phagocytosis

– Capsule production on surface of bacteria: capsule leads to C3b inactivation-”serum resistance”

– M protein of Streptococcus: also inactivates C3b– Fc receptors: bind antibodies and orient dangerous end

away from bacteria• Found in Streptococcus (Protein G) and Staphylococcus

(Protein A)

Survival Strategies within Phagocytes

• A niche without competitors

• Phagosomal escape: lyse out of vacuole and grow in cytoplasm of host cell– Shigella and Listeria

Survival Strategies within Phagocytes

• Blocking lysosomal fusion: prevent delivery of degradative enzymes to bacterial compartment– Mycobacterium (tuberculosis)– Salmonella (food poisoning or typhoid fever)– Legionella (Legionnaire’s disease)

Survival Strategies within Phagocytes

• Surviving lysosomal fusion:

– Coxiella– Legionella

Avoiding Antibodies

• 1. IgA protease: cleaves Ab’s found in mucosal secretions (Neisseria gonorrhoeae)

• 2. Antigenic variation: turning pili On and Off, or switching to new pilus

• 3. Mimicking the host: look like self-antigens– Streptococcus pyogenes has capsule of

hyaluronic acid, also made by host tissues

Damage to Host (Disease)• 1. Exotoxins

– May require prior colonization (cholera)– May cause food poisoning even in absence of

organism• Botulism or Staphylococcus aureus toxin

– Immune system often target toxin for neutralizing Ab’s

• Vaccine against toxin

– A-B toxins: A is catalytic subunit, B binds host cells

Damage to Host (Disease)

• 2. Membrane-damaging toxins – Hemolysins

• Cause cell-lysis: Streptolysin O

– Phospholipases• Cleave lipids in membranes: Clostridium perfringens

– Gas gangrene

Damage to Host (Disease)

• 3. Superantigens – Hyperstimulate the immune system

• 1/5 T cells stimulated rather than 1/10,000• Fever, nausea, diarrhea, vomiting

– Leads to shock• Organ failure, circulatory collapse

– Cause of toxic shock syndrome (TSST)• Staphylococcus aureus and Streptococcus pyogenes

Damage to Host (Disease)• 4. Endotoxins (attached to cell)

– LPS, in the outer leaflet of Gram negative bacteria

• Lipid A is toxic if organisms enter bloodstream– Massive immune cell infiltration– Activation of coagulation

• Intravenous fluids are screened for Lipid A

Damage due to the Immune System

• Inflammation: bacterial meningitis– Neisseria meningitis

• Antigen-Ab complexes– Settle in kidney or joints

• Glomerulonephritis from S. pyogenes

• Cross-reactive Ab’s– Ab’s against pathogen may cross-react with host

tissues• Accute rheumatic fever, complication of Strep throat