03/06d Host-Pathogen Interactions & Vaccines

Question 1

What are the five general features of immune responses to microbes, and microbe responses to the immune system?

Answer 1

1) Always involve innate and adaptive immunity
2) Distinct and specialized responses to different types of microbes for maximum effectiveness
3) Microbes evade or resist effector mechanisms
4) Many microbes can establish latent infections, that the immune system can control but does not eliminate
5) Tissue injury and disease can be caused by the host response rather than the microbe itself

Question 2

For what types of things are immune responses specialized to fight? Name five

Answer 2

Extracellular bacteria
Intracellular bacteria
Viruses
Fungi
Parasites

Question 3

What are the innate and adaptive responses to extracellular bacteria?

Answer 3

Innate - activation of complement, phagocytes, and inflammation
Adaptive - humoral (antibodies block infection, opsonize microbes, and neutralize toxins) and CD4 helper T cells (enhance phagocytic and microbicidal activities of macrophages and neutrophils, and stimulate antibody production)

Question 4

What types of effector T cells are stimulated by extracellular bacteria? What are their responses?

Answer 4

Th1 and Th17 cells
Th17 responses - IL-17 induces production of cytokines, which recruit neutrophils and monocytes
Th1 responses - IFN activates macrophages to destroy phagocytosed microbes and induces opsonization and complement-binding

Question 5

What are four immune pathologies associated with extracellular bacterial infection?

Answer 5

Excessive inflammation
Abscess formation
Septic shock
Toxic shock

Question 6

How does your immune system cause excessive inflammation?

Answer 6

Result of reactions of neutrophils and macrophages

Local production of ROS and lysosomal enzymes can kill bacteria AND damage tissue

Question 7

What is an abscess? How is it formed?

Answer 7

An abscess is the creation of a new anatomical space for the purpose of containing a bacterial infection
Neutrophils accumulate (pus), but are not sufficient to eliminate the infection
NOT penetrated by antibiotics - require surgical drainage

Question 8

How is an empyema different from an abscess?

Answer 8

An empyema is the accumulation of pus in a preexisting anatomical space, rather than the formation of a new anatomical space

Question 9

What is septic shock? What causes it?

Answer 9

Consequence of disseminated infection by certain bacteria (many have LPS)
Caused by widespread release of cytokines (TNF, IL-6, IL-1) by activated macrophages
Results in circulatory collapse and intravascular coagulation
Treatment - ICU, antibiotics

Question 10

What is toxic shock? What causes it?

Answer 10

Caused by Staph and Strep infections which produce toxins that are superantigens - activate many T cells and cause cytokine storm
Disseminated infection is not required
Associated with anything that predisposes to Staph and Strep infections (surgery, childbirth, skin wounds)

Question 11

How do extracellular bacteria evade the immune system? List six ways

Answer 11

1) Resist phagocytosis (polysaccharide-rich capsule) and complement (sialic acid residues)
2) Catalase - scavenges ROS
3) Antigenic variation - extensive mutation of dominant epitopes to evade detection
4) Molecular mimicry - if bacterial antigens resemble self proteins, the immune response may be weak, or may be directed at self
5) Coagulase and clumping factor cause fibrin to clot and deposit on cell surfaces
6) Proteins produced by Staph and Strep bind up Ig

Question 12

What are the innate responses to intracellular bacteria?

Answer 12

Expression of NK cell-activating ligands on infected cells
Activated NK cells kill infected cells
Stimulation of dendritic cells and macrophages to produce IL-12 and IL-15
Innate response often fails to eradicate the microbe

Question 13

What are the adaptive responses to intracellular bacteria?

Answer 13

Th1 cells produce IFN
IFN activates macrophages to destroy phagocytosed microbes and induces opsonization and complement binding
Th1 cells also activate macrophages through CD40L
Macrophages produce IL-12, which stimulates NK cells
If the macrophages fail to eliminate the infection, CD8 cytotoxic T cells kill the infected cells

Question 14

How do intracellular bacteria evade the immune system?

Answer 14

Able to survive inside cells - hide from antibodies and complement
Stimulate inappropriate T cell polarization - Th2 cells inhibit Th1 cells, thus preventing the destruction of intracellular bacteria

Question 15

What is the major immune pathology associated with intracellular bacteria?

Answer 15

Granulomas

Question 16

What are the innate responses to virus infection?

Answer 16

PRRs recognize viral PAMPs
Immediate response - production of Type I Interferon, which induces an antiviral state in adjacent uninfected cells
PAMPs also induce NK cell activating receptors - NK cells kill virus-infected cells

Question 17

What are the humoral adaptive responses to virus infection?

Answer 17

Antibody production - neutralizing antibodies block virus binding and entry, which can prevent both initial infection and spread
Effective against viruses only during their extracellular stage
Major determinant of immunity to most viruses
IgA - important for neutralizing viruses at mucous membranes (respiratory and GI tracts)

Question 18

What are the cell-mediated adaptive responses to virus infection?

Answer 18

Activation of CD8 cytotoxic T cells, which recognize viral peptides presented on MHC I
If dendritic cells are not infected, they phagocytose infected cells and transfer viral peptides from the phagosome to MHC I (cross-presentation)
CD8 cells undergo massive proliferation
CTLs require cytokines produced by CD4 helper cells

Question 19

How do viruses evade the immune system? List five ways

Answer 19

1) Can alter their antigen through mutation until they no longer evoke immune responses
2) Some inhibit MHC I-associated presentation of viral peptides
3) Produce MANY molecules that inhibit immune responses (cytokine and interferon production in particular)
4) Infect and kill/inactivate immunocompetent cells
5) Establish latency

Question 20

What is antigenic drift?

Answer 20

Constant mutation of viruses, combined with strong selection pressure of the immune system, that leads to neo-epitopes that are not recognized by the immune antibodies

Question 21

What is antigenic shift?

Answer 21

Different variants of a virus that both infect a single host, and are thereby able to exchange genetic material, possibly resulting in a “super virus” (one with multiple devastating characteristics)

Question 22

What is viral latency?

Answer 22

Persistence of viral DNA in a host cell, without viral replication of destruction of the host cell (state of balance)
Virus reactivates when host immunity diminishes
Common with EBV and certain DNA viruses in the herpesvirus family

Question 23

What are the immune pathologies associated with virus infection?

Answer 23

Anti-viral responses are extremely strong! can destroy local (uninfected) cells and induce systemic effects
CTLs may kill virus-infected cells even when the virus is not cytopathic (HBV)

Question 24

What are the innate and adaptive response to fungi?

Answer 24

Innate - activation of phagocytes
Adaptive - activation of CD4 helper T cells (Th1 or Th17 responses)
Often have a combination of responses

Question 25

How do fungi evade the immune system?

Answer 25

Produce molecules that inhibit the immune response - inhibit production of TNF and IL-12, and stimulate production of IL-10 (anti-inflammatory)
Inhibit the function of the phagolysosome and result in formation of granulomas

Question 26

What are the innate and adaptive responses to parasites?

Answer 26

Innate - activation of phagocytes and complement
Adaptive - intracellular parasites lead to Th1 responses, helminths lead to Th2 responses with IgE fixation and eosinophils

Question 27

What cytokines are released by Th2 cells in response to helminthic infections?

Answer 27

IL-4, IL-5, and IL-13

Question 28

What are the humoral effects of IL-4 and IL-13?

Answer 28

Stimulate maturation of naive B cells and production of IgE

Question 29

What happens when IgE is cross-linked by helminthic antigens?

Answer 29

Mast cell activation

Question 30

What are the three responses of activated mast cells?

Answer 30

Degranulation - release of histamine and proteases
Synthesis and secretion of lipid mediators (leukotrienes and prostaglandins)
Synthesis and secretion of TNF

Question 31

What are the five major anti-parasite responses effected by mast cells?

Answer 31

1) Increased vascular permeability and inflammation
2) Gut and bronchial constriction to expel parasites
3) Mucous production to trap parasites
4) Direct parasite toxicity
5) IgE-dependent cellular toxicity (eosinophils)

Question 32

How do parasites evade the immune system?

Answer 32

Stage-specific changes in antigen expression - parasites produce different antigens during different life cycles
Continuous variation of major surface antigens
Concealment in host cells or within cysts
Production of molecules that inhibit the immune response

Question 33

How do most vaccines work?

Answer 33

By inducing humoral immunity

Question 34

What two things are required for a vaccine to induce immunity?

Answer 34

1) Antigen
2) Something to stimulate an immune response
In some cases, one substance can do both

Question 35

What are the six types of vaccines?

Answer 35

1) Live attenuated or killed bacteria
2) Live attenuated viruses
3) Subunit
4) Conjugate
5) Synthetic
6) Viral vectors

Question 36

What are attenuated and inactivated vaccines? What are some of their advantages and disadvantages?

Answer 36

Composed of intact nonpathogenic microbes
Advantages - elicit all the normal innate and adaptive immune responses (the ideal way of inducing protective immunity)
Disadvantages - may cause disease in some patients, and killed bacterial vaccines in use today tend to induce limited protection

Question 37

What are subunit or purified vaccines?

Answer 37

Composed of antigens purified from microbes or toxin
Non-immunogenic - require an adjuvant
Often used with toxoids

Question 38

What is a toxoid?

Answer 38

Toxin that is inactivated without loss of immunogenicity

Question 39

What are conjugate vaccines?

Answer 39

Used for bacterial polysaccharides (T-independent antigens that tend to elicit weak antibody responses)
Polysaccharides are couple to proteins to form a conjugate, and are injected with adjuvant
Stimulate T-B cell cooperation to generate higher-affinity antibodies

Question 40

What are synthetic antigen vaccines? What are some examples of these types of vaccines?

Answer 40

Identification and production of antigens by recombinant DNA technology
Require adjuvant
Hepatitis, herpes simplex, and HPV have synthetic antigen vaccines

Question 41

What are live viral recombinant vaccines?

Answer 41

Composed of genes that encode pathogen antigens inserted into non-cytopathic viruses, that are then used to infect individuals and induce full immunity
Some safety concerns have limited widespread use

Question 42

What is an adjuvant? What does it do?

Answer 42

Something that stimulates an innate immune response (takes the place of a PAMP)
Generate “depots” that trap antigen at infection site, which enhances persistence and results in a more and longer antigen presentation
Encourage antigen uptake by dendritic cells

Question 43

What is the only adjuvant approved by the FDA in the last 80 years? What are its effects?

Answer 43

Aluminum hydroxide salts (alum)

Produces the depot effect, promotes phagocytosis, activates APCs, and stimulates Th2 cell responses