Immunology of Parasitic Disease

Question 1

What is concomitant immunity?

What helminth has this immunity?

Answer 1

It is where the skin stage larval schistosomes are killed by Antibody-Dependent Cell Cytotoxicity (ADCC) but the adult worms escape elimination

Schistosome = Blood fluke

Question 2

What is ADCC?

Answer 2

Antibody-dependent cell cytotoxicity is an IgE mediated response against specific parasites. The response degranulates EOSINOPHILS

Question 3

What is antigenic mimicry?

What is an example of a parasite that uses this immune evasion strategy?

Answer 3

It is when a parasite acquires host hemmaglutinins and MHC so the immune system perceives it as “self” and doesn’t attack it.

Schistosomes use this strategy

Question 4

What isTra antigenic variation?

What parasite uses this strategy?

Answer 4

It is when the protozoa spontaneously changes its antigenic phenotype to escape immune destruction.

Trypanosomes (African Sleeping Sickness, Chaga’s) use this strategy

Question 5

What is the larval stage of the schistosome (blood fluke)?
Where is it released from?
What is the infectious stage of the schistosome?
Where does it enter the host?

Answer 5

Cercaria is the schistosome larvae and it is released from FRESH water snails

The infectious stage of the schistosome is the schistosomula and it is the skin stage

Question 6

What is the infectious stage of malaria? Where does it enter the host?
What is the dormant liver stage of malaria called?
What is the RBC stage of malaria called?

Answer 6

Sporozoite is the infectious stage that enters the host via mosquito bite
Hypnozoite = dormant liver
Merozoite = erythrocytic stage

Question 7

What is the most important host mechanism (cell) for clearing parasite infection?

Which cells play the largest role for protozoa?
For helminths?

Answer 7

CD4 cells because they will release cytokines and activate cells to clear the parasite.

Th1- IFNg activates macrophages to clear protozoa

Th2 - eosinophilia and hypergammaglobulinemia of IgE to clear helminths?

Question 8

How do schistosomes enter the human host?
Where in the human host do schistosomes reside?
After what point will the schistosome be impervious to immune attack?

Answer 8

The schistosome enters through the skin and travels to the lungs. Once it enters the lungs it is impervious to immune attack.
Then they reside in the lumen of mesenteric blood vessels(blood fluke)

Question 9

What four cells are the dominant effectors for clearing a schistosome?

Answer 9

IgE
mast cells
eosinophils
Th2

Question 10

The hematological hallmark of a helminth infection is ____________ and __________________.

Answer 10

eosinophilia and hypergammaglobulinemia of IgE

Question 11

What allows for schistosome immune resistance?

Answer 11

Concomitant immunity where the mammalian host resist REINFECTION of the skin stages of a worm, but are unable to eradicate the original worm.

Question 12

Describe the life cycle of the schistosome. Begin with the adult worm in the human vessels.

What is the infectious agent?
What part of the life cycle is susceptible to immune response?

Answer 12

Human vessels -> lay eggs-> urine/feces-> fresh water-> snails-> 1000s of offspring from single egg-> Cercaria (INFECTIOUS AGENT)-> penetrate skin-> Schistosoma (VULNERABLE TO IMMUNE ATTACK)–> 24-48 hours -> lung (IMPERVIOUS TO IMMUNE ATTACK)

Question 13

How does concomitant immunity prevent reinfection by schistosome?

What Th plays a major role?

Answer 13

1. The host has IgE antibodies anchored on mast cells and activated eosinophils.
2. Cercaria sheds antigens that triggers degranulation of cutaneous mast cells by cross-linking
3. Mast cells release ECF (eosinophil chemotactic factor) and histamine to vasodilate and increase vascular permeability
4. IgE binds to schistosomula (skin stage) and acts as a ligand for the eosinophil which causes its degranulation
5. MBP is released and disintegrates the schistomula (ADCC)

Th2 - IL4, IL5, IL13 play a major role

Question 14

The process of ADCC against the schistosome is T-cell __________________ but not T-cell ______________.

Answer 14

T cell dependent (to activate and class switch B cells)
But not T cell mediated (no CD8)

Question 15

What type of hypersensitivity response is ADCC against the schistosome?

Answer 15

Type 1 immediate hypersensitivity

Question 16

Toxoplasma is an obligate ___________ so it is sequestered from direct exposure to immune elements. Removal must be _______________.

Answer 16

Intracellular protozoa (sporozoa).
Elimination depends on ACTIVATED MACROPHAGES and CD8 T cells

Question 17

What cells do toxoplasma infect?
What species can it live in?
What percent of people are seropositive for toxoplasma?

Answer 17

Any nucleated cell
It is ubiquitous and can live in over 300 mammal species and 30 bird species
80-100% of us are seropositive but we are not all sick because healthy immune systems can clear it

Question 18

What are we not able to eradicate toxoplasma infections?

Answer 18

Dormancy is a common problem where trophozoites stay in other cells and aren’t killed.

Immunosuppression reactivates latent infections.

Question 19

What is the primary mechanism of resistance to a toxoplasma infection?

Answer 19

The phagocytic killing of toxoplasma by activated macrophages

(if the macrophage is not activated, it will phagocytose the Toxoplasma trophozoite but fail to kill the parasite

Question 20

What Th cell is critical for immunity of intracellular sporozoa (toxoplasma) infections?

What Ab helps with clearing infection?

Answer 20

Th1 because it releases IFNg which activates macrophages. Activated macrophages are necessary to kill Toxo. Resting macrophages can phagocytose but NOT kill.

IgG opsonizes the parasite and contributes to activated macrophage killing

Question 21

What specific type of toxoplasma infected cell are CD8 T cells capable of killing?

Answer 21

liver cells infected with toxoplasma

Question 22

Why is sterile immunity rare for Toxoplasma infections?

Answer 22

Macrophages clear extracellular parasites and CD8 kill MHCI cells that have been infected, but toxoplasma can reside in certain cells that lack MHCI in the brain and eye and escape detection. This allows for reservoir of latent infection.

Question 23

What percent of the world lives in malaria endemic areas?
How many are infected?
How many die yearly?
What specifically causes the death?

Answer 23

50% are infected.
Over 200 million are infected and 2 million die a year.
25% of childhood deaths in Africa (every 12 seconds, one dies)
Death is caused by cerebral malaria

Question 24

What is the major malarial vector?

What type of protozoa is it?

Answer 24

Plasmodium falciparum a sporozoa (obligate intracellular pathogen)

Question 25

What is the life cycle of plasmodium? Start with the Definitive host.

Answer 25

1. Anopheles mosquito (def. host) has a blood meal on the human most and deposits sporozoites
2. After 1 hr, sporozoites infect liver cells
3. Schizeny to multiple and infect other liver cells
4. Some become hyponozoites (dormant in liver cells for years), while others become merozoites and are released from the liver to the bloodstream
5. Merozoites invade RBC, undergo schizogeny, burst the RBC and infect more.
6. Mosquito takes up merozoites from blood

Question 26

What are the three dominant stages of plasmodium life cycle?

Answer 26

1. Sporozoite stage
2. Liver stage
3. Erythrocytic stage

Question 27

What are the three immune responses to the sporozoite stage of plasmodium infection (malaria infection)?

Answer 27

It is not in a cell yet so:

1. Ab to promote complement-mediated lysis
2. Ab to opsonize plasmodium and remove it via RES
3. Ab block binding to liver cells

Because it is not in a cell, there is NO CD8 response

Question 28

What is the immune response to the liver stage of plasmodium infection?

Answer 28

The parasite is intracellular at this point so:

1. The liver will make MHCI with parasitic antigen
2. CTL (CD8) can kill the liver cell
3. CD8 can also produce IFNg to induce NOS to kill plasmodium

Question 29

What is the immune response to the erythrocyte stage of a plasmodium infection:?

Answer 29

RBC do not express MHCI (only nucleated cell do) but it does express parasite antigens.

1. Ab opsonize the infected RBC and promote removal via RES
2. Ab prevent binding and penetration of extracellular merozoites

Question 30

Which stages of plasmodium life cycle are subject to humoral immunity?
Which stages are subject to cell-mediated immunity?

Answer 30

Humoral= Sporozoite stage and Erythrocytic stage
Cell-mediated = Liver cell stage

Question 31

What type of parasite is Trichinella? How do it enter the human host?
What organs are affected?

Answer 31

A roundworm (nematode) that infects the host orally (eating bad pork) and infects the lungs and intestine

Question 32

What are the three main phases of the trichinella spiralis life cycle?
Which is most vulnerable to immune response?

Answer 32

1. Gut phase (adult worm) ***most susceptible
2. Tissue migratory phase (newborn larvae)
3. Intramuscular larvae encyst in capsules

Question 33

What is the immune response to Trichinella in the gut phase?

Answer 33

Rapid expulsion is a T-cell dependent (but not mediated), Antigen specific effector mechanism.

1. Initial infection stimulates Th2
2. IgE hypergammaglobulinemia and mast cell proliferation (IL4)
3. Goblet cells increase mucus secretion (IL13) and go through hyperplasia which traps the worm
4. Increased gut motility hampers worms hold on gut wall and it is flushed out
5. Eosinophilia

Question 34

What is T cell priming?

Answer 34

After the primary infection with a pathogen, mucousal mast cells are “armed” with anti-Trichinella IgE and are waiting for reinfection. When they next see Trichinella antigen, they are able to immediately degranulate the mast cells (Type I hypersensitivity response.

Question 35

What is the immune response to the larval migratory stage of Trichinella?

Answer 35

ADCC by eosinophils and IgE

Question 36

What is the immune response to the muscle larvae stage of Trichinella?

Answer 36

It is ineffective because the larvae is encysted (a collagen capsule) in the myocyte and is sequestered. It then calcifies

Question 37

What cell is important for tissue-invasive stages but not gut stages of immunity?

Answer 37

Eosinophils

Question 38

What cells are important for intracellular protozoal infections of tissue, but NOT blood?

Answer 38

activated macrophages

Question 39

What are the three major parasite escape mechanisms?

Answer 39

1. Antigen variation
2. Antigen mimicry
3. Evasion of phagocytosis

Question 40

What immune system evasion technique is used by trypanosomes (T. cruzi and T brucei)?

Answer 40

Antigenic variation where they spontaneously change their antigen phenotype so Ab no longer recognize them.

Trypanosomes dedicate 10% of their genome to have 100 VSGs (variable surface glycoproteins)

Question 41

What is antigenic variation?
How does it allow immune system evasion?
What parasite utilizes this technique?

Answer 41

Spontanteous and repeated changing of antigenic phenotypes to frustrate and exhaust the immune system
Trypanosomes (Af. Sleeping sickness, Chagas)

Question 42

What are the 4 ways parasites evade phagocytosis? Give an example of a parasite that uses each technique?

Answer 42

1. prevent macrophage from binding = pneumococcal
2. Escape from phagosome= trypanosome (Chagas, Af. Sleeping Sickness)
3. Prevent phagolysosomal fusion = toxoplasma
4. Impervious to degradation by lysosome= Leishmania

Question 43

What cells do Leishmania reside in?

What kind of parasite are they?

Answer 43

They are blood/tissue flagellates that reside in the cells of the RES

1. They use complement receptor on activated macrophages to gain entry to host cells
2. They inhibit oxidative burst, scavenge O2 free radicals
3. Live best at lysosomal pH and are impervious to enzymes
4. Macrophages infected by Leishmania are resistant to activation by IFNg

Question 44

What is the most common type of antigenic mimicry used by parasites?
How are host antigens acquired?

Answer 44

They mimic blood group antigens** most common

Mimic MHC host antigens

The antigens are acquired passively and not synthesized by the parasite

Question 45

What host evasion strategy is utilized by schistosomes?

Answer 45

Antigenic mimicry

Question 46

What Th response protects against leishmaniasis?

What Th response produces lethal leishmaniasis?

Answer 46

Th1- protects

Th2- lethal

Question 47

What is the hygiene hypothesis?

Answer 47

Incidence of autoimmune disease (espoecially type I diabetes and MS-type4 hypersensitivities) are increased in developed countries and decreased in underdeveloped countries.
Parasitic infection reduces the risk of atopic disease by 60% because they induce Treg cells that downregulate allergic diseases

Question 48

What parasite was given to Crohn’s patients to send their ulcerative colitis into remission?

Answer 48

benign, self-limiting whipworm

Question 49

Describe schistomiasis.

Answer 49

Th1 response followed by Th2 to schistosome egg antigens in the liver cause granuloma formation and fibrosis of the liver which compresses vessels, causes hemostasis and collateral vessel formation.

Ascites= bloated belly with schistomiasis

Question 50

What type of pathogen causes river blindness?
What is the mechanism of the pathogen?
What immune cells are involved?

Answer 50

Filariasis- Onchocerciasis vuvolus
The pathogen elicits as Th2 response to larval antigens and creates chronic inflammation on the ocular surface
Keratitis and corneal opacity are due to eosinophils and neutrophils