Week 9

Question 1

What are specialist pathogens or parasites?

Answer 1

Can only infect a narrow host range

Question 2

What are generalist pathogens or parasites?

Answer 2

Can infect a wide host range

Question 3

What are the downsides of specialism?

Answer 3

Specialists rarely evolve to specialise on one resource without loosing effciency on another

Question 4

What are the advantages of specialists?

Answer 4

Better establishment of a host
Higher parasitemia (proxy for intensity in blood parasites)
Higher prevalence

Question 5

What are the advantages of generalist?

Answer 5

Match or exceed prevalence of a specialist
Maybe better insurance against host extinction (more reservoirs and opportunistic jumping)

Question 6

What are STD (inverse bottom power for TD)?

Answer 6

This measures the taxonomic distinctness of all host species a parasite makes use of
Measures as the mean number of step back up a phylogeny to get to a taxon common to two species

Question 7

How specialist are most parasites?

Answer 7

Most parasites have a high frequency in few hosts with few having low frequency in many hosts

Question 8

What are the 2 filters for evolution of parasite specificity?

Answer 8

Ecological filter and Physiological filter

Question 9

What is the ecological filter?

Answer 9

Niche and shared habitats affect the likelihood of an encounter between a potential host and parasite species

Question 10

What is the physiological filter?

Answer 10

Determine the suitability of the host, if a parasite encounters a host, can it establish an infection and transmit further. Phylogenetically close hosts are physiologically similar so may have a similar physiological filter and attract the same parasites

Question 11

What are biogeographical factors impacting number of hosts?

Answer 11

Parasites with larger distrubution have a larger range of possible hosts (though a small set of those may be suitable)

Question 12

What are the two outcomes for a wide ranger parasite species?

Answer 12

Widely distributed parasites may be highly specialised
Or they could evolve towards generalism to make most of the resources

Question 13

What determines which outcome a parasite species becomes?

Answer 13

Depends on gene flow between localities of both host and parasitess
Opportunism may also come into play

Question 14

What is spatial heterigeneity?

Answer 14

The locally differentiated host populations may be more diffucult for parasite to adapt any specific population

Question 15

How might parasites evolve spatial heterigeneity?

Answer 15

Either broad host range and generalist however each location could also develop differing degress of specificity via local adaptation

Question 16

How can host phylogeny impact host range?

Answer 16

Common ancestry shapes phtsiological traits
Parasite may not be able to establish an infection it has never evolved the necessary traits
Species rich taxonomic groups may have more parasites simply because of morphological similarity

Question 17

How can transmission impact host range?

Answer 17

More frequent transmission with the same host species could lead to specialisation

Question 18

How can transmission mode come into play?

Answer 18

Direct transmission are more likely to be specific
Vectors make use of a vector show intermediate levels of specificity

Question 19

How did direct transmission amogst helminths impact host range?

Answer 19

Amongst all known species two thirds that undergo direct transmission infect a single host species and non are known to be able to infect hosts

Question 20

How did vector transmission amogst helminths impact host range?

Answer 20

Intermediate hosrs are transmitted tropically are less specific with half restricted to a single definitive host and a quarter able to infect hosts of different orders

Question 21

How can larger hosts impact host ranges?

Answer 21

Larger hosts can be thought of as larger islands in biogeographical theory - more resources and niches
This sometime means that larger hosts harboring a greater parasite richness

Question 22

What is parasite evasion?

Answer 22

To avoid host immune system meaning they can stay in and maximise use of their host

Question 23

What is parasite manipulation?

Answer 23

When the parasites change the host phenotype

Question 24

What are the pre-infection defences of the host?

Answer 24

Reducing exposure and Anticipatory defences e.g secretions and barriers

Question 25

What are immunoglobulins?

Answer 25

Proteins that bind to foreign binds marking them as foreign to the rest of the immune system

Question 26

What are compliments?

Answer 26

A complex cascade which ends in the formation of the Membrane Attack Complex (MAC) which forms pores in cell walls and causes parasites to lyse

Question 27

What is passive evasion?

Answer 27

Where no parasite-borne molecules are secreted

Question 28

What are the passive evasion mechanisms that may be employed?

Answer 28

Hiding and host mimicry
Antigen variation
Antigenic shift
Quiescence
Encapsulation

Question 29

How do schistomiasis hide from the immune system?

Answer 29

Schistosomes have a tegument

Question 30

How does the tegument help the schistosomes (type of trematodes) hide from the immune system?

Answer 30

The tegument utalises surface molecules that share glycosylation patterns with their host hemocytes

Question 31

What causes sleeping sickness?

Answer 31

African trypanosomes (type of protozoan)

Question 32

What makes sleeping sickness chronic?

Answer 32

Despite continuous exposure to immune attack trypanosomes can persist

Question 33

Why can trypanosomes survive continous exposure?

Answer 33

Antigenic variation where the surface glycoproteins change their identity allowing for the protection from immune recognition

Question 34

What is antigenic shift?

Answer 34

The hybridising of antigens from 2 viruses through mixing of RNA

Question 35

What is antigenic drift?

Answer 35

Antigen change due to mutations over time

Question 36

What is quiescence?

Answer 36

When pathogens lay dormant

Question 37

Where is quiescence and capsule formation often seen?

Answer 37

In bacteria and viruses

Question 38

Can parasites quiescence and form capsules?

Answer 38

Yes

Question 39

What is bacteria capsule made from?

Answer 39

Polysaccharide

Question 40

What does quiescence look like in viruses?

Answer 40

Reduced production of viral proteins

Question 41

What is an example of viral quiescence?

Answer 41

Herpes has a life long latent infection in sensory neurons, flareing up when immune system is already stressed

Question 42

What is the lifecycle of Toxoplasma?

Answer 42

In bird and rats, toxoplasma lives as tissue cysts then the bird or rat is eaten by a cat. This then gets poo’d out and then reconsumed by bird or rat. This can enter humans.

Question 43

How many people have toxoplasma?

Answer 43

1/3 of all people but in parts of europe it is almost everyone

Question 44

What happens to toxoplasma in the body?

Answer 44

Lives in most cell types
In a cell it feeds and reproduces, when exactly 128 it rips open cell and infects new cells
A cycst forms containing a few hundred and every now and again the cyst will break and a new infection will begin

Question 45

What are the symptoms of taxoplasma?

Answer 45

Light flu
Though asymptomatic when cyst forms

Question 46

How does taxoplasma keep its populaiton in check?

Answer 46

Through the host immune system

Question 47

Who is at risk from toxoplasma?

Answer 47

Only people with immune problems and fetuses

Question 48

What is active interference?

Answer 48

The parasite produces molecules that directly interfere with host machinery

Question 49

What are examples of active interference?

Answer 49

Interference with recognition
Block the host regulatory network
Distort essential cellular function eg apoptosis
Impede actions of effectors

Question 50

What family of viruses make decoy molecules?

Answer 50

Orthopoxviruses (smallpox, monkeypox, mouse pox and cow pox)

Question 51

What immue function is prevented?

Answer 51

The type 1 interferon response involves a family or pro inflammatory cytokines that help control virus infections, they are secreted from infected cells

Question 52

What do Orthopoxviruses do to prevent type 1 interferon response?

Answer 52

Secrete soluble proteins that bind to type 1 interferon proteins with high affinities to reduce antiviral action and prevent infected cells signalling to healthy cells

Question 53

How schistosomiasis deactivate hemocyctes?

Answer 53

Mimic host production of immune cell inactivating hormones making hemocytes inactive and harmless

Question 54

What is commonly used in bacteria to inject effectors?

Answer 54

Many bacteria have type 3 secretory (T3SS) systems which can inject effector molecules into host cells

Question 55

How does Bordetella pertusis use T3SS to supress the immune system?

Answer 55

Inject effector molecules into host cells that stimulate anti-inflammatory interleukin-10 (IL-10) which then blocks neutrophil recruitment

Question 56

What does IL-10 do?

Answer 56

An important negative regulator of immflamation (neutrophil response), T cell responses and dendritic cell maturation (antigen presentation and adaptive immunity coordination)

Question 57

What do HIV, Hepatitis B and C do to reduce threat of IL-10?

Answer 57

Stimulate IL-10 production

Question 58

What do Herpes and pox viruses do to reduce threat of IL-10?

Answer 58

Create their own version of IL-10

Question 59

What do parasites do at start of infection?

Answer 59

Avoid recognition and block macrophages and neutrophiles

Question 60

What do pathogens do in early induced response?

Answer 60

Block inflammation
Interfere with signalling
Avoid phagocytosis

Question 61

What do pathogens do in adaptive immune response?

Answer 61

Block NK cells
Induce apoptosis
Interfere with receptors and signalling
Interfere with antigen presentation