Pathogens And Immunity

Question 1

What are the major routes of infection?

Answer 1

1. airborne transmission
2. food or waterborne transmission
3. Vertical transmission
4. Contact transmission
5. Vector transmission

Question 2

What body system is the main entrance point for pathogens being transmitted through the air?

Answer 2

Respiratory system

Question 3

What is vertical transmission?
Where and when does it occur?
What is the name for a disease transmitted in this way?

Answer 3

Vertical transmission is when a pathogen is passed from the mother to the baby through the placenta in utero.
The disease is congenital.

Question 4

What are two route that an infection can be transfered from the mom to the baby?

Answer 4

1. vertical transmission through the placenta in utero

2. contact transmission from the vagina or urethra during birth

Question 5

Where are three places where contact transmission of pathogens take place?

Answer 5

1. urethra
2. vagina
3. skin

Question 6

What is vector transmission?

What is the major pathogen spread via vectors?

Answer 6

It is when the pathogen is passed through another organism (ex. a mosquito)

Malaria is transmitted by vector and Lyme Disease is spread by ticks

Question 7

What are the four classes of microbes that the immune system must protect against?
What is an example of each?

Answer 7

1. Bacteria- salmonella and mycobacterium tuberculosis
2. Virus- influenza
3. Fungi- candida albicans (pneumonia)
4. a. Parasitic protozoa - plasmodium
   flaciparum (malaria)
   b. Parasitic worms- schistosoma

Question 8

What class of microbe is responsible for the cause of malaria?

Answer 8

Parasitic protozoa - plasmodium flaciparum

Question 9

How does a prokaryotic cell differ from a eukaryotic cell in terms of size and content? (5 ways)

Answer 9

Prokaryotic cells:

1. are 10x smaller
2. lack a nucleus
3. have a single chromosome
4. have 70s ribosomes
5. Have a cell wall made of peptidoglycan

Question 10

What color do gram positive bacteria stain and why?

Answer 10

Gram positive cells have a thicker peptidoglycan cell wall so they maintain the original violet stain. When the cell is rinsed with alcohol, the stain does not get removed. When the counter stain is added, it looks dark purple.

Question 11

What color do gram negative bacteria stain and why?

Answer 11

Gram negative bacteria stain pink because after the original staining, when the cell is washed with alcohol, the stain washes away. The counter stain makes it look pink.
The original stain washes away because it has a thinner peptidoglycan cell wall that does not hold the stain.

Question 12

Do gram negative or gram positive bacteria have a thicker peptidoglycan cell wall?

Answer 12

Gram positive

Question 13

What bacteria are not stained by the gram stain? (2 examples)

Answer 13

1. Spirochetes- like treponema pallidum (syphilis)

2. mycobacterium tuberculosis

Question 14

What are the three major virulence factors?

Answer 14

1. endotoxins
2. exotoxins
3. bacterial capsules

Question 15

Which type of bacteria have endotoxins?

What does an endotoxin do?

Answer 15

gram negative bacteria because their cell walls have lipopolysaccharides (LPS).
This is a major inflammatory stimulus

Question 16

What is an example of a bacteria with endotoxins?

Answer 16

Neissenia Meningitis

Question 17

How does an endotoxin spread the pathogen?

Answer 17

1. When a gram (-) bacteria dies, it releases LPS endotoxin.
2. Endotoxin binds to a receptor on macrophage and sends a signal to the DNA
3. Macrophage secretes inflammatory cytokines lke IL1a and TNF
4. Vasodilation occurs allowing more gram (-) bacteria to enter the blood stream and lead to sepsis, temperature rises, BP falls

Question 18

What cytokines are released by macrophages when an endotoxin binds to it?

Answer 18

IL1a and TNF

Question 19

What does the release of cytokine from the macrophage after the binding of an endotoxin do?

Answer 19

1. Vasodilation to let bacteria enter bloodstream
2. decrease BP
3. raise temp

Question 20

Which type of bacteria have capsules and what are they made of?

Answer 20

gram positive- polysaccharide polymers

Question 21

What do capsules allow the bacteria to do?

Answer 21

1. become resistant to complement lysis in the blood
2. anti-phagocytic so make them resistant to being killed by neutrophils and monocytes (if they are phagocytized, they are more resistant to killing by lysosomes)

Question 22

How are encapsulated bacteria able to be eliminated?

Answer 22

the adaptive immune system will make antibodies to the polysaccharides on the capsule facilitating phagocytosis.

Question 23

What is an example of a bacteria that uses encapsulation as a virulence factor?

Answer 23

Streptococcus pneumoniae (pneumococcus)

Question 24

How does an exotoxin work?

Answer 24

A bacteria releases a toxin that allows it to invade and colonize host tissue easier by killing host cells at the barrier to infection

Question 25

Why is passive immunization so important for tetanus?

Answer 25

The amount of tetanus toxin necessary to kill someone is very small. It is crucial that the adaptive immune system has developed antibodies against the toxin because if you wait for primary immune response, it would be too late.

Question 26

What are three examples of pathogens who cause disease predominantly or exclusively by the release of their toxins?

Answer 26

1. Tetanus
2. Diptheria
3. Cholera

Question 27

What type of toxin does clostridium tentani produce?

Answer 27

neurotoxin that does not stimulate an immune response because it is in such low quantity

Question 28

How does diptheria get transmitted?

How does it cause its pathogenesis?

Answer 28

It is transmitted via respiratory secretions and colonizes the pharynx. When it secretes its toxin, it kills epithelial cells in the throat.
A pseudomembrane of dead epithelial cells form and the airway swells

Question 29

What body system does cholera affect?

Answer 29

GI tract. It causes up to 20L/day of diarrhea

Question 30

What are the three ways antibodies can control bacterial pathogens?

Answer 30

1. directly kill them via complement lytic components
2. neutralize exotoxins
3. enhance phagocytosis of encapsulated bacteria (opsonization)

Question 31

In general, what are the steps of the viral life cycle?

Answer 31

1. attachment to cell membrane
2. penetration
3. replication
4. transcription
5. translation
6. assembly
7. release

Question 32

How do viruses attach to cells?

Answer 32

via a highly specific, high affinity receptor

Question 33

What are the two ways a virus can penetrate a host cell?

Answer 33

1. endocytosis

2. move directly through plasma membrane

Question 34

After a virus is assembled and released from a host cell, what can it do?

Answer 34

Infect other cells in the same host or get transmitted to another host

Question 35

What is cellular tropism?

What are two examples?

Answer 35

A specific virus infects a narrow range of eukaryotic hosts

ex. HIV infects T cells and macrophages
Herpes simplex infects neurons

Question 36

What are the four consequences of viral infection in human disease?

Answer 36

1. Lysis
2. Chronic/persistant infection
3. Reactivation
4. Transformation

Question 37

What is the lytic pathway of viruses?

What is an example of a virus that follows this path?

Answer 37

When the first cell that is infected lysis and many virus are released at once to infect other cells or get transmitted to a new host.

Rhinovirus is an example (common cold)

Question 38

What is the transforming pathway of a virus and what is an example of a virus that uses this pathway?

Answer 38

When the cell that was infected is dysregulated and the infection persists in the host.
An example is HPV and it causes warts from the dysregulated cells.

Question 39

What is the chronic/persistent pathway of viral infection and what is an example of a virus that does this?

Answer 39

The virus infects and proliferates at a low level only occassionaly releasing the virus to infect more areas.
Ex. are HepC (hepatocytes), HIV (macrophages or Tcells) Epstein Barr (B lymphocytes), Human cytomegalovirus (salivary glands)

Question 40

What does Epstein Barr Virus infect? What kind of viral pathway does it take?

Answer 40

It infects B lymphocytes and is chronic/persistant

Question 41

What does HIV infect? What kind of viral pathway does it take?

Answer 41

macrophages and lymphocytes and it is chronic persistant

Question 42

What does the Human Cytomegalovirus infect?

Answer 42

It is chronic/persistent infection of salivary glands

Question 43

What is the latent/proviral pathway of viruses? What is an example of a virus that takes this path?

Answer 43

It is when the virus lays dormant in a host cell without replicating.
Periodically the virus is released and can cause recurrent outbreak.
Ex. Herpes Zoster (chicken pox/shingles) and Herpes Simplex (neuronal cells)

Question 44

What cell population aids in killing viruses that have already infected cells?

Answer 44

CD8 T cells

Question 45

What are the two major differences between fungal cells and human cells?

Answer 45

1. Fungi have a carbohydrate polymer cell wall

2. Fungi have a surrounding matrix of mannoproteins or mannans

Question 46

What are mannoproteins?
Where are they found?
What do they do?

Answer 46

They are polymer chains consisting mainly of mannose that form a matrix around fungal cells.
They stimulate innate immunity via Toll-like Receptors (TLR) and are targets for phagocytosis by mannose binding lectin

Question 47

What is mannose binding lectin?

Answer 47

a scavenger receptor that binds to mannoproteins on fungal cells to target them for phagocytosis.

Question 48

What are the two major types of fungi and how do they differ in morphology?

Answer 48

1. Yeast- single celled organisms that asexually bud

2. Mould - grows as filamentous complexes

Question 49

What is it called when a fungi can transition between yeast and mould?
What set of diseases does this type of fungi cause?

Answer 49

dimorphic fungi cause endemic mycoses because of their limited geographical distribution

Question 50

What is the major factor that determines whether a dimorphic fungi will be a yeast or a mould?

Answer 50

Temperature.
Soil- mould
Body temp- yeast

Question 51

What is an example of a dimorphic fungi?

Answer 51

histoplasma capsulatum

Question 52

Where do most fungi live inside a host?

Answer 52

extracellularly although the notable exception is the histoplasma capsulatum which grows inside macrophages

Question 53

What type of fungi is Candida?

Where are they found?

Answer 53

Yeast that colonize skin and mucousal surfaces of the body. They are opportunistic pathogens

Question 54

Under what four situations can candida cause infection?

Answer 54

1. when antibiotic treatment reduces normal bacteria and the yeast overgrows its normal area (yeast infection after UTI)
2. after chemo when neutrophils are extremely low, candida can be a blood infection
3. In advanced AIDS there is Candida overgrowth in the esophagus
4. Other immunodeficiency disorders

Question 55

Is Cryptococcus neoformans yeast, mould or dimorphic?

Answer 55

Yeast

Question 56

How does cryptococcus neoformans spread?
What does it cause?
What are the two major forms of cryptococcus neoformans?

Answer 56

It is an air pathogen that can be inhaled and cause pneumonia.
There is a polysaccharide encapsulated form and an unencapsulated avirulent form.

Question 57

Where is cryptococcus neoformans usually found? What happens if it diseminates?

Answer 57

It usually will form small lesions in the lungs. If it disseminates it will cause meningitis.

Question 58

Is histoplasma capsulatum yeast, mould, or dimorphic?

Answer 58

Dimorphic (mould in soil and yeast after inhalation)

Question 59

Where does histoplasma capsulatum proliferate?

Answer 59

It gets phagocytosed by alveolar macrophages and gets transported to lymph nodes. It is encapsulated though and resists killing in the macrophage.

Question 60

What eventually controls histoplasma capsulatum?

Answer 60

Cell-mediated immunity

Question 61

Is aspergillus mould, yeast or dimorphic?
Where is it located?
Who does it affect?

Answer 61

Mould that is opportunistic and normally contained in alveolar macrophages in the lungs.
It does not affect immunocompetent patients but will cause pneumonia in cancer patients with low neutrophil, count

Question 62

What are the two types of parasites?

Answer 62

1. protozoa- single-celled

2. worms- multi-celled

Question 63

What are the four types of parasitic protozoa?

Answer 63

1. ameba
2. ciliates
3. flagellates
4. sporozoa

Question 64

What is an example of an ameba protozoa and what does it causE?

Answer 64

Entamoeba histolytica lives in the intestines and causes ulcers

Question 65

What are two examples of flagellate protozoa?

What do they cause?

Answer 65

1. Plasmodium- malaria

2. Trypanosoma- African Sleeping Sickness

Question 66

What does plasmodium cause?

Where does the parasite mature?

Answer 66

Malaria.

The parasite matures in RBC or liver cells. (although there are 5 known extracellular strains)

Question 67

What is the other name for parasitic worms?

Answer 67

helminths

Question 68

During a parasitic worms invasive phase, what does it do?

Answer 68

Eggs, larva or adult worms migrate through the vertebrae host

Question 69

How are parasitic worms able to resist phagocytosis?

Answer 69

They are too large to be engulfed

Question 70

What cell typically “attacks” parasitic worms?

Answer 70

eosinophils (although plasma cells and mast cells are present as well)

Question 71

What is a major problem associated with parastic worms?

Answer 71

They cause chronic inflammation resulting in fibrosis