Unit 8

Question 1

Innate vs Adaptive

Answer 1

Adaptive immunity: A specific immune response that develops over time, targeting particular pathogens and involving memory for faster future responses.

Innate immunity: A non-specific, immediate defense mechanism against pathogens that does not require prior exposure.

Question 2

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

Vaccinating against measles

Answer 2

Adaptive - Builds memory

Question 3

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

You get something in your eye and you immediately start tearing.

Answer 3

Innate - Immediate response

Question 4

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

Coughing

Answer 4

Innate - Reflex to expel pathogens

Question 5

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

You are sick with flu-like symptoms & your doctor does some blood work to determine what type of infection you have. The blood work comes back and your IgG levels are high

Answer 5

Adaptive - Specific immune response

Question 6

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

Complement proteins are at work

Answer 6

Innate - Enhances defense

Question 7

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

Commensal Staphylococcus aureus is cultured from your skin swab when doing a ubiquity experiment in lab. You lab partner asks why you aren’t sick

Answer 7

Innate - Microbiota protection

Question 8

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

You accidentally get exposed to a patient’s blood through a cut on your hand. Your blood work comes back positive for Hepatitis B antibodies

Answer 8

Adaptive - Immunological memory

Question 9

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

Your punctured finger is red, swollen and painful

Answer 9

Innate - Inflammatory response

Question 10

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

Temperature of a 103 degrees Fahrenheit

Answer 10

Innate - Fever to hinder pathogens

Question 11

Determine whether each scenario is MOST LIKELY an example of innate or adaptive

B lymphocytes and T lymphocytes are at work

Answer 11

Adaptive - Specific immune cells

Question 12

What are the 2 categories of the Adaptive (specific) immune response?

Answer 12

1. Humoral immunity
2. Cell-mediated immunity

Question 13

What does a humoral immune response consist of?

Answer 13

The activity of B-cells and the antibodies they produce

Question 14

Which part of the adaptive immune response involves B cells?

Answer 14

Humoral

Question 15

Antibodies are a part of which type of immunity?

Answer 15

Humoral

Question 16

What are antigen-presenting cells?

Answer 16

Certain type of phagocytic cells of the immune system that seek out foreign cells and engulf them

Question 17

What is antigen processing and presentation?

Answer 17

A way for a cell to display information about its activities

Ex. The phagocyte in antigen-presenting cells needs to show what they captured

The virus in the infected cell needs to show that it is infected

Question 18

Why would a body cell that is not a phagocyte need to present antigens?

Answer 18

Non-phagocytic body cells can become infected with a virus

Question 19

How do phagocytes communicate to other cells what they have captured?

Answer 19

They present antigens from engulfed foreign cells

Question 20

What are some examples of antigen-presenting cells?

Answer 20

1. Macrophages
2. Dendritic cells

Question 21

Antigen-presenting cells have _________ that are used to present antigens on their surfaces

Collectively these ________ are called _______ which stands for ________________________

Answer 21

Antigen-presenting cells have two classes of special proteins that are used to present antigens on their surfaces

Collectively these proteins are called MHC which stands for Major histocompatibility complex

Question 22

What are the different types of Classes of MHC proteins

Answer 22

1. Class I MHC proteins
2. Class II MHC proteins

Question 23

What are Class I MHC proteins?

Answer 23

Proteins used to present antigens produced within the cell

Question 24

What are Class II MHC proteins?

Answer 24

Proteins used to present antigens engulfed by antigen presenting cells

Question 25

Most of the other cells in the body including __________ are also able to ____________

However these cells only have the ______

Answer 25

Most of the other cells in the body including infected cells are also able to present antigens

However these cells only have the Class I MHC proteins

Question 26

Which structure do antigen presenting cells utilize to directly help them present bacterial antigens?

Answer 26

Phagolysosome;

to break down bacterial components

Question 27

Which of the following are likely to be found on an MHC-I protein?

1. Bacterial cell wall fragment
2. Bacterial DNA
3. Damaged mitochondrial fragment
4. Membranes from a neighboring dead host cell
5. Bacterial flagella

Answer 27

3. Damaged mitochondrial fragment;

MHC-I proteins present endogenous antigens, typically fragments derived from within the cell, such as:
- damaged mitochondrial fragments
- or viral proteins produced in infected cells

Question 28

What is likely to be found on an MHC-I protein?

Answer 28

Bacterial components like:

• cell wall fragments
• DNA
• or flagella

by antigen-presenting cells

Question 29

What would a virally infected skin epithelial cell have on its cell surface?

1. Class II MHC with liver cell antigens
2. Class I MHC with skin cell antigens
3. Class II MHC with macrophage antigens
4. Class II MHC with viral antigens

Answer 29

2. Class I MHC with skin cell antigens

Question 30

Antigens associated with ________ proteins originate from within the __________.

Answer 30

Antigens associated with Class I MHC proteins originate from within the host cell.

Question 31

Which of the following would you likely see on the surface of a human dendritic cell following phagocytosis of a bacterium?

1. Class II MHC with dendritic cell antigens
2. Class II MHC with engulfed bacterial antigens
3. Class I MHC with dendritic cell antigens and Class II MHC with engulfed bacteria
4. Class I MHC with dendritic cell antigens

Answer 31

3. Class I MHC with dendritic cell antigens and Class II MHC with engulfed bacteria

Question 32

Tom has a genetic disorder in which he does not synthesize class I MHC proteins or functional NK cells. Which of the following statements would be true for Tom?

1. Tom would not be able to destroy virally-infected cells.
2. Tom would be more susceptible to bacterial infections.
3. Tom would not be able to produce antibodies against viruses.
4. Tom would be less susceptible to helminth infections.

Answer 32

Tom would not be able to destroy virally-infected cells;

Class I MHC proteins are critical for presenting viral antigens to cytotoxic T cells, which destroy infected cells. Without Class I MHC or functional natural killer (NK) cells (which can kill cells lacking MHC I), Tom’s immune system cannot effectively eliminate virally infected cells.

Question 33

MHC proteins are used to present _____ on the surface of the cell

Answer 33

MHC proteins are used to present peptides on the surface of the cell

Question 34

_________ enter the _______________ and are loaded onto ______ proteins

The vesicles containing the ___________ complexes bud off of the ______________ and are released into the __________

Vesicles containing these complexes travel through the _______ to the ______________ delivering the complexes to the exterior of the cell

Answer 34

Peptides enter the endoplasmic reticulum and are loaded onto MHC proteins

The vesicles containing the MHC-peptide complexes bud off of the endoplasmic reticulum and are released into the cytosol

Vesicles containing these complexes travel through the cytosol to the cytoplasmic membrane delivering the complexes to the exterior of the cell

Question 35

Where are MHC molecules located on a cell?

Answer 35

On the surface of the cell

Question 36

What is a feature of the small fragments presented by MHC-I proteins?

Answer 36

They are small peptides, roughly 8-10 amino acids long.

Question 37

Which organelle assists directly with the presentation of MHC-I antigens?

Answer 37

The endoplasmic reticulum

Question 38

When does MHC-II loading occur?

1. During phagocytosis of an invading pathogen
2. After passing through the endoplasmic reticulum
3. During the fusion of vesicles containing MHC-II proteins with vesicles containing digested pathogens
4. During viral infection

Answer 38

3. During the fusion of vesicles containing MHC-II proteins with vesicles containing digested pathogens

Question 39

Which of the cells listed below can present antigens on Class II MHC proteins?

1. Virus infected epithelial cells
2. Healthy epithelial cells
3. Tumor cells
4. Macrophages

Answer 39

4. Macrophages

Question 40

At lease how many antigen-binding sites does each antibody have?

Answer 40

2;

allowing antibodies to bind to more than one microbial cell resulting in agglutination or clumping

Question 41

How does agglutination by antibodies help the body?

Answer 41

It helps remove microorganisms from the body

Question 42

Antibodies can neutralize ____, _______, & ______

By binding to _______________________ or blocking proteins necessary for _____________

Answer 42

Antibodies can neutralize toxins, viruses, & Bacteria

By binding to critical portions of the toxin or blocking proteins necessary for attachment to cells

Question 43

Antibodies also act as ________ for phagocytosis and activate the ____________ system.

Answer 43

Antibodies also act as opsonins for phagocytosis and activate the complement system.

Question 44

What makes agglutination by antibodies possible?

Answer 44

Each antibody has at least two antigen-binding sites

Question 45

What is the role of plasma cells in humoral immunity?

Answer 45

Plasma cells produce antibodies

Question 46

Which of the following most accurately describes how a pathogenic bacterium might be affected by antibodies?

1. The antibodies may block proteins necessary for binding the pathogen to the host.
2. The antibodies may coat the surface of the bacteria (opsonization), allowing for it to be tagged for phagocytosis.
3. The antibodies may stick to multiple bacteria, causing agglutination.
4. The antibodies may block proteins necessary for binding the pathogen to the host, may opsonize the bacterium, or may agglutinate bacteria.

Answer 46

4. The antibodies may block proteins necessary for binding the pathogen to the host, may opsonize the bacterium, or may agglutinate bacteria;

Antibodies can have multiple effects on pathogenic bacteria they can:
- block adhesion to host cells (neutralization)
- mark the bacteria for phagocytosis (opsonization)
- and cause bacteria to clump together (agglutination)

all of which help the immune system eliminate the pathogen.

Question 47

Each helper T-cell produces a unique _____________________ which corresponds to a specific antigen

Answer 47

Each helper T-cell produces a unique T-cell receptor (TCR) which corresponds to a specific antigen

Question 48

What is a receptor that each helper T-cell displays on its surface?

Answer 48

CD4;

which recognizes the MHC molecules of antigen-presenting cells

Question 49

When the helper T-cell encounters and antigen-presenting cell with an antigen displayed in a MHC molecule, it signals the antigen-presenting cell to release what?

Answer 49

Interleukin-1 ;

The IL-1 stimulates the helper T-cell to produce IL-2 as well as IL-2 receptors

Question 50

After IL-2 and IL-2 receptors are produced the helper T-cell can then autostimulate itself __________

Answer 50

keeping it active as it proliferates (rapidly increase in number and grow)

Question 51

Once a helper T-cell becomes activated what happens?

Answer 51

It proliferates, forming a clone of cells specific to the same antigen

Some of these helper T-cells differentiate into long lived memory T-cells but most mature to produce cytokines to help with the immune response

Question 52

What are the two subpopulations that the helper T-cells differentiate into?

Answer 52

TH1 cells : produce cytokines that activate the cells of cell-mediated immunity (cytotoxic T cells, macrophages, NK cells)

TH2 cells: produce cytokines that activate the B-cells involved in humoral immunity

Question 53

Which receptor on the helper T-cell recognizes the specific antigen from an antigen-presenting cell?

Answer 53

TCR (T-cell receptor)

Question 54

TH2 cells produce cytokines that activate what?

Answer 54

B-cells

Question 55

Which proteins on the antigen-presenting cell are recognized by the helper T-cell?

Answer 55

MHC; Class II proteins

Question 56

When do helper T-cells develop into TH1 or TH2 cells?

Answer 56

After proliferation into a clonal population

Question 57

Natural killer cells are activated by what?

Answer 57

TH1 cells

Question 58

What is clonal selection?

Answer 58

The process of B-cell activation;

a B-cells with a specific antigen receptor recognizes an antigen
this cell proliferates to produce a multitude of cells (clone of cells)
differentiate into memory B-cells and plasma cells

Question 59

What is clonal expansion?

Answer 59

When the cell proliferates to produce a multitude of cells (called clone of cells)
and differentiates into memory B-cells and plasma cells

Question 60

The antibodies produced by the plasma cells bind to antigens to produce the _________ response

Answer 60

The antibodies produced by the plasma cells bind to antigens to produce the humoral response

antibodies IgM
IgG

Question 61

In the simplest form of B-cell activation, and antigen called a ______________ antigen enters the _______________ and binds to a B-cell receptor (BCR) on the surface of the B-cell

Answer 61

In the simplest form of B-cell activation, and antigen called a T-independent antigen enters the lymphatic tissue and binds to a B-cell receptor (BCR) on the surface of the B-cell

Question 62

The BCR on a particular B-cell are _______ and very specific to ________ antigen(s)

Answer 62

The BCR on a particular B-cell are identical and very specific to just one antigen

Question 63

Once the BCR binds to the _____________ antigen, the B-cells becomes ________ and is _____________

Answer 63

Once the BCR binds to the T-independent antigen, the B-cells becomes activated and is now ready to proliferate

Question 64

B-cell is now ready to proliferate, however most antigens are not potent enough to activate B-cells by themselves.

In these cases what will the B-cell require?

Answer 64

In these cases the B-cell will require a second opinion form a helper T-cell to become activated by releasing cytokines

These antigens are called T-dependent antigens

Question 65

After a B-cell proliferates or divides what do the B-cells differentiate into?

Answer 65

1. Some become long- lived Memory B-cells
2. Most become plasma cells which secrete antibodies against the antigen that activated them

These antibodies can enter the bloodstream and travel throughout the body

Question 66

Plasma cells live for ________________ but each one can produce about _______ antibodies every second

Answer 66

Plasma cells live for only a few days but each one can produce about 2000 antibodies every second

Question 67

What best characterizes clonal selection?

Answer 67

The production of identical B cells producing the same antibody

Question 68

What is produced by the process of clonal expansion?

Answer 68

Plasma cells & memory B cells

Question 69

An antigen that is potent enough to activate a B cell on its own is known as?

Answer 69

T-independent antigens

Question 70

Based on the animation, T cells recognized the antigen displayed by what protein of the B cell?

Answer 70

MHC protein

Question 71

How can a sufficient humoral immune response occur if a plasma cell only lives for a few days?

Answer 71

Each plasma cell can produce up to 2000 antibodies every second

Question 72

After the first exposure to an antigen there is a ______ in which the exposed person’s ________ does not contain any detectable antibodies

Answer 72

After the first exposure to an antigen there is a lag period in which the exposed person’s serum does not contain any detectable antibodies

Question 73

The primary immune response involves:

Answer 73

When after several days of being exposed to an antigen the concentration of antibodies slowly rises, followed by a gradual decline

Question 74

For approximately how many days is IgG present in the serum?

Answer 74

10 days

Question 75

On what day does IgM first appear?

Answer 75

Day 5

Question 76

What is the secondary immune response?

aka, memory response or anamnestic response

Answer 76

When after the B-cells differentiate into long lived memory cells if they become stimulated by the original antigen, even years later, they rapidly produce antibody-secreting plasma cells

Faster and stronger response

Question 77

Which cells are involved in a secondary response?

Answer 77

Memory B cells and plasma cells

Question 78

How is the secondary response different from the primary response in terms of antibody concentration in the blood?

Answer 78

The secondary response is faster and produces more antibodies than the primary response

Question 79

On which day does the production of IgG occur in the secondary response?

Answer 79

Day 5

Question 80

An anamnestic response is another name for what?

Answer 80

Secondary response

Question 81

In regard to antibody function, identify the MISMATCHED pair.

1. opsonization = simulates phagocytosis
2. antibody-dependent cell-mediated cytotoxicity = target cell dies by apoptosis
3. neutralization = covering a critical portion of a toxin so that it is no longer harmful
4. agglutination = antibodies bind microbes to the vessel walls inhibiting spread of the microbe

Answer 81

4. agglutination = antibodies bind microbes to the vessel walls inhibiting spread of the microbe;

Agglutination causes soluble molecules to become insoluble, which may target them for phagocytosis or filtering by the kidneys.