Chapter 1 Overview Of Immune System

Question 1

What is immunology

Answer 1

It is the study of how the body distinguishes between self and non-self, and how it protects our body from foreign invaders

Question 2

Define immunity

Answer 2

All the mechanisms used by the body as protection from agents foreign to body

Question 3

Describe innate immunity

Answer 3

Genetically determined and doesn’t require prior exposure or memory. Non-specific and present at birth

Question 4

Describe adaptive immunity

Answer 4

Gained after birth, produced by the host or donor, specific protection against specific antigens

Question 5

What are the first 2 lines of immune defense?

Answer 5

Innate and immediate. Both are non-specific. Innate defense involves anatomical and biochemical barriers whilst immediate defense is the inflammatory response

Question 6

What are some anatomical barriers in the innate immune system?

Answer 6

Skin, keratin, tracheal cilia

Question 7

What are some biochemical barriers in innate immune system?

Answer 7

Sebaceous glands, mucous membrane, lysozymes, gastric juices, pH, salt concentrations, fever, cytokines, interferons

Question 8

What is the body’s 3rd line of defense? Describe it

Answer 8

Adaptive immunity. It’s slow and provides specific protection (days and weeks). Takes longer to react than innate system

Question 9

How long does priming take?

Answer 9

1-2 weeks

Question 10

What is priming?

Answer 10

Priming is the process of the body learning, assessing, and adapting to foreign antigen. Part of adaptive defense

Question 11

Describe what complement protein is and does

Answer 11

It’s an opsonin, or binding enhancer, that helps to make phagocytosis easier by neutralizing the negative charge on antigens since immune cells also have negatively charged proteins

Question 12

What does lactoferrin do and why is it important?

Answer 12

It is a compound that binds iron and removes it from being a bacterial nutrient source

Question 13

What does alpha-anti trypsin do and why is it important? Which enzyme does it control?

Answer 13

This compound inhibits bacterial enzymes, such as proteases, from breaking down and damaging the lungs. It especially controls the activity of NEUTROPHIL ELASTASE, which normally functions to break down foreign proteins but it can break down alveolar components of allowed to be active for too long

Question 14

Name the 2 most common binding enhancers AKA opsonins

Answer 14

Antibodies and complement proteins

Question 15

Name types of phagocytes

Answer 15

Neutrophils, macrophages, dendritic cells

Question 16

Which type of phagocyte is the most abundant ? What do they typically scavenge for? How long do they last?

Answer 16

Neutrophils. They mostly look for bacteria. Die fighting so don’t last long

Question 17

Describe natural killer cells. Which progenitor cell generates them?

Answer 17

They come from lymphoid progenitor cells and DO NOT phagocytose! NOT phagocytosis-capable! They instead attack cells that lack the self-surface receptor (likely MHC class molecules?) and induce apoptosis in cancer cells because they lost the self-surface receptor. They contain granules full of chemicals that enhance inflammatory response or are toxic to pathogen

Question 18

Describe the inflammatory response. What causes it? How does it manifest? What is its function? Which immune defense system does it alert?

Answer 18

Caused by damage to body tissue. There are 4 main manifestations: 1) heat, 2) redness, 3) swelling, and 4) pain. The swelling is due to fluid buildup in tissues (edema). It functions to prevent the spread of damaging agents so it disposes of cell debris and pathogens. Alerts adaptive immune system. Vasodilation.

Question 19

List the 4 stages of phagocyte mobilization (innate to internal defenses)

Answer 19

1) Leukocytosis
2) Margination
3) Diapedesis
4) Positive chemotaxis

Question 20

What is leukocytosis?

Answer 20

Excess white blood cell count. In phagocytic mobilization, neutrophils leave the bone marrow and enter the bloodstream

Question 21

Describe margination. Which surface proteins allow for this process to occur?

Answer 21

It’s when phagocytes, such as neutrophils, cling to the capillary well. CAMs (cell adhesion molecules) are surface proteins that allow them to stick.

Question 22

Describe diapedesis

Answer 22

This is when phagocytes, such as neutrophils, flatten and squeeze out of capillaries to arrive to site of tissue damage/foreign pathogen

Question 23

Describe chemotaxis

Answer 23

This is when chemical concentration leads to cell or organism to either go toward or away the chemical stimulus. In the case of phagocytic mobilization, neutrophils demonstrate positive chemotaxis, so they go toward the chemical trail left by inflammatory response

Question 24

Describe some proteins involved in inflammatory response

Answer 24

Antimicrobial proteins such as interferons (IFNs) and complement proteins. They directly attack microbes and hinder their ability to reproduce. Interferons are named for their ability to “interfere” with viral replication

Question 25

Describe the complement system. Is it innate or adaptive? How is it controlled?

Answer 25

It is innate. It contains a collection of proteins (C1-C9, factors B, D, and P, and regulatory proteins). It’s a major mechanism of destroying foreign invaders. Body controls it through “complementation activation inhibitors”. It unleashes inflammatory chemicals that amplify ALL aspects of inflammatory response. Enhances both innate and adaptive defenses. Kills bacteria by cell lysis

Question 26

What activates the complement system? End result?

Answer 26

Reaction between antigen and antibody. End result is lysis of target (bacteria) or enhanced phagocytosis by neutrophils

Question 27

What is fever useful for? Is it local or system?

Answer 27

It’s useful to increase metabolic rate, thus leads to faster tissue repair. It’s a systemic response.

Question 28

What does the adaptive response amplify and activate?

Answer 28

Amplifies inflammatory response and activates complement system

Question 29

Describe 3 traits of adaptive defenses

Answer 29

1) Specific
2) Systemic (not restricted to initial site)
3) Memory (through priming)

Question 30

What are the 3 types of cells in adaptive immune system?

Answer 30

1) B lymphocytes
2) T lymphocytes
3) Antigen presenting cells (don’t respond to specific antigens)

Question 31

Is neutralization by antibodies temporary or permanent? What does this signal?

Answer 31

Temporary. Signals for destruction by phagocytes or complement

Question 32

What are the two ways that T cells (cellular immune response) act against target cells?

Answer 32

Direct killing or indirect killing by the release of chemicals (cytokines) that enhance inflammatory response, or activate other lymphocytes or macrophages

Question 33

What are the targets of B and T lymphocytes?

Answer 33

B cell = extra cellular antigens
T cell = cellular level. Direct!

Question 34

Difference between immunogen and antigen?

Answer 34

Immunogens generate immune response. All immunogens are antigens.
Antigens may or may not generate immune response. Not all are immunogens

Question 35

What is a pathogen?

Answer 35

Any substance that causes disease

Question 36

Most antigens are ______?

Answer 36

Proteins. But can be nuclei acids, lipids, or polysaccharides

Question 37

Describe antigens?

Answer 37

Can mobilize adaptive immune response and are large, complex molecules not found in the body normally

Question 38

Describe functional properties of complete antigens

Answer 38

They have immunogenicity, meaning that they can stimulate the proliferation of specific lymphocytes. They also have reactivity, meaning that they can react with activated lymphocytes and secreted antibodies

Question 39

What size molecule is recognized as complete antigen?

Answer 39

Greater than 6000 Daltons

Question 40

What is a hapten? Is it immunogenic on its own?

Answer 40

Incomplete antigen. Typically small molecules that are NOT immunogenic on their own but can be if attached to carrier proteins

Question 41

Examples of haptens

Answer 41

Pollen, penicillin, poison ivy, animal dander, detergents, cosmetics, and aspirin

Question 42

Size of haptens?

Answer 42

Less than 1000 Daltons

Question 43

What are antigenic determinants?

Answer 43

They are epitopes, or part of antigen that antibodies and lymphocyte receptors bind like enzyme binds substrate. They are immunogenic. Only some parts of antigen are immunogenic, and those are the antigenic determinants

Question 44

Examples of self-antigens?

Answer 44

MHC (major histocompatibility complex) glycoproteins. They are unique to the individual and twins are not 100% identical for these genes

Question 45

Are self-antigens antigenic?

Answer 45

Not to self but they can be in transfusions or grafts

Question 46

Function of MHC I and II glycoproteins?

Answer 46

Signposts that display fragmented pieces of antigen on host cell (antigen presenting cell) surface

Question 47

Where do B cells and T cells mature/get educated/proliferate?

Answer 47

B cells mature in the bone marrow
T cells mature in the thymus

Question 48

Traits of mature lymphocytes?

Answer 48

Immunocompetent = recognize/bind to ONE specific antigen
Self-tolerant = unresponsive to self/auto-antigens

Question 49

List the stages of lymphocyte development

Answer 49

1. Origin in bone marrow
2. Maturation (develop immunocompetence and self-tolerance)
3. Seeding secondary lymphoid organs and circulation
4. Antigen encounter and activation
5. Proliferation and differentiation (differentiate into effector and memory cells)