4/5 Innate Immunity and Complement

Question 1

Innate immune system function

Answer 1

First line of defense: identify/ initiate inflammation, eliminate and repair, and activate and regulate adaptive immunity.

Question 2

Characteristics of innate immunity

Answer 2

No memory or specificity, (no protective immunity) rapid response

Question 3

3 barrier types of the innate immune system:

Answer 3

Anatomical barriers (skin and mucous membranes)
Physiological barriers: chemical-mediated, involves microflora and the enzymes they produce
Phagocytic barriers: cell-mediated, using macrophages and neutrophils

Question 4

Chemical defensive barriers

Answer 4

Lysozyme, stomach acid, defensins (microbes can kill organisms like them who compete for resources) and lactoferring (prevents iron-scavenging of infectious bodies)

Question 5

Types of phagocytic barriers

Answer 5

Monocytes (bloodstream) and macrophages (all connective tissue and organs)
Neutrophils (polymorphonuclear leukocytes/ PMNs)

Question 6

Recognition of foreign particles

Answer 6

• Pattern recognition receptors

—> conserved, found on PHAGOCYTIC cells including antigen-presenting dendritic cells, recognize PAMPs and DAMPs

Question 7

Function of phagocytosis

Answer 7

Uptake of particulate material from the local environment by specialized cells (Macrophages, neutrophils, and dendritic/ antigen-presenting cells)
—> engulfment and internalization of materials for their clearance and destruction

Question 8

Steps of the phagocytic process

Answer 8

1. Antigen binds to PRRs on membrane evaginations called pseudopodia
2. Antigen is ingested, forming phagosome
3. Phagosome fuses with lysosome
4. Antigen killed and digested by low pH-activated lysosomal enzymes (lysozymes) which include reactive oxygen and nitrogen species
5. Digestion products are released from the cell

Question 9

What are PAMPs? Two examples:

Answer 9

Pathogen associated molecular patterns (epitopes not present on host cells). These target cells for clearance and shortens response time.
Examples: Viral RNA, or bacterial cell wall peptidoglycan

Question 10

What are PRRs?

Answer 10

Pattern recognition receptors: found on phagocytic cells and recognize PAMPs and DAMPs

Question 11

Four most common types of PRRs

Answer 11

Toll-Like Receptors (TLRs)
C-type lectin receptor (CLR)
RIG-I-like receptor (RLR)
NOD-like receptors (NLR)

Question 12

Toll-Like Receptor; location on the cell, and to what types of molecules do they bind?

Answer 12

Found on surface and within cells (to recognize both extracellular and intracellular PAMPs)
Different TLRs recognize different PAMPs
(Extracellular: Gram + and - Bacteria, parasites, fungi, flagella)
(Intracellular: viral components and some bacterial DNA)

Question 13

TLR activation pathways

Answer 13

Activates transcription factors to stimulate expression of cytokines, enzymes etc

Question 14

C-type lectin receptors: location and recognition types

Answer 14

Extracellular pathogens (located on membrane) recognizes carbohydrate components of fungi, viruses, mycobacterium, parasites and allergens. 
Transcription factors activated promote expression of proinflammatory cytokines (IL-1B, TNF, IL-23)

Question 15

NOD-like Receptors: cell location and primary targets

Answer 15

Located intracellularly, and recognize components of cells walls (muramic acid), NOD1 and NOD2 bind to these PAMPs, while NLRP-3 binds microbial products and DAMPs. Induces expression of antimicrobial proteins and peptides, and can initiate autophagy by forming autophagosomes that fuse with lysosomes to kill bacteria.

Question 16

RIG-I-like receptors, cell location and primary targets

Answer 16

Work in the cytosol and recognize viral double-stranded RNAs, which is bound by the RLR helicase domain. Triggers the pathway to activated interferons to trigger antiviral interferon responses

Question 17

Killing Mechanism of phagocytosis

Answer 17

Kill with enzymes: lysozyme and acid hydrolase’s to dissolve/ digest, lactoferrin and Vitamin B12-binding protein to sequester nutrients pathogen would need to grow, and defensins and cationic proteins to direct antimicrobials to site of infection.
Also use reactive oxygen and nitrogen species that are directly toxic to bacteria

Question 18

When phagocytic cells encounter invading microbes, name one transcription factor that is activated

Answer 18

NF-kB

Question 19

5 signs of inflammation, and what is responsible for each sign

Answer 19

Redness, pain, swelling, warmth (fever), loss of function
Vasodilation causes local edema (swelling) and increases the temperature, and causes redness
Bradykinin triggers release of prostaglandins which bind to free nerve endings, causing pain (and edema broadly)
Swelling can cut off mobility and function to a region

Question 20

Step 1 of inflammation

Answer 20

Tissue damage and pathogen introduction begins the release of inflammatory mediators.

• Damage cells and local immune cells release chemokines that activate capillary dilation and attract more phagocytes
• Bradykinin is one of these chemokines and also causes cascade leading to swelling, rise in temperature, and pain

Question 21

Stage 2 of Inflammation

Answer 21

Phagocytes normally roll casually down the vessel endothelium using L-selectins. Cytokines produced by macrophages lead epithelium to display E-selectins which bind to phagocyte’s integrin receptors, causing rolling to stop at “door” of infection. Phagocytes squeeze between endothelial cells into interstitial fluid (diapedesis). Phagocytes then migrate to the site of injury, moving along a chemokine gradient. When arrived, phagocytes destroy pathogen or cause of tissue damage, and removes dead and damaged host cells.

Question 22

Margination

Answer 22

The process by which phagocytes stick to the lining of blood vessels at site of infection using E-selectins, as opposed to rolling casually using endothelial L-selectins

Question 23

Diapedesis

Answer 23

Cytoskeleton of phagocytes reorganizes and flattens out along endothelium, allowing the phagocyte to squeeze through the endothelial cells into the interstitial fluid

Question 24

Phagocytic extravasion

Answer 24

How phagocytes migrate to the site of injury. When in the interstitial fluid, they move along a chemokine gradient, like a hound dog following a stronger and stronger scent.

Question 25

Step 3 of inflammation

Answer 25

Tissue repair: fibrin clot is formed to prevent spread of pathogen, dead and damaged cells are replaced, cytokines production and activity is turned off to prevent chronic inflammation.

Question 26

Acute Phase response of inflammation

Answer 26

Increased synthesis/ secretion of antimicrobial proteins by the liver. These proteins activate other processes to help eliminate pathogens. APR is induced by proinflammatory cytokines (IL-1, TNF-a, IL-6)

Question 27

Acute Phase Response Proteins

Answer 27

• Mannose binding lectin (MBL) responsible for complement activation
• C reactive protein (CRP) which promotes opsonization and complement activation
• components of complements

Question 28

Natural Killer Cells

Answer 28

Lymphocytes that function within the INNATE immune system. Found in blood an lymphatic system, and kill cells that are struggling to produce self-proteins due to infection, malignant transformation, or other stressors

Question 29

Natural Killer Cell recognition mechanism

Answer 29

Major histocompatibility complex 1 (MHC1) is expressed on all nucleated host cells. If they are not expressed to a certain density (due to infection or malignancy etc) the negative signal will not be stimulated (as cell has many positive signals that need to be canceled out by a certain density of these negative MHC1 signals) and NK cells will kill it.

Question 30

How NK cells kill cells

Answer 30

1. Kill the altered self-cell by releasing performing and granzymes to induce apoptosis
2. Produce cytokines that induce adaptive responses against altered self-cell

Question 31

Function of histamine in inflammation

Answer 31

Histamine causes capillary epithelial cells to open wider, leading to edema and increased extravasion

Question 32

Prostaglandins function in inflammation

Answer 32

Prostaglandin promotes edema as well, and binds to free nerve endings causing pain

Question 33

What is the complement system?

Answer 33

Group of ~30 serum proteins which circulate in inactive form and are activated to become major body defense system

Question 34

Function of complement system

Answer 34

1. Controls inflammatory reaction (through chemoattractants and promoting phagocytosis)
2. Clear immune complexes (antibody+antigen) so doesn’t block the kidneys
3. Activates other immune cells and antimicrobial defenses
4. Can self-regulate/ degrade other complements to prevent chronic inflammatory response

Question 35

Complement activating pathways

Answer 35

There are three: classical, alternative, and lectin pathway.

Question 36

How is classical complement pathway activated

Answer 36

(Works in adaptive immunity)
IgM or IgG binds to a multitalented antigen, and the complement binds to the antibody, causing a conformational change in and activation of the complement. This activated complement and then trigger a cascade.
At the end of this cascade, C5 convertase is produced

Question 37

how Lectin complement pathway is activated

Answer 37

Lectins bind to components of microbial cell surfaces, allowing lectin-associated serine proteases to dock there. These proteases can then cleave the first complement products and begin the cascade. Eventually this leads to C5 convertase

Question 38

Alternative complement pathway activation

Answer 38

1. Tickover pathway: small amounts of C3 are always produced/ cleaved, but will die if doesn’t interact with non-self epitope.
2. Properdin: binds directly to pathogen-cell surface to begin complement cascade
3. If clotting is initiated due to break in skin, thrombin is produced and thrombin can cleave complement components, leading to cascade. Platelet activation also releases components that maintain C3b in the fluid phase (free-floating)

Question 39

What is a respiratory burst?

Answer 39

To produce the reactive oxygen and nitrogen species necessary for phagocytes to kill ‘swallowed’ microbes, there is a sharp uptake of oxygen by the sell, which NADPH converts into a superoxide ion/ radical.

Question 40

When does a respiratory burst occur?

Answer 40

NADPH oxidase enzyme complex is activated when microbes bind to phagocytic receptors. This triggers a sharp increase in cellular oxygen uptake.

Question 41

TNF-å is produced by what cells?

Answer 41

Monocytes, macrophages, dendritic cells, mast cells, NK cells, epithelial cells.

Question 42

What is the role of TNF-å?

Answer 42

1. Activates monocytes into macrophages
2. Activates vascular endothelium to increase vascular permeability, fluid loss, and local blood clotting
3. Induces acute phase response from the liver
4. Induces fever response in the hypothalamus
5. Cytotoxic for many tumor cells

Question 43

What is opsonization?

Answer 43

Greek: to make tasty; it is antibodies or complements attaching to an antigen and promoting its phagocytosis

Question 44

Which complement proteins serve as opsonins?

Answer 44

C3b, C1q, and MBL (mannose binding lectin)

Question 45

Does activation of the transcription factor NF-kB lead to the expression of cytokines?

Answer 45

Yes,

Question 46

What are two ways microbes evade the complement system?

Answer 46

1. Microbial proteases destroy complement proteins

2. Some microbes mimic or bind complement regulatory proteins, down-regulating their effect

Question 47

What are ways by which the complement system is regulated (turned off)?

Answer 47

1. If C3b isn’t stabilized by properdin, it has a short half-life and will fall apart
2. C1 (which is suppressed by immune response/ inflammatory components( is activated as the immune response dies down, and it furthers this process by blocking the classical and lectin pathways of complement activation