3: Pathogen Recognition 🏁

Question 1

Cellular components (5) and barriers (3) of the innate immune system and main function/s

Answer 1

Barrier
- Epithelial barrier: prevent entry
- Defensins: microbial killing
- Intraepithelial lymphocytes: microbial killing

Cells
- Neutrophils: early phagocytosis and killing
- Macrophages: efficient phagocytosis and killing, secretion of cytokines that stimulate inflammation
- NK cells: lysis of infected cells, activation of macrophages
- Mast cell: Release of granules
- Dendritic cell: Mediator for adaptive immunity: AG presentation

Question 2

Name 3 problems and how pathogen recognition receptors overcome it

Answer 2

Enormous variability of microorganisms
- PAMPs are structures shared by large group of microbes

High mutation rate of microorganisms (e.g. Influenza)
- PAMPs must be constrained from mutational variation by being essential to microbial survival and pathogenicity

PAMPs need to be discriminated from non infectious self
- PAMPs are completely distinct from host structural patterns

Question 3

Name 2 distinct ways of how PAMPs or DAMPs are recognized

Answer 3

Opsonins
Soluable factors that recognize conserved molecular patterns of bacteria, viruses or cells

PRRs
Pathogen recognition receptors on immune cells

Question 4

List 4 important statements that fit to Opsonins / receptors of innate immune system

Answer 4

• only few number with broad specificity
• germ line-encoded, no rearranging
• PRR/Opsonin selection reflects coevolutionary process
• not a single physiological system (diverse mechanisms)

Question 5

Name 4 different types of soluable pattern recognition receptors, their structure + function

Answer 5

Ficolins
fibrinogen-like domain that binds pathogen + collagen-like domain that binds complement system parts

Collectin like Mannan-binding lectin (MBL)
carbohydrate recognition domain + collagen-like domain that binds complement system parts

Pentraxin
long and short forms (e.g. acute phase proteins CRP and Amyloid) that bind ligands (Ca2+ dependent) to activate classical pathway of complement system

Galectins
binding of pathogen via carbohydrate recognition domain for cell-cell or cell-pathogen adhesion or transmebrane signalling

Question 6

Which gene casette controls antifungal immune response in Drosophila and how ?

Is there a similar mechanism in humans (which factors)?

Answer 6

Gene cassette
Spätzle/Toll/Cactus controls the response: Protein Spätzle is being processing after antifungal response, binds to Toll receptor that inhibits antiinflammatory proteins Cactus/Dorsal

similar mechanism in humans

Spätzle: IL-1b
Toll: IL-1 receptor
Cactus/Dorsal: NF-kappaB, I-kappaB

Question 7

Different pathogens and toll like receptors
- gram-
- gram+
- bacteria in general
- fungii
- foreign RNA

Where are toll like receptors expressed?

Answer 7

Gram-
- TLR4: LPS

Gram+
- TLR2: intercats with TLR1 and TLR6 and binds lipids (Lipoproteins)

Bacteria in general
- TLR5: flagellins
- TLR9: bacterial genomic DNA (presense of unmethylated CpG dinucleotides in contrast to methylated CpGs in mammalian genomes)

Fungii
TLR2 and 4: cell wall components like chitin, ß-glycan, mannan

RNA
TLR3: dsRNA
TLR7: ssRNA
TLR8: ssRNA

Expression
on cell surface or within endosomal copartment (TLR3,7,8,9)

Question 8

Explain the importance of cofactors and structural features for TLR using TLR4 as an example

Answer 8

Lipid A portion of LPS bound by TLR4, but cofactor MD2 is important to induce conformational change of TLR4 that results in dimerization of the complex, MyD88 recruitment activates the MyD88 dependent pathways that acivates the NF-kappaB gene for an inflammatory response

Question 9

Which TLRs are present in mice and humans?

Answer 9

Mice
TLR1-9 and TLR11-13

Humans
TLR1-10

Question 10

Why is it helpful that some TLRs also recognize endogenous structures?

Answer 10

TLRs can also be activated by own dying cells, so TLRs recognizes molecules (DAMPs) that are only present during increased apoptosis rates e.g.

Cells release DNA/RNA bound to proteins, also Hsp or extracellular matrix proteins, other degradation products that can be recognized by TLRs

But this could also lead to autoimmunity inflammation

Question 11

Downstream effects of TRL signalling (4)

Answer 11

proinflammatory cytokines
- TNF-a, IL-12, type 1 IFNs
- Chemokines

Antimicrobial effectors
- antimicrobial peptides
- ROS

Control of adaptive immune response
AG presentation

Trophic responses

Question 12

Inhibitors of TLR signalling

Answer 12

Pathway inhibitors
- e.g. Myd88s, SOCS, IRAK-M

Antiinflammatory cytokines
- IL-10
- TGF-ß

Endotoxin tolerance
- preventation of exessive inflammation

TLR localization

Question 13

Which PRRs and how do they trigger phagocytosis?

Answer 13

PRRs can bind different microbial patterns that leads to activation of intracellular domain to actively trigger phagocytosis

Examples
- Scavenger receptor (SR,MARCO)
- Mannan receptor (Dectin-2,Mannose receptor)
- ß-glycan receptor (Dectin-1)
- DEC 205
- Complement receptor (CR3,CR4)
- FC-gamma receptor

Question 14

How do c type lectin receptor acitivate an immune response ?

Answer 14

C-type lectin receptors often have intracellular tyrosine-based signalling motif

After ligand binding this motif can be phosphorylated by tyrosin kinases and then work as binding motif for other adapter proteins like the Spleen tyrosine kinase

Activation of signalling pathways leads to transcription factor activation (e.g. NF-kappaB) to induce inflammatory response

Question 15

Do sialic acid receptors play a role in TLR signalling?

Answer 15

Yes, they can immunoregulate the signalling, but mechanism isnt fully understood, seems that recruitment of phosphatases lead to inhibition of TLR downstream signals

Question 16

Explain the hourglass of innate immunity

Answer 16

Although microbial stimuli are chemically complex and although the innate immune response ultimately involves the activation of thousands of host genes, innate immune signals traverse a channel of low complexity.

Ten Toll-like receptors (TLRs), four TIR (Toll/interleukin-1 receptor homologous region) adaptors and two protein kinases are required for most microbial perception. This circumstance lends itself to effective pharmacotherapeutic intervention by trancription factors NF-kappa B and STAT1 that can activate more than 500 genes

Question 17

What do receptors of the NOD-like receptor family have in common?

What’s the main difference of different NLRs?

Answer 17

• LRR (leucin rich repeat) region for ligand binding
• NOD region for oligomerization and signal transduction
• other domains for signal transducrion like CARD,BIR or Pyrin domain

Some like NLRP3 recognize DAMPs and PAMPs to activate the Inflammasome that processes IL-1ß,IL-18 or leads to pyroptosis (inflammatory cell death to clear infected cells)

Others recognize PAMPs like peptidoglycan to activate downstream singalling pathways for inflammation

Question 18

Give 3 examples of non-TLR PRRs that detect internal danger or viral infection

Answer 18

Following factors detect nucleic acids:

• RIG-I, Mda5 detect viral RNA
• cGAS detects viral and edogenous DNA

Question 19

Adaptive immunity characteristics (3)

Answer 19

• receptor specificities are infinite, can recognize any molecular pattern due to somatic rearrangement
• receptor are colannly distributed on individual lymphocytes
• need to overcome ability to recognize and distinguish between self and infectious non-self