The two principal types of reactions of innate immunity?
Inflammation
accumulation and activation of leukocytes and plasma proteins at sites of infections and injury
-> act together to kill extracellular microbes and eliminate damaged tissue
Antiviral Defense
when virus is induced, killing of infectet cell
Induced by interferon-1 IFN-1
Innate immunity against intracellular viruses mediated by
NK cells
Cytokines type 1 interferons (blocking replication of host cells)
What kind of microbes (classes) is innate immunity recognizing?
Responds to limited microbial molecules (less than in adaptive immunity)
Lipopolysachharide,LPS; phagocytes express receptors for these bacterial endotoxins
Terminal mannose residues (typical for bacteria)
dsRNA+unmethylated CG-rich oligunucleotides (not in mammalian cells)
pathogen associated molecular patterns (PAMPs)
Besides pathogens what is innate immunity also recognizing?
DAMPs
damaged cells release these molecules
Eliminate these cells
E.g.: high mobility group box protein 1 (HMGB1)
Why does innate immune system does not react against normal host cells?
receptors are specific for microbial structures
Some pattern recognition receptors can detect substances present in normals cells like nucleic acids
Regulatory molecules
Earliest Defense mechanism?
Epithelia, providing a physical barrier and antimicrobial molecules and lymphoid cells
What if microbes invades epithelia?
Microbes get detected by resident cells like macrophages, dendritic cells, mast cells
some may release cytokines which initiate inflammation
Another instance of innate immunity?
Complement system (in blood)
plasma proteins that promote destruction of microbes
Where are Toll Like receptors found?
Found both on cell surface and endosomes
membranous: 1,2,4,5,6
Endosomal: 3,7,8,9 (respond only to nucleic acid)
Different TLRs are specific for different components of microbes
TLR-1/2/6: bacterial/parasitic glycolipids and peptidoglycans
TLR 3/7/8: viral RNAs, ss and ds —> herpesvirus encephalitis
TLR-4: endotoxin / viral bacteria LPS
TLR-5: bacteria flagellin
TLR-9: unmethylated CpG DNA
What does the activation of TLRs lead to?
It activates transcription factors
NFkB transcription factors —> promotes expression of cytokines, adhesion molecules, costimulators (expression of genes) —> leads to acute inflammation
Interferone regulatory factors (IRF-3) codes for type 1 interferon —> antiviral cytokine
NOD-like receptors
NOD-1 and NOD-2: specific for peptidoglycans on bacterial cell wall
Both activate NFkB transcription factor
Inflammosome
NLRP-3 receptor, adaptor protein, caspase 1 —> (IL-1b)
Pro IL-1B synthesis induced by PAMPs and DAMPs in nucleus
Active caspase 1 cleaves Pro IL-1B to active form IL-1b
IL-1 causes Inflammation and fever
What is sensed by NLRP-3 inflammosome?
Microbial products, substances that indicate cell damage and death
released ATP, Uris acid crystals, changes in intracellular K+ concentration
Pathogenic signals
Environmentalists signals
All lead to pyroptosis (inflammation induced cell death) —> leads to extra increase in inflammation by loss of plasma cell integrity and release of infammatory cytokines
Also cell swelling
What are diseases associated with inflammosome?
Gout caused by irate crystal deposition —> inflammation caused IL-1B
Atherosclerosis: inflammation caused by cholesterol —> IL-1b
what are RIG-like receptors recognizing?
Viral RNA
—> activates signaling pathways for production of type 1 IFN
Which signal pathway are Cytosolic DNA sensors activating?
STING pathway
type 1 IFN production and autophagy
Mannose, lectin(carbohydrate-recognizing receptor?
Recognizes terminal mannose residues and induces inflammatory response
Cell surface receptor
On phagocytes
recognizes peptides that begin with N-formylmethionine (specific for bacterial protein)
Epithelial barrier of innate immunity
Physical barrier?
Skin-> keratinized
Mucus-> prevent interaction of microbe with epithelia
Barrier immunity
Chemical barrier?
Antimicrobial peptides
defensins
Cathelicidins
Phagocytes types
neutrophils
Monocytes/macrophages
Neutrophils
Polymorphonucleated leukocytes
4000 to 10000 per müLiter
production stimulated by CSF (colonising stimulating factor)
First and most numerous cell type at site of infection
Do not provide prolonged response (only live several hours in the tissues)
Monocytes
500 to 1000 per müliter
inflammatory reactions
Enter extravasvular tissue and differantiate into macrophages
Macrophages
Many receptors
TLR an NLR
Mannose receptors
Functions
produce cytokines
Ingest + destroy microbes
Clear tissue/ initiate tissue repair
Classical macrophage activation induced by?
innate immune signals, from TLRs
Interferon gamma (IFN-y) released by Th1 cells
M1-macrophages —>destroys microbe and triggers inflammation
Alternative macrophage activation
Occurs in absence of strong TLR signals
induced by IL-4, IL-13
M2-macrophages —> tissue repair and terminating inflammation
Mast cells
contain granules, histamine - induces vasodilation and protelitic enzymes for killing microbe/bacteria
Also cytokines and prostaglandins —> inflammation
Responsible for allergic reactions
Natural killer cell
Class of lymphocyte that recognizes infected or stressed cells and responds by killing
secrete IFN-gamma to activate macrophages
Mechanisms of NK cells
Contact with infected cell—> secreting granules—> initiate apoptosis
NK cell activating cytokines
Interleuking 15 (maturing NK cells)
type 1 interferon
Interleukin 12
NK cells+ macrophages act together
macrophage ingest microbe, secrete IL-12 —> IL-12 activates NK cells—> Nk cells excrete IFN-y to activate more macrophages
Activation receptors of NK cells
ITAMs
activating receptors on Nk cells that have subunits in cytoplasmic tail
Downstream pathway leads to production of IFN-y and cytotoxic granules
NKG2D
Recognizes molecules that resemble MHC class 1 proteins
CD16 (FcyRIIIA)
specific for Immunoglobulins
Antibody coated microbes —> ADCC (antibody dependent cellular cytotoxicity)
Inhibitory receptors Of NK cells
Killer cell immunoglobin like receptors (KIR)
CD94 and NKG2 (lectin)
Mechanisms
ligand ->phosphorilates ITiMs -> activates tyrosine phosphatase —> remove phosphate groups from tyrosine residues
Counteracts actions of ITAMs
Complement system
Collection of proteins
3 pathways
Alternative
Classical
Lectin
Main functions
opsonisation +phagocytosis
Cell lysis
Innate immune reactions
Mainly inducing acute inflammation and antiviral Defense
Different microbes elicit different reactions
extracellular bacteria/fungi
Combated with acute inflammatory response (from neutrophils, monocytes and compliment system)
Intracellular bacteria
Eliminated by phagocytes that are activated by binding to TLRs and other receptors and cytokines
Virus
Combated by Type 1 interferon and NK cells
Tissue reaction that delivers mediators of host Defense
recruitment of cells (leukocytes+proteins)
Leakage of plasma proteins trough blood vessels
Engulfment of microbes and dead tissue
Destruction of potentially harmful substances
If microbe breaches epithelium—> enters subepithelial space: DC,macrophages,… recognizes them:
production of cytokines, TNF and IL-1, acts on endothelium of venues -> leukocyte migration
Rolling of leukocytes: in response to TNF and IL-1 endothelium expresses selectins -> E-Selectin
Stimuli (thrombin):rapid translocation of P-Selectin
Selectins attract leukocytes, Neutrophils/monocytes express surface carbohydrates —> bind to selectins
Cells bind to it but get interrupted by blood flow (not really firm adhesion)
Repetitive process
Firm adhesion
Another molecule expressed : integrity
Integrins (LFA-1 and VLA-4)
In infection chemokines (secreted by macrophages and endothelial cells) increase affinity of leukocytes for integrins
—> TNF and IL-1 act ion endothelium to stimulate ligands for integrins including ICAM-1 and VCAM-1
Firm adhesion arrests leukocytes on endothelium — cells spreads out
Leukocyte migration
By chemokines
Result: leukocyte migrate between endothelia cells trough vessel to site of infection
Phagocytosis
Intracellular vesicles destroy microbes
membrane receptors bind to microbe
Extension of plasma membrane around microbe
phagosomes is the particle with its membrane around inside the leukocyte
Phagosomes+lysosome —> phagolysosom
Destruction of microbe by microbicidal substances
oxidative burst
Phagocytes Oxydase converts O2 to superoxide anion and free radicals (reactive oxygen species) —> kills microbe
Inducible nitric oxide synthase (iNOS)
Coverings arginine to NO
Lysosomal proteases
Breaks down microbial proteins
Neutrophils produce and secrete neutrophil extracellular traps (NETs)
hosting networks
Neutrophils die and release their nuclear content
Killing of virus infected cell
IFN 1
Plasmacytoid dendritic cell (major source of interferons)
NK cells (kill cells, induce apoptosis)
Regulation of innate immune response
Prevents excessive tissue damage
production of antiinflammatory cytokines by macrophages (M2) and DC
Interleukin-10 inhibits classical pathway of macrophage activation
IL-1 receptor antagonist block actions of IL-1
TLR signaling stimulates production of SOCS proteins (suppressor of cytokine signaling)
Block action of different cytokines
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