Difference between revisions of "Recognition of Microorganisms"

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[[Image:PRRs.jpg|thumb|right|150px|Pattern Recognition Receptors - B. Catchpole, RVC 2008]]
 
[[Image:PRRs.jpg|thumb|right|150px|Pattern Recognition Receptors - B. Catchpole, RVC 2008]]
 
The innate immune system recognises components of pathogens which are intrinsically foreign (i.e. not present on normal mammalian cells), such as:
 
The innate immune system recognises components of pathogens which are intrinsically foreign (i.e. not present on normal mammalian cells), such as:
**Lipopolysaccharides of gram-negative bacteria
+
*Lipopolysaccharides of gram-negative bacteria
**Peptidoglycans of gram-positive bacteria
+
*Peptidoglycans of gram-positive bacteria
**Mannose sugars
+
*Mannose sugars
**D-isoform amino acids
+
*D-isoform amino acids
These are known to the body as foreign as they are expressed as '''pathogen-associated molecular patterns''' (PAMPs)
+
<br />
* PAMPs are recognised by '''pattern recognition receptors''' (PRRs) expressed on mammalian cells
+
<br />
** Pattern recognition receptors are expressed on many different cell types, not just on phagocytes
+
These are known to the body as foreign as they are expressed as '''pathogen-associated molecular patterns''' (PAMPs) which are recognised by '''pattern recognition receptors''' (PRRs) expressed on mammalian cells. These receptors are expressed on many different cell types, not just on phagocytes, though not all are expressed by all cells: different cell types express a different range of PRRs. PRRs are either intracellular, membrane-associated or soluble:
** Not all are expressed by all cells: different cell types express a different range of PRRs
+
*Recognition of pathogens via the cellular PRRs results in phagocytosis and inflammation
** PRRs are either intracellular, membrane-associated or soluble:
+
*Recognition of pathogens via the humoral PRRs results in various killing mechanisms
*** Recognition of pathogens via the cellular PRRs results in phagocytosis and inflammation
+
==Actions==
*** Recognition of pathogens via the humoral PRRs results in various killing mechanisms
+
The engagement of PRRs by PAMPs triggers:
* Engagement of PRRs by PAMPs triggers:
+
* '''[[Phagocytosis|Phagocytosis]]'''
** '''Phagocytosis'''
+
* The expression of '''cytokines''', which brings about [[:Category:Inflammation|inflammation]] and other immune responses
** The expression of '''cytokines''', which brings about [[:Category:Inflammation|inflammation]] and other immune responses
 
  
  

Revision as of 11:28, 10 May 2012

Pattern Recognition Receptors - B. Catchpole, RVC 2008

The innate immune system recognises components of pathogens which are intrinsically foreign (i.e. not present on normal mammalian cells), such as:

  • Lipopolysaccharides of gram-negative bacteria
  • Peptidoglycans of gram-positive bacteria
  • Mannose sugars
  • D-isoform amino acids



These are known to the body as foreign as they are expressed as pathogen-associated molecular patterns (PAMPs) which are recognised by pattern recognition receptors (PRRs) expressed on mammalian cells. These receptors are expressed on many different cell types, not just on phagocytes, though not all are expressed by all cells: different cell types express a different range of PRRs. PRRs are either intracellular, membrane-associated or soluble:

  • Recognition of pathogens via the cellular PRRs results in phagocytosis and inflammation
  • Recognition of pathogens via the humoral PRRs results in various killing mechanisms

Actions

The engagement of PRRs by PAMPs triggers:


Examples of Pattern Recognition Receptors
Receptor Location Ligands
TLR2 (Toll-like receptor) Cell Membrane Peptidoglycan of gram +ve bacteria
TLR3 Cell Membrane dsRNA of RNA viruses (e.g. avian influenza)
TLR4 Cell Membrane Lipoplysaccharide from gram-negative bacteria (e.g. E. coli, Salmonella)
TLR5 Cell Membrane Bacterial flagellin
TLR9 Cell Membrane Bacterial DNA (CpG DNA)
C-type lectins Soluble Carbohydrates, all bacteria, dead cells
fMLP Soluble Formyl peptides (i.e. all bacteria)
Complement receptors Soluble Fixed complement components (e.g. iC3b)
NOD2 Cytoplasm Peptidoglycan of gram +ve bacteria
dsRNA-dependent Protein Kinase Receptor Cytoplasm ds RNA of RNA viruses



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