Post on 13-Jan-2016
description
Protein Protein Interactions:The Inflammasome
Mark D. Wewers, M.D.
Davis Heart and Lung Research Institute
Outline of Presentation
• Innate vs. Adaptive Immunity
• Focus on TLR and NLRs
• Pyrogens (endogenous and exogenous)
• Intracellular sensors/inflammasomes– Example of intracellular pathogen– Example of population differences in
pathogen responses (caspase-12)
Time Line for Innate vs. Adaptive Immunity
Cooper MD and Alder MN. Cell 124:815, 2006.
INFECTION
IL-1/TNFFever/Inflammation
• ARDS
• Multiple Organ Failure
Shock and Poor Tissue Perfusion May Lead to Distal Gangrene
25% of population died
Black Death
Hippocrates
5th century B.C.
Illness due to natural causes
Guns Germs and Steel Hypothesis
Jared Diamond
Lewis Thomas: The Lives of a Cell 1974
“Our arsenals for fighting off bacteria are so powerful andinvolve so many different defense mechanisms that we are more indanger from them than from the invaders.
We live in the midst of explosive devices, we are mined….When we sense lipopolysaccharide, we are likely to turn on everydefense at our disposal…”
Meningococcemia
Components of lipopolysaccharide
bacterial membrane
core polysaccharide
“O” antigen
lipid A
How can our defense repertoire cover the enormous diversity in pathogen
challenges?• Innate host response:
– Static defense system– Focus on immutable components of pathogens (e.g.,
cell wall component)
• Acquired host response:– Creative ability to change with pathogen– Depends upon the acquisition of recombinase gene
(RAG)
Innate Pathogen Sensors
NLR
TLR
Extracellular sensors
Intracellular sensors
TIRNB
LRRLRR
Family of TLR’s and Ligands
Beutler et al.
Akira et al. Nature Reviews (Immunology):4:499, 2004.
TLRs and their ligands
Medzhitov R. NEJM 343:338,2000.
The Signaling Pathway of Toll-like Receptors
Exogenous pyrogen induces endogenous pyrogen.
exogenous endogenous
Both Endogenous and Exogenous Pyrogens converge at NFkB
Figure 2-10Innate versus Adaptive Immunity Characteristics
Medzhitov R. NEJM 343:338,2000.
Bridge to Adaptive Immunity
News from the Genome Project that has expanded our understanding of the innate host response repertoire.
Plant Immunity: Pathogen sensing without Tolls
Dangl JL, Jones JDG. Nature 411:826, 2001.
NATURE | VOL 411 | 14 JUNE 2001
Guard Hypothesis
Dangl, J. et al.
NB-LRR protein dissociates due to pathogen
NB-LRR protein binds target complex due to pathogen binding to complex
Exogenous pyrogen induces endogenous pyrogen.
CN p20 p10
QACRG
p20p10
p20
p20
p10
p10
p45
CARD
Active ICE
Caspase-1 (ICE)
Caspase Recruitment Domains:
CARDs
CATERPILLER: A Large Family of Mammalian Genes Containing CARD, Pyrin, Nucleotide-binding, and Leucine-Rich Repeat Domains
Harton JA et al. J. Immunol. 169:4088, 2002.
CARD/PYD NBDLRR
10kD 20kD
caspase-1
caspase-5
ASC
NALP1NBD LRRpyrin CARD
CARD
20kD 10kD
Inflammasome Concept
Martinon, F et al. Mol.Cell 10:417-426, 2002.
Domain structure of CATERPILLERs
Toll like receptors and the Signalosome
signalosome
gene expression
proteasome
NFBNFBIB
IKK complex
TLR
*
NFBNFB
100’ s of genesincluding IL-1 and TNF
Cell Death and Differentiation (2006) 13, 816–825
Toll-like receptors
Rast,J.P. et al. Science 314:952, 2006.
Sea Urchin’s Pathogen Sensors
CARD NBDLRR
CARD NBDLRRCARD
NBDLRRpyrin
CARD NBDLRR
pyrin CARD
NBDLRRpyrin CARD
ASC
NALP1
IPAF
NOD1
NOD2
NALP3
IL-1
proIL-1
Caspase-5
NALP-1
NOD-2
TLR
ASC
CARD domain
pyrin domain
inflammasome
CASPASE-1
Martinon, F et al. Mol.Cell 10:417-426, 2002.
Multiprotein Complex Assembly requires ASC
• ASC (apoptosis associated speck forming complex) ASC
Sarkar A et al. J.Immunol. 176:4979, 2006.
ASC Critical to IL-1 Processing
ASC
Need for Intracellular Pathogen Sensors
• Phagosome escape
A B
DC
Francisella as Model of Inflammasome Activation
Gavrilin MA, PNAS 103:141, 2006.
F. novicida
E. coli
F. n. heat-killed
F. n. + cytochalasin D
-1-1
-1-1
-1-1
-1-1
-1-1
-1-1
-1-1
-1
-1-1
-1 -1-1-1-1
-1-1-1-1
-1-1
-1-1-1-1
-1-1
Phagosome Escape Induces Inflammasome Assembly
IL-1
proIL-1
phagosome
F.novicida
Mo LVS F.nov E.coli LVS F.nov E.coli LVS F.nov E.coli
live killed endotoxin
31 kDa
17 kDa
A. IL-1 mRNA B. IL-1 in media C. IL-1 in cell extract
0
1000
2000
3000
4000
Un
stim
ula
ted
LV
S
F.n
ov
E.c
oli
LV
S
F.n
ov
E.c
oli
LV
S
F.n
ov
E.c
oli
RC
N
live killed endotoxin
0
20
40
60
80
100
Uns
timul
ated
LVS
F.n
ov
E.c
oli
LVS
F.n
ov
E.c
oli
LVS
F.n
ov
E.c
oli
ng
/ml
live killed endotoxin
D. IL-8 mRNA E. IL-8 in media F. Protein/RNA Ratio
F. novicida induces both mRNA and processing and release of IL-1
Gavrilin MA, PNAS 103:141, 2006.
Toll like receptors and the Signalosome
gene expression
proteasome
NFBNFBIB
IKK complex
TLR
*
NFBNFB
100’s of genesincluding IL-1 and TNF
signalosome
proIL-1
IL-1
proIL-1
Caspase-5
NALP-1
TLR
ASC
CARD domain
pyrin domain
inflammasome
CASPASE-1
1
2
Molecular Cell 25, 713–724, March 9, 2007
Inflammasome structure
What about Septic Shock?
Figure 2-45 part 1 of 3
IL-1
proIL-1
CASPASE-1
Caspase-5
NALP-1
NOD-2
TLR
ASC
Caspase 1 and Sepsis
Caspase-1: Role in Sepsis Survival and Spleen Apoptosis
Sarkar A et al. AJRCCM 2006
IL-1
proIL-1
CASPASE-1
Caspase-5
NALP-1
NOD-2
TLR
ASC
Caspase-12
Caspase 12 and Sepsis
Saleh M. Nature 429:75, 2004.
Caspase-12 Comes in Two Forms
Caspase-12L (active) versus Caspase-12S (inactive) Allelic
DistributionThe American Journal of Human Genetics Volume 78 April 2006
Source Total (n)
Genotype Frequency (%) Allele Frequency (%)
T/T T/C C/C T C
Sepsis 38 60.5 29 10.5 75 25
Control 148 81.1 17.6 1.3 89.9 10.1
Caspase-12L Linked to Sepsis
Saleh M. Nature 429:75, 2004.
Caspase-1, 12
NLRP3, NLRP1 and Caspase-1 and 12
NLRP3
NLRP1
Summary
• Innate immune responses are critical to our host defense against pathogens.
• Innate mechanisms are probably more critical than previously recognized.
• Protein/protein interactions that are modified by pathogens (or their products) are central to pathogen sensing and signaling.