Post on 12-Jan-2016
Poliovirus Genome Organization
Genomic RNA
VPg IRES 3'-UT
743 7370 7440
AAA
PolyproteinP1 P2 P3
1B1A
3AB 3C 3D2C2B2A1D1AB 1C
VP4 VP2 VP3 VP1
Capsid Proteins Replication Proteins
Polymerase
Protease
Virus entry: The final stages of the morphogenic pathwayor "How does a simple nonenveloped virus enter a cell"
160SNative
135SPVR altered
80SEmpty
Infection160S Particle
+ PVRRNA release in cytoplasm
Attachment (Docking)
?
Inf+ PVR–
“EnvironmentallyStable”
“EnvironmentallyUnstable”
135S Particle
Entry Active
Particle
160S Particle
+ PVR
Heat
Ea=~120-140 kcals
“Energy”~100 kcals
(Soluble PVR)
“Docking”
HighAffinityBinding
(Kinetically Trapped)
160S 135S
Structural Differences
Fricks et al 1990 JVBubeck et al 2005 JV
RNA Release
VP4 Mutants
4028T.G
4028T.V
4028T.S
15-20 min
80SParticle
“Environmentally
Stable”
“Environmentally
Unstable”
Membrane insertion
135S Particle
160S
Particle
Entry
Active
Particle
“Docking”
“Energy”
+ PVR X?
Mutant VP4 localize to membranes
Western
VP4
min pi 0 30T.GWT
0 30
VP3VP2VP1
0 30WT
0 30T.S
300T.V
VP3VP2VP1
VP4
Poliovirus 160S particles form ion channels in lipid bilayers
Current Distribution @ 40mV
Current (pA)
Voltage Dependence
Voltage (mV)
Channel Parameters1. Conductances2. Mean open time and
probability3. Voltage dependence
(gating, +vs–)4. Current ion
VP4 entry mutants form ion channels with different properties
T.G
WT
T.S
T.V
--
0.2
0.02
ND
Cond.(pS)
--
47
28±10
15
Mempoten.
--
+
+/-
+/-
--
15-18 m
15-18 m
25-30 m
PoT1/2-135S
4028T.S
200ms 2 p
A
Control
4028T.G
200ms 1p
A
4028T.V
2s 1 pA
+40mV
+40mV
RNA Release
VP4
mutants
“Environmentally
Stable”
“Environmentally
Unstable”
15-20 min
Ion Channel/RNA delivery
80SParticle
?Membrane insertion
135S Particle
160S
Particle
Entry
Active
Particle
“Docking”
“Energy”
+ PVR
X
Functional reconstitution of purified PVR/gpi onto cells
M PVR M PVR
Silver Western
Mock Tf
PVR/gpi
Phase GFP+
Functional Reconstitution of PVR in lipid bilayers
WT21°C
21°C
4028T.G 21°C
21°C
31°C
+Virus
PVR-GPI
1s5
pA
+Virus
PVR-GPI
+Virus
500ms
2 p
A
21°C
31°C
21°C
Temperature Dependent Conformational Change of PVR - Virus Channel in Lipid Bilayers
~120-140
~90-100
~60
+PVR (sol)
Heat
+Membrane
Ea (kcals/mole)160S - 135S
asolecitin/hPVR
Lipid/PVR
asolecitin/PVRgpi
PE:PS/PVRgpi
Single Channel Conductance (pS)
65±15 ~460
360±56
~7
8
6
Temperature (°C)
45±7
1450±350264±5
3121Voltage -Gated
No
No
No
Q10
160S
PVR
Channel model of poliovirus entry
160S
PVR
135S
delivery of viral RNA genome into
cell cytoplasm
Bubeck et al (2005) Nat Struct. Mol.Biol. 12:615-618
QuickTime™ and aDV/DVCPRO - NTSC decompressor
are needed to see this picture.
Future Directions
1. Define the architecture and structure of the channel
2. Corelate channel behavior in bilayers with mutant entry phenotypes
3. Direct in vivo measurements during infection process
+PVR ?
Functional Transitions of Poliovirus
Storageand Protection
(160S)
Delivery(135S)
Empty (80S)
Mutant Analyses
Pranav Danthi
Xiaojing Ning
Qi-Han Li
Nicola Moscufo
Receptor
Yan Huang
Hong Wang
Anatoli Naumov
Electrophysiology
Magdalena Tosteson (Harvard)
Khaled Machaca (UAMS)
Structure
Jim Hogle
Dave Filman
Doryen Bubeck
Mihnea Bostina
his collaborators:
A. Stevens (NIH)
R. McIntosh (UC Boulder)
V 10 20 300 45Medium
VP4
-VP4
MembraneV 10 20 300 45min pi
VP3
VP2VP1
Autorad
QuickTime™ and aGraphics decompressorare needed to see this picture.
◆◆◆◆◆
◆
●●●●●
●
▲▲▲▲▲▲
media
membrane
cytoplasm
100
80
60
40
0
20
0 20 30 40 50 6010
Time Post-Infection (min.)
% T
ota
l C
PM
VP4 is inserted into microsomal membranes