1. Receptor-receptor interaction:
A critical mechanism for the regulation of neurotransmitter receptor function
Fang Liu MD, PhD
Centre for Addiction and Mental Health
University of Toronto

2. Neurotransmitter Receptors:
Ionotropic: ligand-gated ion channels
Open ion channels—4-5 subunits
Fast neuro-transmission
e.g. for NMDA, AMPA and GABA-A receptors
Metabotropic: G-protein coupled receptors
Activate G proteins
7 transmembrane domains
Couple to many effectors: e.g. adenylyl cyclase
Slow neuro-transmission -
e.g. for dopamine receptors

3. Regulation of neurotransmitter receptors function
PKA, PKC, PTK…
Direct protein-protein interaction
The classic pathway:
phosphorylation—PKA, PKC…

4. GAPDH and GluR2 interaction are essential in AMPA receptor-mediated excitotoxicity

5. * Fast synaptic transmission * neurotoxicity
The AMPA Receptor
NMDAr
* Fast synaptic transmission
* neurotoxicity
NMDAr
mGlur
AMPAr
Na2+
Ca2+
PLC
DAG
Ca2+
nNOS NO
IP3
CaM
Mito
ONOO-
Calcineurin
O2-
GluR1/2 in hippocampus
H2O2
NFκB
IκB

6. GluR2 Subunit * Impermeable to Ca2+
III IV II
NH2
COOH
NSF, PICK1, GRIP1/2…
NARP, N-cadherin
* Impermeable to Ca2+
* Interact with intracellular/extracellular proteins

7. X Affinity purification: Use specific region of one protein to
“pull down” another protein from
a pool of proteins X
GST
GST
GST
GST ? ? ? ?

8. (glyceraldehyde-3-phosphate dehydrogenase)
GluR2-NT interacts with GAPDH
37.1
GluR1NT
GST
GluR2NT
GAPDH
(glyceraldehyde-3-phosphate dehydrogenase)
1 MVKVGVNGFG RIGRLVTRAA FSCDKVDIVA INDPFIDLNY MVYMFQYDST
51 HGKFNGTVKA ENGKLVINGK PITIFQERDP VKIKWGDAGA EYVVESTGVF
101 TTMEKAGAHL KGGAKRVIIS APSADAPMFV MGVNHEKYDN SLKIVSNASC
151 TTNCLAPLAK VIHDNFGIVE GLMTTVHAIT ATQKTVDGPS GKLWRDGRGA
201 AQNIIPASTG AAKAVGKVIP ELNGKLTGMA FRVPTPNVSV VDLTCRLEKP
251 AKYDDIKKVV KQAAEGPLKG ILGYTEDQVV SCDFNSNSHS STFDAGAGIA
301 LNDNIVKLIS WYDNEYGYSN RVVDLMAYMA SKE
GluR1NT
GST
GluR2NT
GAPDH
GST-GluR2NT
GST
GST-GluR2CT
GAPDH

9. TRANSLATIONAL REGULATION
GAPDH Function:
NITRIC OXIDE
ENDOCYTOSIS
APOPTOSIS
PHOSPHOTRANFERSE
NEURONAL DISORDERS
MICROTUBULE BUNDLING
GAPDH
VIRAL PATHOGENESIS
DNA REPLICATION
NUCLEAR RNA EXPORT
DNA REPAIR
PROSTATED CANCER
TRANSLATIONAL REGULATION

10. GluR2-NT1-3-2 interacts with GAPDH
III IV II
NH2
COOH
GAPDH
GAPDH
GST
GluR2NT1
GST
GST
GluR2NT3
GluR2NT2
GluR2NT1-1
GluR2NT1-2
GluR2NT1-3
GluR2NT1-4
GluR2NT1-5
GluR2NT1-3-1
GluR2NT1-3-2

11. Co-immunoprecipitationD2 ?

12. Agonist promotes GAPDH-GluR2 complex formation
HEK293T Cells
Hippocampal Neurons IP
IP:GluR2
IP:GluR2
Extract
GluR2
IgG
GAPDH
GAPDH
GAPDH
GluR2
GluR2
CTRL KA
Control
Glutamate
GluR2NT1-3-2
+Glutamate
GluR2NT1-3-2
+KA

13. Extracellular GAPDH-GluR2 complex formationCM
IP: GAPDH
AMPAR+Glut
Fresh Media
Fresh Media
IP: GluR2
AMPAR
lysates
Extracts CM NT
IgG NB B
IgG
GAPDH
Tubulin
GAPDH
GAPDH

14. GluR2-GAPDH coupling in AMPA receptor-mediated toxicity
120
120
100
100 80 80
***
*** 60
Fraction Dead 60
(Percent Glutamate)
Fraction Dead
(Percent +KA) 40 40 20 20 KA
Glutamate
GluR2NT1-3-2
+Glutamate
GluR2NT1-3-2
GluR2NT1-3-2
+KA
Cells
Neurons

15. GAPDH-GluR2 complex co-internalization
120
GluR1/2
GluR1/2
120 #
120
120
GluR1/3
100
100 *
100
100 * 80 80 80 80
Cell Surface GluR2
(Percent Control) 60 60
Cell Surface GAPDH
(Percent Control) 60
Cell Surface GAPDH
(Percent Control) 60
Cell Surface GAPDH
(Percent Control) 40 40 40 40 20 20 20 20
Control
Control
Control
Glutamate
Control
Glutamate
Glutamate
GluR2NT1-3-2
+Glutamate
Glutamate

16. GluR2 and GAPDH Nuclear Translocation
Biotinlylated GluR2
GluR2
Biotinlylated GAPDH
GAPDH
GAPDH
LaminB1 KA
Control
LaminB1
GluR2NT1-3-2
+KA KA
Control
Glutamate
Control
Siah1 siRNA
+Glutamate
GluR2NT1-3-2
+KA

17. GluR2/GAPDH Nuclear Translocation depends on GluR2-Siah1 interaction
Anti-Siah1
Anti-Siah1
GluR2CT
GluR2NT
GST
Extract
GluR2CT-1
GluR2CT-2
GluR2CT-4
GST
GAPDH
Extract
GluR2CT-3
GluR2
GAPDH
LaminB1
Control
GluR2CT-4
+Glutamate
Glutamate

18. P53 and GAPDH form complex in nucleus
IP: p53
WB: anti-p53
IgG
GAPDH
GST
Glutamate: - + + -
GST-GluR2NT
GST-GAPDH - - + -
GluR2NT1-3-2:
GST-GluR2NT
GST
GAPDH
0.05
0.5 5 -
p53-GST (μg): - - - -
GST (ug):
0.5

19. p53-GAPDH coupling in AMPA receptor-mediated toxicity
GluR1/2
GluR1/3
120
125
120
100
100
100 80 80 75 * ** 60 60
Fraction Dead
Fraction Dead
(Percent Control) 50
Fraction Dead
(Percent Control) 40
(Percent Control) 40 25 20 20
PFT-a: - -
Glutamate: + +
PFT-a:
10µM
10µM
GAPDH2-2-1: - + - +

20. P53 and GAPDH coupling enhances p53 expression and phosphorylation
anti-p53
GST
GST
GST
GST-GAPDH1
GST-GAPDH2
GST-GAPDH2-2
GST-GAPDH2-1
GST-GAPDH2-2-1
GST-GAPDH2-2-2
GluR1/2
+GAPDH2-2-1
IP:GAPDH
IgG
GluR1/2
p53
p53
GAPDH
pSer46
CTRL
GAPDH2-2-1
Control
Glutamate
Control
Glutamate

21. Disruption of GAPDH-GluR2 interaction prevents/rescues
neuronal death from ischemia in rat hippocampalCA1 region
after transient cerebral ischemia
120 B C F SO
100 SP SR 80
### A
Area of Interest
HPC ## D G
Neuronal Survival 60
(Percentage of Sham)
CA1 40 DG
CA3
*** E H 20
Sham
Ischemia
Post-Peptide
Pre-peptide
Post-Scramble
Pre-Scramble

22. Enhanced GAPDH-GluR2/GAPDH-p53 interaction in ischemia
Sham
Pep (post)
Ischemia
IP:GluR2
IgG
GAPDH
GluR2
IP:p53
IgG
Sham
Pep (post)
Ischemia
p53
GAPDH

23. Protective effect of GluR2NT1-3-2 in ischemia
120
120
Ischemia
Ischemia
100
Peptide (Post)
100
Peptide (Post) 80 80
Neuronal Survival
(Percent Sham)
Neuronal Survival
(Percent Sham) ## 60 # # 60 # 40 40
***
*** 20
*** 20
Sham
5 days
10 days
Sham
Ischemia
2 hours
6 hours

24. Disruption of GAPDH-GluR2 interaction prevents/rescues
neuronal death from focal ischemia (MCAo)
600
Ischemia
Scram
Pep(Pre)
Pep(post) 2
400
Infarct Area (mm )
200 1 2 3 4 5 6 7 8
Stereotactic Coordinates(mm)
2hrs after MCAO
24hrs after MCAO 12 10 8 *
Neurological Scores 6 4 * 2
Ischemia
Pep(Pre)
Pep(post)
Pep(Pre)
Pep(post)
Ischemia
Scram(post)

25. Protective effect of GluR2NT1-3-3 in focal ischemia (MCAo)
250
Peptide (post)
Peptide (Post)
300
200
250
150 *
200 *
infarct volume (mm3)
150
Infarct volume (mm3)
100 **
100
***
*** 50 50
3 days
5 days 3
0.3
0.03
0.001
Peptide dose (nmol/g)

26. Summary Siah1 Nucleus I III IV II NH2 COOH GAPDH Extracellular
Intracellular I
III IV II
NH2
COOH
GAPDH
Extracellular
Intracellular
AMPA activation
Siah1
Nucleus
P53
GAPDH p
GluR2

27. Ultimate goal:
Clinical Application
PEPTIDE

28. Acknowledgement Dr. Shupeng Li Ms Ming Wang Dr. Yu-tian Wang
Dr. Lin Pei Dr. Stephen Ferguson
Dr. DongXu Zhai
Dr. Sheng Chen
CAMH
CIHR pop grant
BioDiscovery
MaRS