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PDBsum entry 2pr9
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* Residue conservation analysis
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PDB id:
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Endocytosis
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Title:
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Mu2 adaptin subunit (ap50) of ap2 adaptor (second domain), complexed with gabaa receptor-gamma2 subunit-derived internalization peptide deeygyecl
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Structure:
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Ap-2 complex subunit mu-1. Chain: a. Fragment: second domain (residues 158-435). Engineered: yes. Gaba(a) receptor subunit gamma-2 peptide. Chain: p. Engineered: yes
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Source:
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Rattus norvegicus. Norway rat. Organism_taxid: 10116. Gene: ap2m1. Expressed in: escherichia coli bl21(de3). Expression_system_taxid: 469008. Synthetic: yes. Other_details: the peptide was chemically synthesized. This sequence occurs naturally in mouse and rat.
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Resolution:
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2.51Å
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R-factor:
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0.204
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R-free:
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0.240
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Authors:
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A.Vahedi-Faridi,V.Haucke,J.T.Kittler,V.Kukhtina,S.J.Moss,W.Saenger, G.-J.Chen,V.Tretter,K.Smith,Z.Yan,K.Mcainsh,L.Arancibia-Carcamo
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Key ref:
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J.T.Kittler
et al.
(2008).
Regulation of synaptic inhibition by phospho-dependent binding of the AP2 complex to a YECL motif in the GABAA receptor gamma2 subunit.
Proc Natl Acad Sci U S A,
105,
3616-3621.
PubMed id:
DOI:
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Date:
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04-May-07
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Release date:
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18-Mar-08
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PROCHECK
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Headers
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References
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P84092
(AP2M1_RAT) -
AP-2 complex subunit mu from Rattus norvegicus
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Seq:
Struc:
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435 a.a.
254 a.a.
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Key: |
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PfamA domain |
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Secondary structure |
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CATH domain |
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DOI no:
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Proc Natl Acad Sci U S A
105:3616-3621
(2008)
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PubMed id:
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Regulation of synaptic inhibition by phospho-dependent binding of the AP2 complex to a YECL motif in the GABAA receptor gamma2 subunit.
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J.T.Kittler,
G.Chen,
V.Kukhtina,
A.Vahedi-Faridi,
Z.Gu,
V.Tretter,
K.R.Smith,
K.McAinsh,
I.L.Arancibia-Carcamo,
W.Saenger,
V.Haucke,
Z.Yan,
S.J.Moss.
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ABSTRACT
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The regulation of the number of gamma2-subunit-containing GABA(A) receptors
(GABA(A)Rs) present at synapses is critical for correct synaptic inhibition and
animal behavior. This regulation occurs, in part, by the controlled removal of
receptors from the membrane in clathrin-coated vesicles, but it remains unclear
how clathrin recruitment to surface gamma2-subunit-containing GABA(A)Rs is
regulated. Here, we identify a gamma2-subunit-specific Yxxvarphi-type-binding
motif for the clathrin adaptor protein, AP2, which is located within a site for
gamma2-subunit tyrosine phosphorylation. Blocking GABA(A)R-AP2 interactions via
this motif increases synaptic responses within minutes. Crystallographic and
biochemical studies reveal that phosphorylation of the Yxxvarphi motif inhibits
AP2 binding, leading to increased surface receptor number. In addition, the
crystal structure provides an explanation for the high affinity of this motif
for AP2 and suggests that gamma2-subunit-containing heteromeric GABA(A)Rs may be
internalized as dimers or multimers. These data define a mechanism for tyrosine
kinase regulation of GABA(A)R surface levels and synaptic inhibition.
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Selected figure(s)
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Figure 3.
Crystal structure of the GABA[A]R γ2-subunit YECL-pep
complexed with μ2–AP2 (157–435). (A) Ribbon diagram showing
the binding site within the signal-binding domain of μ2–AP2
complexed with a peptide corresponding to GABA[A]R γ2-subunit
residues 362–371 (gold). (B) Surface representation of the γ2
peptide-binding interface with μ2–AP2, including an overlay
with the endocytic motif of EGFR (turquoise) to compare binding
of the two motifs.
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Figure 4.
Structure of the crystallographic dimer complexed with
YECL-pep. (A) Structure of the crystallographic dimer showing
the elongated banana-shaped binding pocket of a single
YGYECL-pep on the μ2–AP2 dimer surface with the second
peptide shown in surface representation. (B) Close-up view to
show direct molecular interactions between the γ2-subunit
YECL-pep and the other monomer in the crystallographic dimer.
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Figures were
selected
by an automated process.
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Literature references that cite this PDB file's key reference
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PubMed id
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Reference
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A.M.Thomson,
and
J.N.Jovanovic
(2010).
Mechanisms underlying synapse-specific clustering of GABA(A) receptors.
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Eur J Neurosci,
31,
2193-2203.
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J.Muir,
I.L.Arancibia-Carcamo,
A.F.MacAskill,
K.R.Smith,
L.D.Griffin,
and
J.T.Kittler
(2010).
NMDA receptors regulate GABAA receptor lateral mobility and clustering at inhibitory synapses through serine 327 on the γ2 subunit.
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Proc Natl Acad Sci U S A,
107,
16679-16684.
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K.R.Smith,
and
J.T.Kittler
(2010).
The cell biology of synaptic inhibition in health and disease.
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Curr Opin Neurobiol,
20,
550-556.
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M.Fujii,
T.Kanematsu,
H.Ishibashi,
K.Fukami,
T.Takenawa,
K.I.Nakayama,
S.J.Moss,
J.Nabekura,
and
M.Hirata
(2010).
Phospholipase C-related but catalytically inactive protein is required for insulin-induced cell surface expression of gamma-aminobutyric acid type A receptors.
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J Biol Chem,
285,
4837-4846.
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N.Kahlfeldt,
A.Vahedi-Faridi,
S.J.Koo,
J.G.Schäfer,
G.Krainer,
S.Keller,
W.Saenger,
M.Krauss,
and
V.Haucke
(2010).
Molecular basis for association of PIPKI gamma-p90 with clathrin adaptor AP-2.
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J Biol Chem,
285,
2734-2749.
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PDB codes:
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R.Jurd,
and
S.J.Moss
(2010).
Impaired GABA(A) receptor endocytosis and its correlation to spatial memory deficits.
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Commun Integr Biol,
3,
176-178.
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R.L.Rich,
and
D.G.Myszka
(2010).
Grading the commercial optical biosensor literature-Class of 2008: 'The Mighty Binders'.
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J Mol Recognit,
23,
1.
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I.L.Arancibia-Cárcamo,
E.Y.Yuen,
J.Muir,
M.J.Lumb,
G.Michels,
R.S.Saliba,
T.G.Smart,
Z.Yan,
J.T.Kittler,
and
S.J.Moss
(2009).
Ubiquitin-dependent lysosomal targeting of GABA(A) receptors regulates neuronal inhibition.
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Proc Natl Acad Sci U S A,
106,
17552-17557.
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L.M.Traub
(2009).
Tickets to ride: selecting cargo for clathrin-regulated internalization.
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Nat Rev Mol Cell Biol,
10,
583-596.
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M.Vithlani,
and
S.J.Moss
(2009).
The role of GABAAR phosphorylation in the construction of inhibitory synapses and the efficacy of neuronal inhibition.
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Biochem Soc Trans,
37,
1355-1358.
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P.Li,
U.Rudolph,
and
M.M.Huntsman
(2009).
Long-term sensory deprivation selectively rearranges functional inhibitory circuits in mouse barrel cortex.
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Proc Natl Acad Sci U S A,
106,
12156-12161.
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S.Kumar,
P.Porcu,
D.F.Werner,
D.B.Matthews,
J.L.Diaz-Granados,
R.S.Helfand,
and
A.L.Morrow
(2009).
The role of GABA(A) receptors in the acute and chronic effects of ethanol: a decade of progress.
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Psychopharmacology (Berl),
205,
529-564.
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V.Tretter,
R.Revilla-Sanchez,
C.Houston,
M.Terunuma,
R.Havekes,
C.Florian,
R.Jurd,
M.Vithlani,
G.Michels,
A.Couve,
W.Sieghart,
N.Brandon,
T.Abel,
T.G.Smart,
and
S.J.Moss
(2009).
Deficits in spatial memory correlate with modified {gamma}-aminobutyric acid type A receptor tyrosine phosphorylation in the hippocampus.
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Proc Natl Acad Sci U S A,
106,
20039-20044.
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T.C.Jacob,
S.J.Moss,
and
R.Jurd
(2008).
GABA(A) receptor trafficking and its role in the dynamic modulation of neuronal inhibition.
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Nat Rev Neurosci,
9,
331-343.
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V.Tretter,
and
S.J.Moss
(2008).
GABA(A) Receptor Dynamics and Constructing GABAergic Synapses.
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Front Mol Neurosci,
1,
7.
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The most recent references are shown first.
Citation data come partly from CiteXplore and partly
from an automated harvesting procedure. Note that this is likely to be
only a partial list as not all journals are covered by
either method. However, we are continually building up the citation data
so more and more references will be included with time.
Where a reference describes a PDB structure, the PDB
codes are
shown on the right.
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Links
