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PDBsum entry 1p53
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Cell adhesion
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PDB id
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1p53
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Structural basis for dimerization of icam-1 on the cell surface.
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Authors
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Y.Yang,
C.D.Jun,
J.H.Liu,
R.Zhang,
A.Joachimiak,
T.A.Springer,
J.H.Wang.
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Ref.
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Mol Cell, 2004,
14,
269-276.
[DOI no: ]
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PubMed id
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Abstract
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We have determined the 3.0 A crystal structure of the three C-terminal domains
3-5 (D3-D5) of ICAM-1. Combined with the previously known N-terminal two-domain
structure (D1D2), a model of an entire ICAM-1 extracellular fragment has been
constructed. This model should represent a general architecture of other ICAM
family members, particularly ICAM-3 and ICAM-5. The observed intimate
dimerization interaction at D4 and a stiff D4-D5 stem-like architecture provide
a good structural explanation for the existence of preformed ICAM-1 cis dimers
on the cell membrane. Together with another dimerization interface at D1, a
band-like one-dimensional linear cluster of ICAM-1 on an antigen-presenting cell
(APC) surface can be envisioned, which might explain the formation of an
immunological synapse between an activated T cell and APC which is critical for
T cell receptor signaling.
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Figure 2.
Figure 2. The Sequence Alignment of ICAM-1 with ICAM-3 and
ICAM-5As shown in the figure, ICAM-1, ICAM-3, and ICAM-5 align
very well. The conserved residues include all cysteines
(yellow), three integrin binding residues (cyan), those involved
in the D4–D4 dimerization interface (residues forming a salt
bridge are in green and hydrophobic contacts are in
yellow-green), and those involved in the D3–D4 bending
interface (magenta). In this figure, each domain's first residue
is manifest with its label, β strands are marked above the
ICAM-1 sequence, and every tenth residue is marked with a dot
above the ICAM-1 sequence. In addition, glycosylation sites are
colored in red, whereas the disordered 16 residues in D4 of the
D3–D5 crystal structure are shaded in gray.
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Figure 3.
Figure 3. The Molecular Structure of the Entire ICAM-1
Ectofragment and the ICAM-1 Dimer(A) This ICAM-1 D1–D5 model
was constructed by linking the known D1D2 structure and the
D3–D5 structure reported here at the pivot residue Val186 as
described in the Experimental Procedures. Assuming that D5
stands vertically on the cell membrane, both the key α[L]β[2]
binding site Glu34 of D1 and the α[M]β[2] binding sites Asp229
and Glu254 of D3 (all shown in ball-and-stick representation)
point upward, available for ligand binding from the opposing
cell above. Note that the Glu34 is on a relatively flat surface,
whereas the Asp229 is on a protruded loop. All seven identified
glycans are shown in ball-and-stick representation (prepared
with RIBBONS [Carson, 1995]).(B) This is the modeled D2–D3
interface. Domains 2 and 3 are colored in silver and cyan,
respectively. Shown here are only the side chains that
contribute to the interface. The broken lines depict a salt link
between Arg150 of D2 and Asp241 of D3. On the other side of the
interface the sugar moiety on D3's Asn269 packs onto the indole
ring of D2's Trp97. At the center, two main chain hydrogen bonds
are formed between the pivot Val186 and Phe216 in D3's BC loop.
Joining them is a group of hydrophobic residues, including the
conserved cis-Pro217, that comprise a cushion (Wang and
Springer, 1998) (prepared with RIBBONS [Carson, 1995]).(C) In
this D3–D5 dimer drawing, one molecule is in cyan and the
other in green, while disulfide bonds are in yellow. Glycans are
drawn in ball-and-stick representation. The two molecules have
their D4s integrated into a “superdomain.” In the inset,
extensive hydrophobic contacts in the D4–D4 interface are
seen, which include Val301, Val303, Leu329, Leu331, and Phe342
from each molecule. There are also two pairs of charged hydrogen
bonds between one molecule's Arg340 and its dyad-mate's Asp337
and vice versa. The view in the inset is flipped 180°
vertically for clarity (prepared with RIBBONS [Carson,
1995]).(D) In this drawing, ICAM-1 D1–D5 molecules form
D4–D4 dimer, and D4–D4 dimers come together through D1–D1
contacts. The W-shaped tetramers can further propagate into a
band-like one-dimensional cluster on the antigen-presenting cell
surface. The αLβ2 I domain (magenta) binds to ICAM-1 D1 at the
opposite face of D1–D1 dimerization. The glycans on ICAM-1 are
in yellow (prepared with RIBBONS [Carson, 1995]).
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The above figures are
reprinted
by permission from Cell Press:
Mol Cell
(2004,
14,
269-276)
copyright 2004.
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