[PDF][PDF] Structure of natural killer cell receptor KLRG1 bound to E-cadherin reveals basis for MHC-independent missing self recognition
Immunity, 2009•cell.com
The cytolytic activity of natural killer (NK) cells is regulated by inhibitory receptors that detect
the absence of self molecules on target cells. Structural studies of missing self recognition
have focused on NK receptors that bind MHC. However, NK cells also possess inhibitory
receptors specific for non-MHC ligands, notably cadherins, which are downregulated in
metastatic tumors. We determined the structure of killer cell lectin-like receptor G1 (KLRG1)
in complex with E-cadherin. KLRG1 mediates missing self recognition by binding to a highly …
the absence of self molecules on target cells. Structural studies of missing self recognition
have focused on NK receptors that bind MHC. However, NK cells also possess inhibitory
receptors specific for non-MHC ligands, notably cadherins, which are downregulated in
metastatic tumors. We determined the structure of killer cell lectin-like receptor G1 (KLRG1)
in complex with E-cadherin. KLRG1 mediates missing self recognition by binding to a highly …
Summary
The cytolytic activity of natural killer (NK) cells is regulated by inhibitory receptors that detect the absence of self molecules on target cells. Structural studies of missing self recognition have focused on NK receptors that bind MHC. However, NK cells also possess inhibitory receptors specific for non-MHC ligands, notably cadherins, which are downregulated in metastatic tumors. We determined the structure of killer cell lectin-like receptor G1 (KLRG1) in complex with E-cadherin. KLRG1 mediates missing self recognition by binding to a highly conserved site on classical cadherins, enabling it to monitor expression of several cadherins (E-, N-, and R-) on target cells. This site overlaps the site responsible for cell-cell adhesion but is distinct from the integrin αEβ7 binding site. We propose that E-cadherin may coengage KLRG1 and αEβ7 and that KLRG1 overcomes its exceptionally weak affinity for cadherins through multipoint attachment to target cells, resulting in inhibitory signaling.
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