Structural Basis for the Blockage of IL-2 Signaling by Therapeutic Antibody Basiliximab

  • Du J
  • Yang H
  • Zhang D
  • et al.
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Abstract

IL-2 signaling plays a central role in the initiation and activation of immune responses. Correspondingly, blockage of this pathway leads to inhibition of the immune system and would provide some therapeutic benefits. Basiliximab (Simulect), a therapeutic mAb drug with specificity against IL-2Rα of T cells, was approved by U.S. Food and Drug Administration in 1998. It has been proven to be effective in the suppression of the IL-2 pathway and hence has been widely used to prevent allograft rejection in organ transplantation, especially in kidney transplants. In this study, we report the crystal structure of the basiliximab Fab in complex with the ectodomain of IL-2Rα at 2.9 Å resolution. In the complex structure, the Fab interacts with IL-2Rα with extensive hydrophobic and hydrophilic interactions, accounting for a high binding affinity of 0.14 nM. The Ag binding site of basiliximab consists of all six CDR loops that form a large binding interface with a central shallow hydrophobic groove surrounded by four hydrophilic patches. The discontinuous epitope is composed of several segments from the D1 domain and a minor segment from the D2 domain that overlap with most of the regions responsible for the interactions with IL-2. Thus, basiliximab binding can completely block the interactions of IL-2 with IL-2Rα and hence inhibit the activation of the IL-2 signal pathway. The structural results also provide important implications for the development of improved and new IL-2Rα–targeted mAb drugs.

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Du, J., Yang, H., Zhang, D., Wang, J., Guo, H., Peng, B., … Ding, J. (2010). Structural Basis for the Blockage of IL-2 Signaling by Therapeutic Antibody Basiliximab. The Journal of Immunology, 184(3), 1361–1368. https://doi.org/10.4049/jimmunol.0903178

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