TY - JOUR
T1 - Structural Basis for the Binding Mechanism of Human Serum Albumin Complexed with Cyclic Peptide Dalbavancin
AU - Ito, Sho
AU - Senoo, Akinobu
AU - Nagatoishi, Satoru
AU - Ohue, Masahito
AU - Yamamoto, Masaki
AU - Tsumoto, Kouhei
AU - Wakui, Naoki
N1 - Funding Information:
This research was supported by Platform Project for Supporting Drug Discovery and Life Science Research (Basis for Supporting Innovative Drug Discovery and Life Science Research (BINDS)) from AMED under grant numbers JP19am0101001, JP19am0101094, and JP20am0101094 and by the Japanese Society for the Promotion of Science (JSPS), KAKENHI grant number 20K19926. We thank beamline staff members at BL32XU of SPring-8 (Hyogo, Japan) and K. Yamashita for technical help with data collection. We also thank T. Matsumoto for technical help with the SAXS experiment. The numerical calculations were carried out on the TSUBAME3.0 supercomputer at the Tokyo Institute of Technology. H. Ago, K. Takeshita, N. Sakai, G. Ueno, and K. Yoshida are acknowledged for their careful reading of the manuscript and valuable comments.
Publisher Copyright:
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PY - 2020/11/25
Y1 - 2020/11/25
N2 - Cyclic peptides, with unique structural features, have emerged as new candidates for drug discovery; their association with human serum albumin (HSA; long blood half-life) is crucial to improve drug delivery and avoid renal clearance. Here, we present the crystal structure of HSA complexed with dalbavancin, a clinically used cyclic peptide. Small-angle X-ray scattering and isothermal titration calorimetry experiments showed that the HSA-dalbavancin complex exists in a monomeric state; dalbavancin is only bound to the subdomain IA of HSA in solution. Structural analysis and MD simulation revealed that the swing of Phe70 and movement of the helix near dalbavancin were necessary for binding. The flip of Leu251 promoted the formation of the binding pocket with an induced-fit mechanism; moreover, the movement of the loop region including Glu60 increased the number of noncovalent interactions with HSA. These findings may support the development of new cyclic peptides for clinical use, particularly the elucidation of their binding mechanism to HSA.
AB - Cyclic peptides, with unique structural features, have emerged as new candidates for drug discovery; their association with human serum albumin (HSA; long blood half-life) is crucial to improve drug delivery and avoid renal clearance. Here, we present the crystal structure of HSA complexed with dalbavancin, a clinically used cyclic peptide. Small-angle X-ray scattering and isothermal titration calorimetry experiments showed that the HSA-dalbavancin complex exists in a monomeric state; dalbavancin is only bound to the subdomain IA of HSA in solution. Structural analysis and MD simulation revealed that the swing of Phe70 and movement of the helix near dalbavancin were necessary for binding. The flip of Leu251 promoted the formation of the binding pocket with an induced-fit mechanism; moreover, the movement of the loop region including Glu60 increased the number of noncovalent interactions with HSA. These findings may support the development of new cyclic peptides for clinical use, particularly the elucidation of their binding mechanism to HSA.
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U2 - 10.1021/acs.jmedchem.0c01578
DO - 10.1021/acs.jmedchem.0c01578
M3 - Article
C2 - 33183011
AN - SCOPUS:85096519025
SN - 0022-2623
VL - 63
SP - 14045
EP - 14053
JO - Journal of Medicinal Chemistry
JF - Journal of Medicinal Chemistry
IS - 22
ER -