The non-glycosylated N-terminal domain of human thrombopoietin is a molten globule under native conditions

Shigeki Arai*, Chie Shibazaki, Motoyasu Adachi, Yoshitake Maeda, Tomoyuki Tahara, Takashi Kato, Hiroshi Miyazaki, Ryota Kuroki


研究成果: Article査読


Human thrombopoietin (hTPO) is a primary hematopoietic growth factor that regulates megakaryocytopoiesis and platelet production. The non-glycosylated form of 1–163 residues of hTPO (hTPO163) including the N-terminal active site domain (1–153 residues) is a candidate for treating thrombocytopenia. However, the autoantigenicity level of hTPO163 is higher than that of the full-length glycosylated hTPO (ghTPO332). In order to clarify the structural and physicochemical properties of hTPO163, circular dichroism (CD) and differential scanning calorimetry (DSC) analyses were performed. CD analysis indicated that hTPO163 undergoes an induced-fit conformational change (+19.0% for helix and −16.7% for β-strand) upon binding to the neutralizing antibody TN1 in a manner similar to the coupled folding and binding mechanism. Moreover, DSC analysis showed that the thermal transition process of hTPO163 is a multistate transition; hTPO163 is thermally stabilized upon receptor (c-Mpl) binding, as indicated with raising the midpoint (Tm) temperature of the transition by at least +9.5 K. The conformational variability and stability of hTPO163 indicate that hTPO163 exists as a molten globule under native conditions, which may enable the induced-fit conformational change according to the type of ligands (antibodies and receptor). Additionally, CD and computational analyses indicated that the C-terminal domain (154–332 residues) and glycosylation assists the folding of the N-terminal domain. These observations suggest that the antibody affinity and autoantigenicity of hTPO163 might be reduced, if the conformational variability of hTPO163 is restricted by mutation and/or by the addition of C-terminal domain with glycosylation to keep its conformation suitable for the c-Mpl recognition.

ジャーナルFEBS Journal
出版ステータスPublished - 2019 5月

ASJC Scopus subject areas

  • 生化学
  • 分子生物学
  • 細胞生物学


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