Scientific Reports (Jul 2017)

Computational design of a symmetrical β-trefoil lectin with cancer cell binding activity

  • Daiki Terada,
  • Arnout R. D. Voet,
  • Hiroki Noguchi,
  • Kenichi Kamata,
  • Mio Ohki,
  • Christine Addy,
  • Yuki Fujii,
  • Daiki Yamamoto,
  • Yasuhiro Ozeki,
  • Jeremy R. H. Tame,
  • Kam Y. J. Zhang

DOI
https://doi.org/10.1038/s41598-017-06332-7
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 13

Abstract

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Abstract Computational protein design has advanced very rapidly over the last decade, but there remain few examples of artificial proteins with direct medical applications. This study describes a new artificial β-trefoil lectin that recognises Burkitt’s lymphoma cells, and which was designed with the intention of finding a basis for novel cancer treatments or diagnostics. The new protein, called “Mitsuba”, is based on the structure of the natural shellfish lectin MytiLec-1, a member of a small lectin family that uses unique sequence motifs to bind α-D-galactose. The three subdomains of MytiLec-1 each carry one galactose binding site, and the 149-residue protein forms a tight dimer in solution. Mitsuba (meaning “three-leaf” in Japanese) was created by symmetry constraining the structure of a MytiLec-1 subunit, resulting in a 150-residue sequence that contains three identical tandem repeats. Mitsuba-1 was expressed and crystallised to confirm the X-ray structure matches the predicted model. Mitsuba-1 recognises cancer cells that express globotriose (Galα(1,4)Galβ(1,4)Glc) on the surface, but the cytotoxicity is abolished.