Scientific Reports (Jun 2017)

Structure of the human TRiC/CCT Subunit 5 associated with hereditary sensory neuropathy

  • Jose H. Pereira,
  • Ryan P. McAndrew,
  • Oksana A. Sergeeva,
  • Corie Y. Ralston,
  • Jonathan A. King,
  • Paul D. Adams

DOI
https://doi.org/10.1038/s41598-017-03825-3
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract The human chaperonin TRiC consists of eight non-identical subunits, and its protein-folding activity is critical for cellular health. Misfolded proteins are associated with many human diseases, such as amyloid diseases, cancer, and neuropathies, making TRiC a potential therapeutic target. A detailed structural understanding of its ATP-dependent folding mechanism and substrate recognition is therefore of great importance. Of particular health-related interest is the mutation Histidine 147 to Arginine (H147R) in human TRiC subunit 5 (CCT5), which has been associated with hereditary sensory neuropathy. In this paper, we describe the crystal structures of CCT5 and the CCT5-H147R mutant, which provide important structural information for this vital protein-folding machine in humans. This first X-ray crystallographic study of a single human CCT subunit in the context of a hexadecameric complex can be expanded in the future to the other 7 subunits that form the TRiC complex.