Structural determinants of the insulin receptor-related receptor activation by Alkali

Igor E. Deyev, Alla V. Mitrofanova, Egor S. Zhevlenev, Nikita Radionov, Anastasiya A. Berchatova, Nadezhda V. Popova, Oxana V. Serova, Alexander G. Petrenko

Research output: Contribution to journalArticlepeer-review

21 Scopus citations


IRR is a member of the insulin receptor (IR) family that does not have any known agonist of a peptide nature but can be activatedbymildly alkaline medium and was thus proposed to function as an extracellular pH sensor. IRR activation by alkali is defined by its N-terminal extracellular region. To reveal key structural elements involved in alkali sensing, we developed an in vitro method to quantify activity of IRR and its mutants. Replacing the IRR L1C domains (residues 1-333) or L2 domain (residues 334-462) or both with the homologous fragments of IR reduced the receptor activity to 35, 64, and 7% percent, respectively. Within L1C domains, five amino acid residues (Leu-135, Gly-188, Arg-244, and vicinal His-318 and Lys-319) were identified as IRR-specific by species conservation analysis of the IR family. These residues are exposed and located in junctions between secondary structure folds. The quintuple mutation of these residues to alanine had the same negative effect as the entire L1C domain replacement, whereas none of the single mutations was as effective. Separate mutations of these five residues and of L2 produced partial negative effects that were additive. The pH dependence of cell-expressed mutants (L1C and L2 swap, L2 plus triple LGR mutation, and L2 plus quintuple LGRHK mutation) was shifted toward alkalinity and, in contrast with IRR, did not show significant positive cooperativity. Our data suggest that IRR activation is not based on a single residue deprotonation in the IRR ectodomain but rather involves synergistic conformational changes at multiple points.

Original languageEnglish (US)
Pages (from-to)33884-33893
Number of pages10
JournalJournal of Biological Chemistry
Issue number47
StatePublished - Nov 22 2013
Externally publishedYes

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Cell Biology


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