The orphan insulin receptor-related receptor (IRR), in contrast to its homologs from the insulin receptor family, is activated by a mildly alkaline extracellular medium. We have previously demonstrated that IRR activation is defined by two synergistic sites located in the dimeric extracellular domain. Here, we describe artificial mutations in the IRR transmembrane domain that promote receptor activation. First, using molecular modeling based on the NMR-derived structure, we proposed amino acid substitutions that could enhance non-covalent interactions between the transmembrane segments of the IRR dimer. These mutations were subsequently tested for effects on pH sensing by IRR. We showed that double-mutant A938E-A939R was highly phosphorylated at neutral pH and still sensitive to alkaline pH. Remarkably, the double substitution of V929E-G930R resulted in strong basal phosphorylation of the receptor over the pH titration range. Through site-directed mutagenesis, we demonstrated that the transmembrane domain plays a critical role in IRR activation, allowing for targeted control of functioning of the receptor, including its pH sensitivity.
Серова et al. (Thu,) studied this question.