Protein ageing is often mediated by the formation of succinimide intermediates. These short-lived intermediates derive from asparaginyl deamidation and aspartyl dehydration and are rapidly converted into β-aspartyl or D-aspartyl residues. Here we report the presence of a highly stable succinimide intermediate in the glutaminase subunit of GMP synthetase from the hyperthermophile Methanocaldoccocus jannaschii. By comparing the biophysical properties of the wild-type protein and of several mutants, we show that the presence of succinimide increases the structural stability of the glutaminase subunit. The protein bearing this modification in fact remains folded at 100 °C and in 8 M guanidinium chloride. Mutation of the residue following the reactive asparagine provides insight into the factors that contribute to the hydrolytic stability of the succinimide. Our findings suggest that sequences that stabilize succinimides from hydrolysis may be evolutionarily selected to confer extreme thermal stability.
Stability of proteins from hyperthermophiles enabled by reduction of conformational flexibility is realized through various mechanisms. Presence of a stable, hydrolysis-resistant succinimide arising from cyclization of the side chains of aspartyl/asparaginyl residues with backbone amide -NH of the succeeding residue would restrain the torsion angle ψ. Here, we describe the crystal structure of Methanocaldococcus jannaschii glutamine amidotransferase (MjGATase) and address the mechanism of a succinimide-induced increased thermostability using molecular dynamics simulations. This study reveals the interplay of negatively charged electrostatic shield and n→Π* interactions in preventing succinimide hydrolysis. The stable succinimidyl residue induces formation of a conformational-lock, reducing protein flexibility. Protein destabilization upon replacement with the Φ-restricted prolyl residue highlights the specificity of the conformationally restrained succinimidyl residue in imparting hyperthermostability. The conservation of succinimide-forming tripeptide sequence (E(N/D)(E/D)) in a group of archaeal GATases suggests an adaptation of this otherwise detrimental post-translational modification as an inducer of thermostability.
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