Consensus designs and thermal stability determinants of a human glutamate transporter

• Main Authors: Erica Cirri, Sébastien Brier, Reda Assal, Juan Carlos Canul-Tec, Julia Chamot-Rooke, Nicolas Reyes
• Format: Article
• Language: English
• Published: eLife Sciences Publications Ltd 2018-10-01
• Series: eLife
• Subjects: permeation and transport; protein stability; protein folding; protein dynamics; consensus amino acid
• Online Access: https://elifesciences.org/articles/40110

Human excitatory amino acid transporters (EAATs) take up the neurotransmitter glutamate in the brain and are essential to maintain excitatory neurotransmission. Our understanding of the EAATs’ molecular mechanisms has been hampered by the lack of stability of purified protein samples for biophysical analyses. Here, we present approaches based on consensus mutagenesis to obtain thermostable EAAT1 variants that share up to ~95% amino acid identity with the wild type transporters, and remain natively folded and functional. Structural analyses of EAAT1 and the consensus designs using hydrogen-deuterium exchange linked to mass spectrometry show that small and highly cooperative unfolding events at the inter-subunit interface rate-limit their thermal denaturation, while the transport domain unfolds at a later stage in the unfolding pathway. Our findings provide structural insights into the kinetic stability of human glutamate transporters, and introduce general approaches to extend the lifetime of human membrane proteins for biophysical analyses.