Crystal structures of the selenoprotein glutathione peroxidase 4 in its apo form and in complex with the covalently bound inhibitor ML162.

Dieter Moosmayer,André Hilpmann,John K Eaton,Jutta Hoffmann,Volker Badock,Roman C Hillig,Stefan Gradl,Katja Zimmermann,Vasanthi S Viswanathan,Lennart Schnirch,Laura Furst,Stuart L Schreiber

doi:10.1107/s2059798320016125

Dieter Moosmayer, André Hilpmann + Show 10 more

Open Access

https://doi.org/10.1107/s2059798320016125

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Abstract

Wild-type human glutathione peroxidase 4 (GPX4) was co-expressed with SBP2 (selenocysteine insertion sequence-binding protein 2) in human HEK cells to achieve efficient production of this selenocysteine-containing enzyme on a preparative scale for structural biology. The protein was purified and crystallized, and the crystal structure of the wild-type form of GPX4 was determined at 1.0 Å resolution. The overall fold and the active site are conserved compared with previously determined crystal structures of mutated forms of GPX4. A mass-spectrometry-based approach was developed to monitor the reaction of the active-site selenocysteine Sec46 with covalent inhibitors. This, together with the introduction of a surface mutant (Cys66Ser), enabled the crystal structure determination of GPX4 in complex with the covalent inhibitor ML162 [(S)-enantiomer]. The mass-spectrometry-based approach described here opens the path to further co-complex crystal structures of this potential cancer drug target in complex with covalent inhibitors.

Highlights

The glutathione peroxidases (GPXs) are part of the cellular antioxidative defense system (Brigelius-Flohe & Maiorino, 2013)
Three different isoforms have been reported for glutathione peroxidase 4 (GPX4), a cytosolic GPX4, a mitochondrial GPX4 and sperm nuclear GPX4, all of which are splice variants derived from the same gene (Brigelius-Flohe & Maiorino, 2013)
Four different SECIS elements were tested in the expression cassette: a previously described chimeric element (Novoselov et al, 2007), the human element from GPX4 (X71973.1; base pairs 675–863), the element from human selenoprotein N (SelN; NM_206926.1; base pairs 2802–2904) and the element from Toxoplasma gondii (Toxopl; AK318349.1; base pairs 1067–1305)

Summary

Introduction

The glutathione peroxidases (GPXs) are part of the cellular antioxidative defense system (Brigelius-Flohe & Maiorino, 2013). They catalyze the reduction of hydrogen peroxide or organic hydroperoxides to water or the corresponding alcohols, respectively, typically using glutathione as a reductant. For a GPX enzyme, GPX4 can use glutathione and other thiol-containing proteins as reductants (Godeas et al, 1996; Maiorino et al, 2005). The cytosolic isoform of human GPX4 (UniProt identifier P36969-2; referred to as GPX4 in the following text) is a 19.5 kDa protein which comprises 170 residues and features a selenocysteine (Sec, U) at position 46.

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