Kim Bartels scite author profile

Protein stability in detergent or membrane-like environments is the bottleneck for structural studies on integral membrane proteins (IMP). Irrespective of the method to study the structure of an IMP, detergent solubilization from the membrane is usually the first step in the workflow. Here, we establish a simple, high-throughput screening method to identify optimal detergent conditions for membrane protein stabilization. We apply differential scanning fluorimetry in combination with scattering upon thermal denaturation to study the unfolding of integral membrane proteins. Nine different prokaryotic and eukaryotic membrane proteins were used as test cases to benchmark our detergent screening method. Our results show that it is possible to measure the stability and solubility of IMPs by diluting them from their initial solubilization condition into different detergents. We were able to identify groups of detergents with characteristic stabilization and destabilization effects for selected targets. We further show that fos-choline and PEG family detergents may lead to membrane protein destabilization and unfolding. Finally, we determined thenmodynamic parameters that are important indicators of IMP stability. The described protocol allows the identification of conditions that are suitable for downstream handling of membrane proteins during purification.

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Structure of Prototypic Peptide Transporter DtpA fromE. coliin Complex with Valganciclovir Provides Insights into Drug Binding of Human PepT1

Ural-Blimke

Flayhan

Strauss

et al. 2019

J. Am. Chem. Soc.

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Members of the solute carrier 15 family (SLC15) transport di- and tripeptides as well as peptidomimetic drugs across the cell membrane. Structures of bacterial homologues have provided valuable information on the binding and transport of their natural substrates, but many do not transport medically relevant drugs. In contrast, a homologue from Escherichia coli, DtpA (dipeptide and tripeptide permease), shows a high similarity to human PepT1 (SLC15A1) in terms of ligand selectivity and transports a similar set of drugs. Here, we present the crystal structure of DtpA in ligand-free form (at 3.30 Å resolution) and in complex with the antiviral prodrug valganciclovir (at 2.65 Å resolution) supported by biochemical data. We show that valganciclovir unexpectedly binds with the ganciclovir moiety mimicking the N-terminal residue of a canonical peptide substrate. On the basis of a homology model we argue that this binding mode also applies to the human PepT1 transporter. Our results provide new insights into the binding mode of prodrugs and will assist the rational design of drugs with improved absorption rates.

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Membrane Chemistry Tunes the Structure of a Peptide Transporter

et al. 2020

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Membrane proteins require lipid bilayers for function. While lipid compositions reach enormous complexities,high-resolution structures are usually obtained in artificial detergents.T ou nderstand whether and how lipids guide membrane protein function, we use single-molecule FRET to probe the dynamics of DtpA, amember of the proton-coupled oligopeptide transporter (POT) family,i nv arious lipid environments.W es how that detergents trap DtpA in ad ynamic ensemble with cytoplasmic opening. Only reconstitutions in more native environments restore cooperativity,a llowing an opening to the extracellular side and asampling of all relevant states.Bilayer compositions tune the abundance of these states. Anovel state with an extreme cytoplasmic opening is accessible in bilayers with anionic head groups.Hence,chemical diversity of membranes translates into structural diversity,w ith the current POTs tructures only sampling ap ortion of the full structural space.

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Kim Bartels

High-throughput stability screening for detergent-solubilized membrane proteins

Structure of Prototypic Peptide Transporter DtpA fromE. coliin Complex with Valganciclovir Provides Insights into Drug Binding of Human PepT1

Membrane Chemistry Tunes the Structure of a Peptide Transporter

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