The effects of glucocorticoids on phorbol ester and cytokine stimulated transcription factor activation in human lung

Specialized transporter proteins facilitate controlled uptake and extrusion of molecules across biological membranes that would otherwise be impermeable to them. The superfamily of solute carriers (SLC) comprises the second largest group of membrane proteins in humans, acting on a variety of small polar and non-polar molecules and ions. Because of their central role in metabolism, malfunctioning of these proteins often is pathogenic. The interest in SLC transporters as drug targets – as well as for drug delivery – has therefore increased in the past years. For many SLC subfamilies, however, structural and functional information remains scarce to date. The here presented data provides important insights into different aspects of the transport mechanism of the SLC23 and SLC26 protein families. Importantly, we show that SLC23 nucleobase transporters, in contrast to what was been previously reported, work as uniporters rather than as proton-coupled symporters. In order to do so, we developed the first and only in vitro transport assay for the SLC23 family, which enables investigation of protein function in a defined environment. Moreover, we provide a hypothesis on the role of the extremely conserved negative charged substrate binding site residue found not only in the SLC23, but also SLC4 and SLC26 families. Based on a detailed analysis of binding and transport we conclude that this conserved negative charged has a relevance for protein stability rather than for substrate binding, which explains its conservation for all three protein families that otherwise differ in their substrate specificities and modes of transport. Lastly, we investigated the relevance of oligomerization for the SLC23 and SLC26 families, highlighting the importance of the STAS domain for forming active dimers in the SLC26 anion transporter family.

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SLC23-Nukleobasentransport entschlüsselt

Holzhüter

Geertsma

2022

Biospektrum

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SLC23 family members transport either nucleobases or vitamin C. While the structure of SLC23 nucleobase transporters is resolved in high detail, their transport mechanism is not: they have been proposed, but not formally shown, to be proton-coupled symporters. Here, by establishing the first in vitro transport assay for this protein family, we demonstrate that a representative member of the SLC23 nucleobase transporters operates as a uniporter instead.

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Functional (un)cooperativity in elevator transport proteins

Holzhüter

Geertsma

2020

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The activity of enzymes is subject to regulation at multiple levels. Cooperativity, the interconnected behavior of active sites within a protein complex, directly affects protein activity. Cooperativity is a mode of regulation that requires neither extrinsic factors nor protein modifications. Instead, it allows enzymes themselves to modulate reaction rates. Cooperativity is an important regulatory mechanism in soluble proteins, but also examples of cooperative membrane proteins have been described. In this review, we summarize the current knowledge on interprotomer cooperativity in elevator-type proteins, a class of membrane transporters characterized by large rigid-body movements perpendicular to the membrane, and highlight well-studied examples and experimental approaches.

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Katharina Holzhüter

Efficient Screening and Optimization of Membrane Protein Production in Escherichia coli

Uniport, Not Proton-Symport, in a Non-Mammalian SLC23 Transporter

Substrate translocation in SLC23 and SLC26 transporters

SLC23-Nukleobasentransport entschlüsselt

Functional (un)cooperativity in elevator transport proteins

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