Rebba C. Boswell-Casteel scite author profile

Equilibrative nucleoside transporters (ENTs) are polytopic integral membrane proteins that mediate the transport of nucleosides, nucleobases, and therapeutic analogs. The best-characterized ENTs are the human transporters hENT1 and hENT2. However, non-mammalian eukaryotic ENTs have also been studied (e.g., yeast, parasitic protozoa). ENTs are major pharmaceutical targets responsible for modulating the efficacy of more than 30 approved drugs. However, the molecular mechanisms and chemical determinants of ENT-mediated substrate recognition, binding, inhibition, and transport are poorly understood. This review highlights findings on the characterization of ENTs by surveying studies on genetics, permeant and inhibitor interactions, mutagenesis, and structural models of ENT function.

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FUN26 (Function Unknown Now 26) Protein from Saccharomyces cerevisiae Is a Broad Selectivity, High Affinity, Nucleoside and Nucleobase Transporter

Boswell-Casteel

Johnson

Duggan

et al. 2014

Journal of Biological Chemistry

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Background: FUN26 is a nucleoside transporter expressed in yeast vacuoles. Results: Proteoliposome studies of purified FUN26 reveal broad nucleoside and nucleobase uptake that is sensitive to C(2Ј)-ribose modifications. Conclusion: FUN26 is a high affinity and broad selectivity nucleoside and nucleobase transporter. Significance: FUN26 has a unique substrate transport profile relative to other ENTs and retains activity following detergent solubilization and purification.

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ABCB6, an ABC Transporter Impacting Drug Response and Disease

Boswell-Casteel

Fukuda

Schuetz

2017

AAPS J

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Recent findings have discovered how insufficiency of ATP-binding cassette (ABC) transporter, ABCB6 can negatively impact human health. These advances were made possible by, first finding that ABCB6 deficiency was the genetic basis for some severe transfusion reactions and second, by determining that functionally impaired ABCB6 variants enhanced the severity of porphyria, i.e., diseases associated with defects in heme synthesis. ABCB6 is a broad-spectrum porphyrin transporter that is capable of both exporting and importing heme and its precursors across the plasma membrane, and outer mitochondrial membrane, respectively. Biochemical studies have demonstrated that while ABCB6 influences the antioxidant system by reducing the levels of reactive oxygen species, the exact mechanism is currently unknown, though effects on heme synthesis are likely. Furthermore, it is unknown what biochemical or cellular signals determine where ABCB6 localizes in the cell. This review highlights the major recent findings on ABCB6 and focuses on details of its structure, mechanism, transport, contributions to cellular stress and current clinical implications.

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Overproduction and biophysical characterization of human HSP70 proteins

Boswell-Casteel

Johnson

Duggan

et al. 2015

Protein Expression and Purification

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Heat shock proteins (HSP) perform vital cellular functions and modulate cell response pathways to physical and chemical stressors. A key feature of HSP function is the ability to interact with a broad array of protein binding partners as a means to potentiate downstream response pathways or facilitate protein folding. These binding interactions are driven by ATP-dependent conformational rearrangements in HSP proteins. The HSP70 family is evolutionarily conserved and is associated with diabetes and cancer progression and the etiopathogenesis of hepatic, cardiovascular, and neurological disorders in humans. However, functional characterization of human HSP70s has been stymied by difficulties in obtaining large quantities of purified protein. Studies of purified human HSP70 proteins are essential for downstream investigations of protein-protein interactions and in the rational design of novel family-specific therapeutics. Within this work, we present optimized protocols for the heterologous overexpression and purification of either the nucleotide binding domain (NBD) or the nucleotide and substrate binding domains of human HSPA9, HSPA8, and HSPA5 in either E. coli or S. cerevisiae. We also include initial biophysical characterization of HSPA9 and HSPA8. This work provides the basis for future biochemical studies of human HSP70 protein function and structure.

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Expression and purification of human and Saccharomyces cerevisiae equilibrative nucleoside transporters

Boswell-Casteel

Johnson

Roe-Žurž

et al. 2018

Protein Expression and Purification

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Nucleosides play an essential role in the physiology of eukaryotes by acting as metabolic precursors in de novo nucleic acid synthesis and energy metabolism. Nucleosides also act as ligands for purinergic receptors. Equilibrative nucleoside transporters (ENTs) are polytopic integral membrane proteins that aid in regulating plasmalemmal flux of purine and pyrimidine nucleosides and nucleobases. ENTs exhibit broad substrate selectivity across different isoforms and utilize diverse mechanisms to drive substrate flux across membranes. However, the molecular mechanisms and chemical determinants of ENT-mediated substrate recognition, binding, inhibition, and transport are poorly understood. To determine how ENT-mediated transport occurs at the molecular level, greater chemical insight and assays employing purified protein are essential. This article focuses on the expression and purification of human ENT1, human ENT2, and Saccharomyces cerevisiae ScENT1 using novel expression and purification strategies to isolate recombinant ENTs. ScENT1, hENT1, and hENT2 were expressed in W303 Saccharomyces cerevisiae cells and detergent solubilized from the membrane. After detergent extraction, these ENTs were further purified using immobilized metal affinity chromatography and size exclusion chromatography. This effort resulted in obtaining quantities of purified protein sufficient for future biophysical analysis.

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