Jamie S. Park scite author profile

Inhibitor and substrate interactions with equilibrative nucleoside transporter 1 (ENT1; SLC29A1) are known to be affected by cysteine-modifying reagents. Given that selective ENT1 inhibitors, such as nitrobenzylmercaptopurine riboside (NBMPR), bind to the N-terminal half of the ENT1 protein, we hypothesized that one or more of the four cysteine residues in this region were contributing to the effects of the sulfhydryl modifiers. Recombinant human ENT1 (hENT1), and the four cysteine-serine ENT1 mutants, were expressed in nucleoside transport-deficient PK15 cells and probed with a series of methanethiosulfonate (MTS) 3 H]2-chloroadenosine transport. The results of this study also indicate that the hENT1-C193S mutant may be useful as a MTSET/MTSESinsensitive transporter for future cysteine substitution studies to define the extracellular domains contributing to the binding of substrates and inhibitors to this critical membrane transporter.

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Characterization of mENT1Δ11, a Novel Alternative Splice Variant of the Mouse Equilibrative Nucleoside Transporter 1

Robillard

Bone²,

Park³

et al. 2008

Mol Pharmacol

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Mammalian cells require specific transport mechanisms for the cellular uptake and release of endogenous nucleosides such as adenosine, and nucleoside analogs used in chemotherapy. We have identified a novel splice variant of the mouse equilibrative nucleoside transporter, mENT1, that results from the exclusion of exon 11 during pre-RNA processing. This variant encodes a truncated protein (mENT1⌬11) missing the last three transmembrane domains of the full-length mENT1. The mENT1⌬11 transcript and protein were found to be differentially distributed among tissues relative to full-length mENT1. PK15-NTD (nucleoside transport deficient) cells were transfected with mENT1 or mENT1⌬11 and assessed for nucleoside transport function. No significant differences were observed between the mENT1 and mENT1⌬11 in terms of transport function or inhibitor binding affinity. PK15-mENT1⌬11 transfected cells bound the ENT1 3 H]uridine. The only significant differences between the mENT1 variants were that mENT1⌬11 could not be photolabeled with [3 H]NBMPR and that mENT1⌬11 was insensitive to the transporter-modifying effects of N-ethylmaleimide. These data suggest that the last three transmembrane domains of mENT1 are not necessary for transport activity, but this region does contain the cysteines responsible for the sensitivity of mENT1 to sulfhydryl reagents, and the residues important for covalent modification of the protein with NBMPR. These results provide important guidelines for future mutagenesis studies aimed at elucidating the tertiary structure of the ENT1 protein and the domains involved in inhibitor binding and substrate translocation.

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Social support and the consequences of heart failure compared with other cardiac diseases: The contribution of support received within an attachment relationship

Maunder

Nolan

Park

et al. 2015

Archives of Cardiovascular Diseases

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Cysteine Residues in the Transmembrane (TM) 9 to TM11 Region of the Human Equilibrative Nucleoside Transporter Subtype 1 Play an Important Role in Inhibitor Binding and Translocation Function

Park

Hammond

2012

Mol Pharmacol

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Inhibitor and substrate interactions with equilibrative nucleoside transporter 1 (ENT1; SLC29A1) are known to be affected by cysteine-modifying reagents. A previous study from our laboratory established Cys222 in transmembrane (TM) 6 as the residue responsible for methyl methanethiosulfonate (a membrane-permeable sulfhydryl modifier)-mediated enhancement of the binding of the ENT1 inhibitor nitrobenzylmercaptopurine riboside (NBMPR) in intact cells. However, the capacity of charged sulfhydryl reagents to inhibit the binding of NBMPR in broken cell preparations (allowing cytoplasmic access) was not affected by mutation of any of the cysteines (Cys87, 193, 213, or 222) in the N-terminal half of the protein. We thus hypothesized that the inhibitory effects of the modifiers were due to the one or more of the six cysteine residues in the C-terminal half of ENT1, particularly one or both of those in the fifth intracellular loop (Cys414 and Cys416). Each of the cysteines were mutated to serine or alanine and expressed in nucleoside transportdeficient PK15 cells and probed with a series of methanethiosulfonate sulfhydryl-modifying reagents. Transporter function was assessed by the site-specific binding of [ 3 H]NBMPR and the cellular uptake of [ 3 H]2-chloroadenosine. These studies established that Cys378 is an extracellular-located residue modified by [2-(trimethylammonium)ethyl] methane-thiosulfonate (MTSET) to inhibit the binding of NBMPR to intact cells. Mutation of Cys414 led to an enhancement of the ability of MTSET to inhibit NBMPR binding, and this enhancement was eliminated by the comutation of Cys378, indicating that disruption of the fifth intracellular loop modifies the conformation of TM10 and its extracellular extension. Mutation of Cys416 led to the loss of the ability of the charged sulfhydryl reagents to inhibit NBMPR binding in isolated membranes and also led to the loss of transport function. This finding further supports an allosteric interaction between the fifth intracellular loop and the extracellular NBMPR binding domain and implicates this region in the translocation function of human ENT1.

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Jamie S. Park

Identification of Cysteines Involved in the Effects of Methanethiosulfonate Reagents on Human Equilibrative Nucleoside Transporter 1

Characterization of mENT1Δ11, a Novel Alternative Splice Variant of the Mouse Equilibrative Nucleoside Transporter 1

Social support and the consequences of heart failure compared with other cardiac diseases: The contribution of support received within an attachment relationship

Cysteine Residues in the Transmembrane (TM) 9 to TM11 Region of the Human Equilibrative Nucleoside Transporter Subtype 1 Play an Important Role in Inhibitor Binding and Translocation Function

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