Structural and Functional Studies of Concentrative Nucleoside Transporters

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2015

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Lee, Seok-Yong

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Abstract

Nucleoside transport into the cell plays a key role in providing building blocks for DNA and RNA synthesis, terminating adenosine signaling, and delivering nucleoside-analog drugs to their targets. Concentrative nucleoside transporters (CNTs) constitute one of the classes of membrane transporters responsible for the cellular uptake of nucleosides and nucleoside-derived drugs. We solved the first structure of a member of the CNT family, vcCNT, by X-ray crystallography, revealing the overall architecture of the transporter, delineating the locations of the nucleoside- and sodium-binding sites, and providing insight into the mechanism of transport. Next we examined the molecular origins of nucleoside and nucleoside-drug selectivity by solving structures of the transporter bound to different nucleosides and drugs and measuring their binding affinities for vcCNT to determine energetically important interactions. We then used this information to design a compound that is better transported by and subtype-selective for human CNTs. Finally, we probed the role of sodium in the ion-coupled transport of nucleosides using binding and transport studies and developed a hypothesis for the structural basis of sodium coupling. Taken together, these studies helped to elucidate the molecular mechanism by which CNTs selectively recognize nucleosides and pump them into the cell and provided insight into drug uptake by these transporters, laying a framework for the improvement of targeted nucleoside-drug delivery by CNTs.

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Johnson, Zachary Lee (2015). Structural and Functional Studies of Concentrative Nucleoside Transporters. Dissertation, Duke University. Retrieved from https://hdl.handle.net/10161/9841.

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