Abstract
Equilibrative nucleoside transporters (ENTs) are polytopic integral membrane proteins that transport nucleosides and, to a lesser extent, nucleobases across cell membranes. ENTs modulate efficacy for a range of human therapeutics and function in a diffusion-controlled bidirectional manner. A detailed understanding of ENT function at the molecular level has remained elusive. FUN26 (function unknown now 26) is a putative ENT homolog from S. cerevisiae that is expressed in vacuole membranes. In the present system, proteoliposome studies of purified FUN26 demonstrate robust nucleoside and nucleobase uptake into the luminal volume for a broad range of substrates. This transport activity is sensitive to nucleoside modifications in the C(2')- and C(5')-positions on the ribose sugar and is not stimulated by a membrane pH differential. [(3)H]Adenine nucleobase transport efficiency is increased ∼4-fold relative to nucleosides tested with no observed [(3)H]adenosine or [(3)H]UTP transport. FUN26 mutational studies identified residues that disrupt (G463A or G216A) or modulate (F249I or L390A) transporter function. These results demonstrate that FUN26 has a unique substrate transport profile relative to known ENT family members and that a purified ENT can be reconstituted in proteoliposomes for functional characterization in a defined system.
Highlights
FUN26 is a nucleoside transporter expressed in yeast vacuoles
FUN26 mutational studies identified residues that disrupt (G463A or G216A) or modulate (F249I or L390A) transporter function. These results demonstrate that FUN26 has a unique substrate transport profile relative to known Equilibrative nucleoside transporters (ENTs) family members and that a purified ENT can be reconstituted in proteoliposomes for functional characterization in a defined system
Using a homologous overexpression system [25], S. cerevisiae FUN26 was overexpressed and purified, followed by incorporation into unilamellar vesicles under defined buffer conditions. These PLs were subjected to radiolabeled substrate uptake assays to assess the presence of substrate uptake for a range of purine and pyrimidine nucleosides and nucleobases as well as C(5Ј)- and C(2Ј)-modified nucleoside analogues. These data demonstrate that 1) S. cerevisiae FUN26 can be purified and functionally reconstituted into PLs; 2) FUN26 transports both nucleosides and nucleobases but does not transport nucleotides or C(2Ј)-modified nucleosides tested in this study; 3) FUN26 is a high affinity [3H]uridine, [3H]cytidine, and [3H]adenine transporter; 4) the glycine side chain of Gly-463 is an absolute requirement for FUN26 transport activity; 5) residues Leu-390 and Phe-249 are capable of modulating substrate flux; and 6) FUN26 transport activity is not influenced by a membrane proton potential (⌬Hϩ)
Summary
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. These PLs were subjected to radiolabeled substrate uptake assays to assess the presence of substrate uptake for a range of purine and pyrimidine nucleosides and nucleobases as well as C(5Ј)- and C(2Ј)-modified nucleoside analogues These data demonstrate that 1) S. cerevisiae FUN26 can be purified and functionally reconstituted into PLs; 2) FUN26 transports both nucleosides and nucleobases but does not transport nucleotides or C(2Ј)-modified nucleosides tested in this study; 3) FUN26 is a high affinity [3H]uridine, [3H]cytidine, and [3H]adenine transporter; 4) the glycine side chain of Gly-463 is an absolute requirement for FUN26 transport activity; 5) residues Leu-390 and Phe-249 are capable of modulating substrate flux; and 6) FUN26 transport activity is not influenced by a membrane proton potential (⌬Hϩ). This work demonstrates reconstitution and functional characterization of a purified ENT family member
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