5 research outputs found
A Conformationally Mobile Cysteine Residue (Cys-561) Modulates Na+ and H+ Activation of Human CNT3*S⃞
No full textIn humans, the SLC28 concentrative nucleoside transporter (CNT) protein
family is represented by three Na+-coupled members; human CNT1
(hCNT1) and hCNT2 are pyrimidine and purine nucleoside-selective,
respectively, whereas hCNT3 transports both purine and pyrimidine nucleosides
and nucleoside drugs. Belonging to a phylogenetic CNT subfamily distinct from
hCNT1/2, hCNT3 also mediates H+/nucleoside cotransport. Using
heterologous expression in Xenopus oocytes, we have characterized a
cysteineless version of hCNT3 (hCNT3C-). Processed normally to the cell
surface, hCNT3C-exhibited hCNT3-like transport properties, but displayed a
decrease in apparent affinity specific for Na+ and not
H+. Site-directed mutagenesis experiments in wild-type and
hCNT3C-backgrounds identified intramembranous Cys-561 as the residue
responsible for this altered Na+-binding phenotype. Alanine at this
position restored Na+ binding affinity, whereas substitution with
larger neutral amino acids (threonine, valine, and isoleucine) abolished hCNT3
H+-dependent nucleoside transport activity. Independent of these
findings, we have established that Cys-561 is located in a mobile region of
the hCNT3 translocation pore adjacent to the nucleoside binding pocket and
that access of p-chloromercuribenzene sulfonate to this residue
reports a specific H+-induced conformational state of the protein
(Slugoski, M. D., Ng, A. M. L., Yao, S. Y. M., Smith, K. M.,
Lin, C. C., Zhang, J., Karpinski, E., Cass, C. E., Baldwin, S. A., and Young,
J. D. (2008) J. Biol. Chem.
283,
8496-850718199742). The present
investigation validates hCNT3C- as a template for substituted cysteine
accessibility method studies of CNTs and reveals a pivotal functional role for
Cys-561 in Na+- as well as H+-coupled modes of hCNT3
nucleoside transport
