Molecular characterization of a novel UT-A urea transporter isoform (UT-A5) in testis

Urea movement across plasmamembranes is modulated by specialized transporter proteins that areproducts of two genes, termed UT-A and UT-B. These proteins play keyroles in the urinary concentrating mechanism and fluid homeostasis. Wehave isolated and characterized a 1.4-kb cDNA from testes encoding anew isoform (UT-A5) belonging to the UT-A transporter family. Forcomparison, we also isolated a 2.0-kb cDNA from mouse kidneyinner medulla encoding the mouse UT-A3 homologue. The UT-A5 cDNAhas a putative open reading frame encoding a 323-amino acidprotein, making UT-A5 the smallest UT-A family member in terms ofmolecular size. Its putative topology is of particular interest,because it calls into question earlier models of UT-A transporterstructure. Expression of UT-A5 cRNA in Xenopus oocytesmediates phloretin-inhibitable urea uptake and does not translocatewater. The distribution of UT-A5 mRNA is restricted to the peritubularmyoid cells forming the outermost layer of the seminiferous tubuleswithin the testes and is not detected in kidney. UT-A5 mRNA levels arecoordinated with the stage of testes development and increase 15 dayspostpartum, commensurate with the start of seminiferous tubule fluid movement.