Evidence against a Role of Mouse, Rat, and Two Cloned Human T1 α Isoforms as a Water Channel or a Regulator of Aquaporin-type Water Channels

Abstract

T1α is a protein of unknown function that is expressed at the plasma membrane in epithelia involved in fluid transport, including type I alveolar epithelial cells, choroid plexus, and ciliary epithelium. The purpose of this study was to test the hypothesis that T1α functions as a water channel or a regulator of aquaporin-type water channels that are coexpressed with T1α. Two complementary DNAs (cDNAs) (hT1α-1 and hT1α-2) encoding human isoforms of T1α were cloned by homology to the rat T1α coding sequence. The cDNAs encoded 164 (hT1α-1) and 162 (hT1α-2) amino acid proteins with high homology to rat T1α in a putative membrane-spanning domain. hT1α-1 transcripts of 2.6 and 1.4 kb were detected in human lung, heart, and skeletal muscle, and a single hT1α-2 transcript of 1.2 kb was detected in human lung. Rat and mouse T1α were isolated by reverse transcription-polymerase chain reaction and confirmed by DNA sequence analysis. Expression of mouse, rat, and human T1α isoforms in Xenopus oocytes did not increase osmotic water permeability (P_f) above that in water-injected oocytes, nor was there an effect of protein kinase A or C activation; P_f was increased > 10-fold in positive control oocytes expressing aquaporin (AQP)1 or AQP5. Coexpression of AQP1 or AQP5 with excess T1α gave P_f not different from that in oocytes expressing AQP1 or AQP5 alone. Oocyte plasma membrane localization of epitope-tagged T1α protein was confirmed and quantified by immunoprecipitation of microdissected plasma membranes. Quantitative densitometry indicated that the single-channel water permeability of T1α is under 2 × 10⁻¹⁶ cm³/s, suggesting that T1α is not involved in the high transalveolar water permeability in intact lung. The cloning of hT1α isoforms may permit the development of an assay of type I cell antigen in airspace fluid as a marker of human lung injury.