Molecular cloning and expression of a chloride channel-associated protein pICln in human young red blood cells: association with actin

Abstract

We report the cloning and sequencing from human reticulocytes of cDNA coding for the Cl^- channel-associated protein, pI_Cln. Human reticulocyte pI_Cln (HRpI_Cln) cDNA encodes a protein (predicted molecular mass 26293 Da) identical with human non-pigmented ciliary epithelial cell pI_Cln. By using full-length HRpI_Cln cDNA (approx. 1.2 kb) to probe human lymphocyte metaphase-chromosome spreads, the location of the human I_Cln gene was mapped to 11q13 by fluorescence in situ hybridization analysis. Polyclonal antibodies to recombinant HRpI_Cln detected bands at approx. 43 kDa and approx. 37 kDa in both normal (AA) and sickle (SS) red blood cell (RBC) ghost membranes. In SS ghosts, and in ghosts from a patient with autoimmune haemolytic anaemia with 9.8% reticulocytes, the amount of HRpI_Cln was increased compared with AA ghosts, suggesting that the expression or membrane assembly of HRpI_Cln is cell age-dependent. Laser scanning confocal fluorescent microscopy immunolocalized HRpI_Cln largely to the RBC membrane. The increased staining intensity of HRpI_Cln in a reticulocyte-enriched AA RBC density-separated fraction is consistent with a dependence of HRpI_Cln membrane content on cell age. HRpI_Cln and β-actin form stable complexes in vivo, demonstrated with the yeast two-hybrid system. Low-ionic-strength extraction of ghost membranes, which results in the extraction of the spectrin-actin cytoskeleton, also results in the extraction of HRpI_Cln, consistent with the possibility for the association of these proteins in RBCs in vivo. The results presented here establish the presence of the Cl^- channel-associated protein, pI_Cln, in human RBCs, and raises the possibility that this protein has a role in RBC Cl^- transport and volume regulation in young RBCs. Moreover the association of RBC pI_Cln with actin offers a model in which to test interactions between RBC ion channels and the cytoskeleton.