Abstract
We have cloned a transporter protein from rabbit small intestine, which, when coexpressed with the 4F2 heavy chain (4F2hc) in mammalian cells, induces a b(0,+)-like amino acid transport activity. This protein (4F2-lc6 for the sixth member of the 4F2 light chain family) consists of 487 amino acids and has 12 putative transmembrane domains. At the level of amino acid sequence, 4F2-lc6 shows significant homology (44% identity) to the other five known members of the 4F2 light chain family, namely LAT1 (4F2-lc1), y(+)LAT1 (4F2-lc2), y(+)LAT2 (4F2-lc3), xCT (4F2-lc4), and LAT2 (4F2-lc5). The 4F2hc/4F2-lc6 complex-mediated transport process is Na(+)-independent and exhibits high affinity for neutral and cationic amino acids and cystine. These characteristics are similar to those of the b(0,+)-like amino acid transport activity previously shown to be associated with rBAT (protein related to b(0,+) amino acid transport system). However, the newly cloned 4F2-lc6 does not interact with rBAT. This is the first report of the existence of a b(0,+)-like amino acid transport process that is independent of rBAT. 4F2-lc6 is expressed predominantly in the small intestine and kidney. Based on the characteristics of the transport process mediated by the 4F2hc/4F2-lc6 complex and the expression pattern of 4F2-lc6 in mammalian tissues, we suggest that 4F2-lc6 is a new candidate gene for cystinuria.
Highlights
A NEW CANDIDATE GENE FOR CYSTINURIA*We report the cloning of a protein from the rabbit small intestine, which, when coexpressed with 4F2 heavy chain (4F2hc) in mammalian cells, induces a Naϩ-independent amino acid transport activity specific for neutral and cationic amino acids and cystine
We have cloned a transporter protein from rabbit small intestine, which, when coexpressed with the 4F2 heavy chain (4F2hc) in mammalian cells, induces a b0,؉like amino acid transport activity
Based on the characteristics of the transport process mediated by the 4F2hc/4F2-lc6 complex and the expression pattern of 4F2-lc6 in mammalian tissues, we suggest that 4F2-lc6 is a new candidate gene for cystinuria
Summary
We report the cloning of a protein from the rabbit small intestine, which, when coexpressed with 4F2hc in mammalian cells, induces a Naϩ-independent amino acid transport activity specific for neutral and cationic amino acids and cystine. Even though this transport activity is similar to the activity associated with rBAT, the newly cloned protein does not interact with rBAT. Based on the functional characteristics of the transport system induced by the 4F2hc/4F2-lc complex, we hypothesize that 4F2-lc may represent a new candidate gene for cystinuria These studies provide the first evidence for the existence of a b0,ϩ-like amino acid transport activity independent of rBAT
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