Abstract
Cystinosis is a lysosomal transport disorder characterized by an accumulation of intra-lysosomal cystine. Biochemical studies showed that the lysosomal cystine transporter was distinct from the plasma membrane cystine transporters and that it exclusively transported cystine. The gene underlying cystinosis, CTNS, encodes a predicted seven-transmembrane domain protein called cystinosin, which is highly glycosylated at the N-terminal end and carries a GY-XX-Phi (where Phi is a hydrophobic residue) lysosomal-targeting motif in its carboxyl tail. We constructed cystinosin-green fluorescent protein fusion proteins to determine the subcellular localization of cystinosin in transfected cell lines and showed that cystinosin-green fluorescent protein colocalizes with lysosomal-associated membrane protein 2 (LAMP-2) to lysosomes. Deletion of the GY-XX-Phi motif resulted in a partial redirection to the plasma membrane as well as sorting to lysosomes, demonstrating that this motif is only partially responsible for the lysosomal targeting of cystinosin and suggesting the existence of a second sorting signal. A complete relocalization of cystinosin to the plasma membrane was obtained after deletion of half of the third cytoplasmic loop (amino acids 280-288) coupled with the deletion of the GY-DQ-L motif, demonstrating the presence of the second signal within this loop. Using site-directed mutagenesis studies we identified a novel conformational lysosomal-sorting motif, the core of which was delineated to YFPQA (amino acids 281-285).
Highlights
Lysosomes are a principal site of intracellular digestion in mammalian cells
The construction of a cystinosin-green fluorescent protein (GFP) fusion protein has allowed us to confirm the predicted subcellular localization due to the colocalization of this fusion protein with an antibody directed against the lysosomal membrane protein, lysosomal-associated membrane protein (LAMP)-2
The targeting of lysosomal membrane proteins has been largely studied, and two main classes of signals have so far been identified, a tyrosine-based GY-XX-⌽ or Y-XX-⌽, and a di-leucine-sorting motif, both typically found in the short C-terminal cystoplasmic tails of glycoproteins that cross the membrane one or more times [18]
Summary
Lysosomes are a principal site of intracellular digestion in mammalian cells. Extracellular biological materials destined for degradation in the lysosomes are endocytosed and shuttled to the lysosomes via early and late endosomes [1]. This sequence is reminiscent of the tyrosine-based sorting motif, GY-XX-⌽ (where ⌽ is a hydrophobic residue), which was identified in the 10 –20 amino acid carboxyl tails of lysosomal-associated membrane protein (LAMP)1 -1, -2, and -3 and in lysosomal acid phosphatase and shown to be responsible for their correct targeting to the lysosome (for review see Ref. 18).
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