We have recently isolated FYVE-DSP1, a FYVE domain-containing dual specificity protein phosphatase (R. Zhao, Y. Qi, and Z. J. Zhao, Biochem. Biophys. Res. Commun. 270, 222--229 (2000)). Here, we report a novel isozyme that we designated FYVE-DSP2. FYVE-2 contains a single FYVE domain at the C-terminus, and it shares approximately 47% overall sequence identity with FYBE-DSP1. Genomic sequence analyses revealed that the FYVE-DSP1 and FYVE-DSP2 genes share similar intron/exon organization. They are localizedon human chromosome 22q12 and chromosome 17, respectively. Like FYVE-DSP1, recombinant FYVE-DSP2 dephosphorylated low-molecular-weight phosphatase substrate para-nitrophenylphosphate, and its activity was inhibited by sodium vanadate. More importantly, our study also revealed that both FYVE-DSP1 and FYVE-DSP2 efficiently and specifically dephosphorylated phosphotidylinositol 3-phosphate. Subcellular fractionation demonstrated partition of FYVE-DSP1 and FYVE-DSP2 in membrane fractions, and immunofluorescent cell staining showed perinuclear localization of the enzymes. FYVE-DSP2 is expressed in many human tissues with an alternatively spliced isoform expressed in the kidney. Together with two homologous hypothetical proteins found in Caenorhabditis elegans and Drosophila, FYVE-DSP1 and FYVE-DSP2 form a subfamilyof phosphatases that may have an importantrole in cellular processes.
Copyright 2001 Academic Press.