Identification of a novel c-DNA overexpressed in Fanconi's anemia fibroblasts partially homologous to a putative L-3-phosphoserine-phosphatase.

We applied the cDNA differential display technique (DDT) in a DNA-repair deficient cell model to isolate genes involved in dysregulation of cell proliferation and development of cancer. The comparative analysis of mRNA expression patterns of human diploid fibroblasts from Fanconi's amemia (FA) and normal phenotype led to the identification of a novel cDNA CO9. Northern blot analysis reveals that CO9 is significantly upregulated in FA fibroblasts but downregulated or absent in fibroblasts from normal donors. CO9 was also highly expressed in FA B-cells of complementation group A and in Raji cells. However, CO9 is not expressed in FA complementation groups B, C, D and E. The full-length cDNA is 840 bp long and contains an open reading frame of 216 bp (72 amino acids), which encodes for a 7.6-kDa protein. The lengths of the 5' and 3' untranslated region are 165 and 459 bp, respectively. The N-terminal and C-terminal nucleotide sequence of CO9 shows homology to a putative human L-3-phosphoserine phosphatase identified recently (HSPSPASE, EMBL Accession No. Y10275) but lacks a 476-bp stretch in the open reading frame. The loss of nucleotides within the open reading frame introduces a new termination codon in the CO9 cDNA along with a novel COOH terminus resulting in a new protein product. Database chromosome mapping localized CO9 to chromosome 7q 11.2. We hypothesize that CO9 represents a novel protein being a partial homologue to the L-3-phosphoserine phosphatase but with a different regulatory cell function.