Prune cAMP phosphodiesterase binds nm23-H1 and promotes cancer metastasis.

We identify a new enzymatic activity underlying metastasis in breast cancer and describe its susceptibility to therapeutic inhibition. We show that human prune (h-prune), a phosphoesterase DHH family appertaining protein, has a hitherto unrecognized cyclic nucleotide phosphodiesterase activity effectively suppressed by dipyridamole, a phosphodiesterase inhibitor. h-prune physically interacts with nm23-H1, a metastasis suppressor gene. The h-prune PDE activity, suppressed by dipyridamole and enhanced by the interaction with nm23-H1, stimulates cellular motility and metastasis processes. Out of 59 metastatic breast cancer cases analyzed, 22 (37%) were found to overexpress h-prune, evidence that this novel enzymatic activity is involved in promoting cancer metastasis.

Telencephalic embryonic subtractive sequences: a unique collection of neurodevelopmental genes.

The vertebrate telencephalon is composed of many architectonically and functionally distinct areas and structures, with billions of neurons that are precisely connected. This complexity is fine-tuned during development by numerous genes. To identify genes involved in the regulation of telencephalic development, a specific subset of differentially expressed genes was characterized. Here, we describe a set of cDNAs encoded by genes preferentially expressed during development of the mouse telencephalon that was identified through a functional genomics approach. Of 832 distinct transcripts found, 223 (27%) are known genes. Of the remaining, 228 (27%) correspond to expressed sequence tags of unknown function, 58 (7%) are homologs or orthologs of known genes, and 323 (39%) correspond to novel rare transcripts, including 48 (14%) new putative noncoding RNAs. As an example of this latter group of novel precursor transcripts of micro-RNAs, telencephalic embryonic subtractive sequence (TESS) 24.E3 was functionally characterized, and one of its targets was identified: the zinc finger transcription factor ZFP9. The TESS transcriptome has been annotated, mapped for chromosome loci, and arrayed for its gene expression profiles during neural development and differentiation (in Neuro2a and neural stem cells). Within this collection, 188 genes were also characterized on embryonic and postnatal tissue by in situ hybridization, demonstrating that most are specifically expressed in the embryonic CNS. The full information has been organized into a searchable database linked to other genomic resources, allowing easy access to those who are interested in the dissection of the molecular basis of telencephalic development.

SPINK5, the defective gene in netherton syndrome, encodes multiple LEKTI isoforms derived from alternative pre-mRNA processing.

The multidomain serine protease inhibitor lymphoepithelial Kazal-type related inhibitor (LEKTI) represents a key regulator of the proteolytic events occurring during epidermal barrier formation and hair development, as attested by the severe autosomal recessive ichthyosiform skin condition Netherton syndrome (NS) caused by mutations in its encoding gene, serine protease inhibitor Kazal-type 5 (SPINK5). Synthesized as a proprotein, LEKTI is rapidly cleaved intracellularly, thus generating a number of potentially bioactive fragments that are secreted. Here, we show that SPINK5 generates three classes of transcripts encoding three different LEKTI isoforms, which differ in their C-terminal portion. In addition to the previously described 15 domain isoform, SPINK5 encodes a shorter LEKTI isoform composed of only the first 13 domains, as well as a longer isoform carrying a 30-amino-acid residue insertion between the 13th and 14th inhibitory domains. We demonstrate that variable amounts of SPINK5 alternative transcripts are detected in all SPINK5 transcriptionally active tissues. Finally, we show that in differentiated cultured human keratinocytes all SPINK5 alternative transcripts are translated into protein and that the LEKTI precursors generate distinct secreted C-terminal proteolytic fragments from a similar cleavage site. Since several data indicate a biological role for the pro-LEKTI-cleaved polypeptides, we hypothesize that the alternative processing of the SPINK5 pre-messenger RNA represents an additional mechanism to further increase the structural and functional diversity of the LEKTI bioactive fragments.

Overexpression of h-prune in breast cancer is correlated with advanced disease status.

PURPOSE: The h-prune gene is involved in cellular motility and metastasis formation in breast cancer through interacting with the nm23-H1 protein. The aim of this study was to better define the clinical and pathologic role of h-prune in breast cancer patients. EXPERIMENTAL DESIGN: Using immunohistochemistry, we assessed h-prune and nm23-H1 protein expression in two series of breast cancer patients: (i) in 2,109 cases with pathologic reports on primary tumors and (ii) in 412 cases with detailed clinical information. To assess the role of DNA amplification in gene activation, the h-prune copy number was evaluated by fluorescence in situ hybridization analysis in 1,016 breast cancer cases. RESULTS: In the patients tested (n = 2,463), 1,340 (54%) had an increased level of h-prune expression; a positive immunostaining for nm23-H1 was observed in 615 of 2,061 (30%) cases. Overexpression of h-prune was associated with multiple gene copy number at chromosome 1q21.3 in a very limited fraction of cases (68 of 1,016; 6.7%), strongly indicating that alternative pathways induce h-prune activation in breast cancer. Multivariate Cox regression analysis showed that neither h-prune overexpression nor decreased nm23-H1 immunostaining is independent prognostic factors. However, a significant association of h-prune overexpression with either advanced lymph node status (P = 0.017) or presence of distant metastases (P = 0.029) was observed. CONCLUSIONS: Although not significantly correlated with overall survival, positive h-prune immunostaining identifies subsets of breast cancer patients with higher tumor aggressiveness. Further investigations using larger collections of advanced breast cancer patients are required for assessing the predictive role of h-prune in breast cancer.