Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human orthologue of the Drosophila prune protein (h-Prune) is an interaction partner and regulator of the metastasis suppressor protein NM23-H1 (non-metastatic protein 23). Studies on a cellular breast-cancer model showed that inhibition of the cAMP-specific PDE (phosphodiesterase) activity of h-Prune lowered the incidence of metastasis formation, suggesting that inhibition of h-Prune could be a therapeutic approach towards metastatic tumours. H-Prune shows no sequence similarity with known mammalian PDEs, but instead appears to belong to the DHH (Asp-His-His) superfamily of phosphoesterases. In order to investigate the structure and molecular function of h-Prune, we expressed recombinant h-Prune in a bacterial system. Through sequence analysis and limited proteolysis, we identified domain boundaries and a potential coiled-coil region in a C-terminal cortexillin homology domain. We found that this C-terminal domain mediated h-Prune homodimerization, as well as its interaction with NM23-H1. The PDE catalytic domain of h-Prune was mapped to the N-terminus and shown to be active, even when present in a monomeric form. Our findings indicate that h-Prune is composed of two independent active sites and two interaction sites for the assembly of oligomeric signalling complexes.
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PMID:Domain mapping on the human metastasis regulator protein h-Prune reveals a C-terminal dimerization domain. 1765 25

The combination of an increase in the cAMP-phosphodiesterase activity of h-prune and its interaction with nm23-H1 have been shown to be key steps in the induction of cellular motility in breast cancer cells. Here we present the molecular mechanisms of this interaction. The region of the nm23-h-prune interaction lies between S120 and S125 of nm23, where missense mutants show impaired binding; this region has been highly conserved throughout evolution, and can undergo serine phosphorylation by casein kinase I. Thus, the casein kinase I delta-epsilon specific inhibitor IC261 impairs the formation of the nm23-h-prune complex, which translates 'in vitro' into inhibition of cellular motility in a breast cancer cellular model. A competitive permeable peptide containing the region for phosphorylation by casein kinase I impairs cellular motility to the same extent as IC261. The identification of these two modes of inhibition of formation of the nm23-H1-h-prune protein complex pave the way toward new challenges, including translational studies using IC261 or this competitive peptide 'in vivo' to inhibit cellular motility induced by nm23-H1-h-prune complex formation during progression of breast cancer.
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PMID:Phosphorylation of nm23-H1 by CKI induces its complex formation with h-prune and promotes cell motility. 1790 97

The h-prune protein is a member of the DHH protein superfamily, and its overexpression in breast, colorectal and gastric cancers correlates with depth of invasion and degree of lymph-node metastasis. Taken together with the observation that h-prune is highly expressed in metastatic breast cancer, this suggests that h-prune can be used as a marker for the identification of subsets of cancer patients with highly aggressive tumours. H-prune possesses a phosphodiesterase (cAMP-PDE) activity, and inhibition of PDE activity with dipyridamole suppresses cell motility. H-prune interacts with nm23-H1, GSK-3beta and gelsolin. Although a correlation between an h-prune PDE activity and cellular motility has been shown, GSK-3beta does not affect the PDE activity of h-prune. Inhibition of the interactions between h-prune and GSK-3beta and nm23-H1 additively suppresses the migration of colon cancer and breast cancer cells, thus suggesting that h-prune regulates cell motility by two different means of action: through its PDE activity and in its interactions with protein partners. Therefore, the identification of highly specific inhibitors of h-prune should be useful in the development of drugs to treat cancer metastasis.
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PMID:Understanding h-prune biology in the fight against cancer. 1795 13

The human (h)-prune protein is a member of the DHH protein superfamily and it has a cAMP phosphodiesterase activity. Its overexpression in breast, colorectal and gastric cancers correlates with depth of invasion and a high degree of lymph-node metastasis. One mechanism by which h-prune stimulates cell motility and metastasis processes is through its phosphodiesterase activity, which can be suppressed by dipyridamole, a pyrimido[5,4-d]pyrimidine analogue. To obtain new and more potent agents that have high specificity towards inhibition of this h-prune activity, we followed structure-activity-relationship methodologies starting from dipyridamole and synthesised eight new pyrimido-pyrimidine derivatives. We analysed these newly generated compounds for specificity towards h-prune activities in vitro in cellular models using scintillation proximity assay for cAMP-PDE activity, cell index in cell proliferation assays and transwell methodology for two-dimensional cell migration in a top-down strategy of selection. Our findings show that two pyrimido[5,4-d]pyrimidine compounds are more effective than dipyridamole in two highly metastatic cellular models of breast cancer in vitro. Future studies will assess their therapeutic effectiveness against breast and other cancers where there is over-expression of h-prune, and in ad-hoc, proof of concept, animal models.
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PMID:Novel pyrimidopyrimidine derivatives for inhibition of cellular proliferation and motility induced by h-prune in breast cancer. 2305 42