Abstract: The present invention relates to a method of identifying urokinase plasminogen activator (uPA) antibodies. The invention also relates to antibodies that are capable of binding uPA and which are capable of reducing or inhibiting uPA activity. Furthermore, the invention relates to uses for such antibodies, such as therapeutic and pharmaceutical uses.

Abstract: The present invention relates to a method of identifying urokinase plasminogen activator (uPA) antibodies. The invention also relates to antibodies that are capable of binding uPA and which are capable of reducing or inhibiting u PA activity. Furthermore, the invention relates to uses for such antibodies, such as therapeutic and pharmaceutical uses.

Abstract: Cells are genetically modified to express a luminophore, e.g., a modified (F64L, S65T, Y66H) Green Fluorescent Protein (GFP, EGFP) coupled to a component of an intracellular signalling pathway such as a transcription factor, a cGMP- or cAMP-dependent protein kinase, a cyclin-, calmodulin- or phospholipid-dependent or mitogen-activated serine/threonin protein kinase, a tyrosine protein kinase, or a protein phosphatase (e.g. PKA, PKC, Erk, Smad, VASP, actin, p38, Jnk1, PKG, IkappaB, CDK2, Grk5, Zap70, p85, protein-tyrosine phosphatase 1C, Stat5, NFAT, NFkappaB, RhoA, PKB). An influence modulates the intracellular signalling pathway in such a way that the luminophore is being redistributed or translocated with the component in living cells in a manner experimentally determined to be correlated to the degree of the influence.

Abstract: A method for screening a library of compounds to detect a biologically active compound that modulates intracellular translocation of a subunit of a component of an intracellular pathway affecting intracellular processes includes: culturing one or more cells containing a nucleotide sequence coding for a hybrid polypeptide comprising a luminophore linked to the subunit of the component; introducing a compound of the library of compounds into the cell culture; screening the compound to determine whether the compound modulates the intracellular translocation of the subunit of the component; measuring light emitted from the luminophore to determine a first distribution; measuring light emitted from the luminophore to determine a second distribution; computing a variation between the first distribution and the second distribution by processing the measured light, any variation is indicative that the compound is biologically active. The method is also performed with a library of compounds.

Abstract: Cells are genetically modified to expresss a luminophore, e.g., a modified (F64L, S65T, Y66H) Green Fluorescent Protein (GFP, EGFP) coupled to a component of an intracellular signalling pathway such as a transcription factor, a cGMP- or cAMP-dependent protein kinase, a cyclin-, calmodulin- or phospholipid-dependent or mitogen-activated serine/threonin protein kinase, a tyrosine protein kinase, or a protein phosphatase (e.g. PKA, PKC, Erk, Smad, VASP, actin, p38, Jnk1, PKG, IkappaB, CDK2, Grk5, Zap70, p85, protein-tyrosine phosphatase 1C, Stat5, NFAT, NFkappaB, RhoA, PKB). An influence modulates the intracellular signalling pathway in such a way that the luminophore is being redistributed or translocated with the component in living cells in a manner experimentally determined to be correlated to the degree of the influence.

Abstract: Cells are genetically modified to express a luminophore, e.g., a modified (F64L, S65T, Y66H) Green Flourescent Protein (GFP, EGFP) coupled to a component of an intracellular signalling pathway such as a transcription factor, a cGMP- or cAMP-dependent protein kinase, a cyclin-, calmodulin- or phospholipid-dependent or mitogen-activated serine/threonin protein kinase, a tryosine protein kinase, or a protein phosphatase (e.g. PKA, PKC, Erk, Smad, VASP, actin, p38, Jnkl, PKG, IkappaB, CDK2, Grk5, Zap70, p85, protein-tyrosine phosphatase 1C, Stat5, NFAT, NFkappaB, RhoA, PKB). An influence modulates the intracellular signaling pathway in such a way that the luminophore is being redistributed or translocated with the component in living cells in a manner experimentally determined to be correlated to the degree of influence.