Abstract: The present invention provides protein fragment complementation assays for drug discovery, in particular to identify compounds that activate or inhibit cellular pathways. Based on the selection of an interacting protein pair combined with an appropriate PCA reporter, the assays may be run in high-throughput or high-content mode and may be used in automated screening of libraries of compounds. The interacting pair may be selected by cDNA library screening; by gene-by-gene interaction mapping; or by prior knowledge of a pathway. Fluorescent and luminescent assays can be constructed using the methods provided herein. The selection of suitable PCA reporters for high-throughput or high-content (high-context) assay formats is described for a diversity of reporters, with particular detail provided for examples of monomeric enzymes and fluorescent proteins.

Abstract: The invention relates to Inter-alpha inhibitor proteins (I?Ip). The invention further relates to processes for purification of I?Ip compositions and their use for treatment of human diseases such as sepsis and septic shock, rheumatoid arthritis, cancer and infectious diseases.

Abstract: The present invention describes rapid methods to screen for biomolecular interactions in vivo based on protein fragment complementation assays (PCA). We have demonstrated an in vivo library-versus-library screening strategy that has numerous applications in the identification of novel protein-protein interactions and in directed evolution. Also we demonstrate the detection of protein-protein interactions starting with defined (full-length) cDNAs, and the concomitant generation of functional assays that provide initial validation of the cDNA products as being biologically relevant. Also, we screened a large cDNA collection using automated PCA, combined with quantitative detection of protein-protein complexes. The invention enables bait-vs.-library, library-vs.-library and defined gene screening in any type of cell or cellular context, and using a wide range of reporters and detection methods.

Abstract: The present invention provides a composite material comprising lactoferrin and a bioactive glass. The invention also relates to pharmaceutical compositions containing the composite material. Further aspects of the invention relate to the use of the composite material of the for treating a wound, treating or preventing bacterial or viral infections in a wound, preventing viral transmission, regenerating bone, treating osteoporosis, preventing or alleviating bleeding in a wound, sterilising a wound and/or controlling haemorrhaging.

Abstract: The present invention describes a rapid and efficient in vivo library-versus-library screening strategy for identifying optimally interacting pairs of heterodimerizing polypeptides. It allows for the screening of a protein library against a second protein library, rather than against a single bait protein, and thus has numerous applications in the study of protein-protein interactions. Additionally, it allows for the application of different selection stringencies. Two leucine zipper libraries, semi-randomized at the positions adjacent to the hydrophobic core, were genetically fused to either one of two designed fragments of the enzyme murine dihydrofolate reductase (mDHFR), and cotransformed into E. coli. Interaction between the library polypeptides was required for reconstitution of the enzymatic activity of mDHFR, allowing bacterial growth.

Abstract: A method of assaying protein-protein interactions associated with proteins involved in lipid pathways using a protein fragment complementation assays, said method comprising the steps of: (a) identifying protein molecules that interact with said protein associated with lipid pathways; (b) selecting a protein reporter molecule; (c) effecting fragmentation of said protein reporter molecule such that said fragmentation results in reversible loss of reporter function; (d) fusing or attaching fragments of said protein reporter molecule separately to said interacting protein molecules as defined in step (a); (e) transfecting cells with nucleic acid constructs coding for the products of step (d); (f) reassociating said reporter fragments through interactions of the protein molecules that are fused or attached to said fragments; and (g) measuring directly or Indirectly the activity of said reporter molecule resulting from the reassociation of said reporter fragments.

Abstract: The present invention describes a rapid and efficient in vivo library-versus-library screening strategy for identifying optimally interacting pairs of heterodimerizing polypeptides. It allows for the screening of a protein library against a second protein library and therefore finds numerous applications in the study of protein-protein interactions. Two leucine zipper libraries, semi-randomized at the positions adjacent to the hydrophobic core, were genetically fused to either one of two designed fragments of the enzyme murine dihydrofolate reductase (mDHFR), and cotransformed into E. coli. Interaction between the library polypeptides was required for reconstitution of the enzymatic activity of mDHFR, allowing bacterial growth. Using more weakly associating mDHFR fragments, we increased the stringency of selection. We applied these selection processes to a library-versus-library sample of 2.

Abstract: A laminated sprinkler needle for introduction of liquids into an animal and extraction of fluids from an animal comprising a substrate, a micromachined photoresist layer, and a microporous layer is described. The structure is of simple construction and fabrication and provides much higher flow rates than standard hollow cannula.

Abstract: The invention provides a method of screening a candidate drug, a compound library or a biological extract to identify activators or inhibitors of G-protein-coupled receptors or G-protein-coupled pathways, comprising: (A) using a fluorescent protein fragment complementation assay to construct an assay for one or more steps in a G-protein-coupled pathway; (B) testing the effects of the candidate drugs, compound library, or biological extract on the receptor or pathway of interest; and (C) using the results of the screening to identify specific agents that activate or inhibit the receptor or pathway of interest. The invention also provides a method for identifying a drug lead that modulates the activity of a G-protein-coupled pathway using a fluorescent protein fragment complementation assay. The method of the invention is used to identify agonists, antagonists, activators or inhibitors of G-protein coupled receptors or G-protein-coupled pathways.

Abstract: The cell-based assays described in the present invention can be used to directly assess the sensitivity and specificity of the gene annotation reagent against its target, and to determine if a non-targeted gene participates in a pathway of interest or is functionally linked to another gene or protein. The combination of annotation reagents with such cell-based assays is useful for mapping genes (proteins) into cellular pathways on a genome-wide scale. Preferred assay embodiments include fluorescence or luminescence assays in intact (live or fixed) cells. Such fluorescence or luminescence assays include high-throughput or high-content assays for protein activity, subcellular localization, post-translational modifications, or interactions of proteins. Suitable assays may include protein-protein interaction assays; protein translocation assays; and post-translational modification assays.

Abstract: The instant invention describes a method for detecting protein-protein interactions in living organisms and/or cells, said method comprising: (a) synthesizing probe protein fragments from a protein which enables fluorescent or luminescent detection by dissecting the gene coding for the fluorescent or luminescent protein into a least two fragments; (2) constructing fusion proteins consisting of the probe protein fragments linked to protein domains that are to be tested for interactions; (3) coexpressing the fusion proteins; and (d) detecting reconstitution of the fluorescence or luminescence signal.

Abstract: This invention provides principles, methods and compositions for ascertaining the mechanism of action of pharmacologically important compounds in the context of network biology, across the entire scope of the complex pathways of living cells. Importantly, the principles, methods and compositions provided allow a rapid assessment of the on-pathway and off-pathway effects of lead compounds and drug candidates in living cells, and comparisons of lead compounds with well-characterized drugs and toxicants to identify patterns associated with efficacy and toxicity. The invention will be useful in improving the drug discovery process, in particular by identifying drug leads with desired safety and efficacy and in effecting early attrition of compounds with potential adverse effects in man.

Abstract: The present invention is directed to Protein-fragment Complementation Assays (PCAs) and assay compositions based on fluorescent proteins. The invention provides methods for fragmenting fluorescent proteins and generating mutant fragments with desired spectral characteristics for PCA. The invention encompasses assays and compositions based on fluorescent proteins from the species Aequorea, Anemonia and Anthozoa. In particular, the invention is directed to fragments of mutant fluorescent proteins having improved spectral properties over the wild-type proteins. The invention encompasses fragments of mutant versions of A. Victoria green fluorescent protein (GFP), in particular yellow fluorescent proteins (EYFP and super-EYFP), ‘Venus’, cyan, ‘citrine’, blue, cyan-green, and photoactivatable variants of GFP.

Abstract: The present invention describes a method for detecting biomolecular interactions said method comprising: (a) selecting an appropriate reporter molecule selected from the group consisting of a protein, a fluorescent protein, a luminescent protein and a phosphorescent protein; (b) effecting fragmentation of said reporter molecule such that said fragmentation results in reversible loss of reporter function; (c) fusing or attaching fragments of said reporter molecule separately to other molecules; followed by (d) reassociation of said reporter fragments through interactions of the molecules that are fused to said fragments; and (e) detecting said biomolecular interactions by reconstitution of activity of the reporter molecule.

Abstract: The present invention provides protein fragment complementation assays for drug discovery, in particular to identify compounds that activate or inhibit cellular pathways. Based on the selection of an interacting protein pair combined with an appropriate PCA reporter, the assays may be run in high-throughput or high-content mode and may be used in automated screening of libraries of compounds. The interacting pair may be selected by cDNA library screening; by gene-by-gene interaction mapping; or by prior knowledge of a pathway. Fluorescent and luminescent assays can be constructed using the methods provided herein. The selection of suitable PCA reporters for high-throughput or high-content (high-context) assay formats is described for a diversity of reporters, with particular detail provided for examples of monomeric enzymes and fluorescent proteins.

Abstract: This invention provides principles, methods and compositions for ascertaining the mechanism of action of pharmacologically important compounds in the context of network biology, across the entire scope of the complex pathways of living cells. Importantly, the principles, methods and compositions provided allow a rapid assessment of the on-pathway and off-pathway effects of lead compounds and drug candidates in living cells, and comparisons of lead compounds with well-characterized drugs and toxicants to identify patterns associated with efficacy and toxicity. The invention will be useful in improving the drug discovery process, in particular by identifying drug leads with desired safety and efficacy and in effecting early attrition of compounds with potential adverse effects in man.

Abstract: The present invention provides protein single-color and multi-color protein fragment complementation assays for drug discovery, in particular to identify compounds that activate or inhibit cellular pathways. Based on the selection of an interacting protein pair combined with an appropriate PCA reporter such as monomeric enzymes and fluorescent proteins, the assays may be run in high-throughput or high-content mode and may be used in automated screening of libraries of compounds. Methods are described for constructing such assays for one or more steps in a biochemical pathway; testing the effects of compounds from combinatorial, natural product, peptide, antibody, nucleic acid or other diverse libraries on the protein or pathway(s) of interest; and using the results of the screening to identify specific compounds that activate or inhibit the protein or pathway(s) of interest. The development of such assays provides for a broad, flexible and biologically relevant platform for drug discovery.

Abstract: The present invention discloses a method of treating an individual or animal with diabetes and/or obesity. The method comprises administering to the individual or animal a therapeutically effective amount of a protein tyrosine kinase inhibitor. Preferably, the preventative and therapeutic methods of the present invention involve administering—to a mammal in need thereof—a therapeutically effective amount of an inhibitor of a c-Src-family protein tyrosine kinase. The invention pertains to pharmaceutical compositions containing an inhibitor of a c-Src-family protein tyrosine kinase or an analog or metabolite thereof, or an inhibitor of another protein tyrosine kinase, and a pharmaceutically acceptable carrier. Purines and pyrimidines and other molecules useful in the treatment of diabetes and obesity are provided herein, in particular, pyrazolopyrimidines, cyanoquinolines, phenylaminopyrimidines, anilinoquinazolines and related compounds.

Abstract: The screening system utilizes dynamic measurements of pathway activity to detect the activities of drugs within cellular pathways. The methods of the invention can be used to identify previously unknown drug activities and therapeutic uses, even for drugs that have been well characterized with standard biochemical assays. We demonstrated the utility of the invention by screening a portion of the known pharmacopeia. We identified dozens of drugs, previously or currently marked for a variety of indications, with surprising and previously-unsuspected activity against ‘hallmark’ cancer pathways. We also showed that over 20 of these drugs indeed have anti-proliferative activity in human tumor cells, underscoring the utility and predictability of the screening system. The methodology will extend the utility of the current pharmacopeia and provide the basis for de novo discovery of drugs with a broad range of therapeutic indications.