Abstract: The invention provides isolated Pre-Ligand Assembly Domain (PLAD) polypeptides comprising an amino acid sequence of a domain (e.g., a Fibronectin Ill-like domain) of an IL-17 Receptor (IL-17R) family member, wherein the PLAD polypeptide inhibits multimerization of a receptor complex comprising an IL-17R family member. Also provided are isolated PLAD-binding polypeptides, e.g., antibodies and avimers, which specifically bind to a PLAD polypeptide described herein. Related chimeric proteins, conjugates, nucleic acids, vectors, and host cells are provided herein. Further provided are methods of treating an inflammatory or autoimmune disease, methods of inhibiting IL-17-mediated signal transduction, methods of inhibiting IL-17 ligand binding, methods of inhibiting multimerization of IL-17R complexes, and methods of inhibiting the production of at least one cytokine, chemokine, matrix metalloproteinase, or other molecule associated with IL-17 signal transduction are provided.

Abstract: Disclosed is a process for preparing a pharmacologically active compound, in which at least one internal conjugation site of an Fc domain sequence is selected that is amenable to conjugation of an additional functional moiety by a defined conjugation chemistry through the side chain of an amino acid residue at the conjugation site. An appropriate amino acid residue for conjugation may be present in a native Fc domain at the conjugation site or may be added by insertion (i.e., between amino acids in the native Fc domain) or by replacement (i.e., removing amino acids and substituting different amino acids). In the latter case, the number of amino acids added need not correspond to the number of amino acids removed from the previously existing Fc domain. This technology may be used to produce useful compositions of matter and pharmaceutical compositions containing them.

Abstract: In one aspect, the disclosure provides a conjugate comprising an insulin molecule having an A-chain and a B-chain; an affinity ligand covalently bound to the A-chain; and a monovalent glucose binding agent covalently bound to the B-chain, wherein the affinity ligand competes with glucose for non-covalent binding with the monovalent glucose binding agent. In the absence of glucose, the monovalent glucose binding agent binds the affinity ligand to produce a “closed” inactive form of the insulin molecule. When free glucose is added, it competes with the affinity ligand for binding with the monovalent glucose binding agent to produce an “open” active form of the insulin molecule. The monovalent glucose binding agent and affinity ligand are covalently bound to the insulin molecule. The disclosure also provides methods of using these conjugates and methods of making these conjugates. In another aspect, the disclosure provides exemplary conjugates.

Abstract: The invention relates to the field of glycoprotein processing in transgenic plants used as cost efficient and contamination safe factories for the production of recombinant biopharmaceutical proteins or pharmaceutical compositions comprising these glycoproteins. The invention provides a plant comprising a functional mammalian enzyme providing mammalian GnTIII that is normally not present in plants, said plant additionally comprising at least a second mammalian protein or functional fragment thereof that is normally not present in plants.

Abstract: The present invention relates to binding agents for WISE, and includes for their manufacture and use.

Abstract: The present invention discloses a method for targeting maytansinoids to a selected cell population, the method comprising contacting a cell population or tissue suspected of containing the selected cell population with a cell-binding agent maytansinoid conjugate, wherein one or more maytansinoids is covalently linked to the cell-binding agent via a non-cleavable linker and the cell-binding agent binds to cells of the selected cell population.

Abstract: Methods for predicting a response to an erythropoietic agent in a subject include providing a biological sample from the subject, and determining an amount in the sample of at least one peptide selected from the group consisting of SEQ ID NOS: 1-17. If there is a measurable difference in the amount of the at least one peptide in the sample, when compared to a control level of the same peptide, the subject is then predicted to have a good response or a poor response to the erythropoietic agent. Kits for predicting a response to an erythropoietic agent are further provided and include one or more antibodies, or fragments thereof, that specifically recognize a peptide of SEQ ID NOS: 1-17.

Abstract: The present disclosure is directed to surface functionalized ceramic nanoparticles. The method for producing the surface functionalized ceramic nanoparticles generally includes at least four distinct steps: 1) synthesis of an amphiphilic surfactant having the desired surface functionality, 2) formation of mixed solvent microstructured solution with the surfactant, 3) synthesis of the desired ceramic within the microstructured solution, and 4) chemical attachment of the surfactant to the ceramic nanoparticle. The composition of the surface functionalized nanoparticle comprises a lipophilic component, a hydrophilic component, a chelating agent and a ceramic forming component.

Abstract: A biologically inactivated cell-specifically effective molecule for biologically inactive transfection into a target cell to inhibit expression of genes in the target cell after biological activation of the molecule, by bonding to mRNA and with the formation of a RISC complex, the biologically inactivated cell-specifically effective molecule comprising siRNA coupled with at least one peptide via a linker which remains at the siRNA after biological activation of the molecule, the linker comprising an amino Cn linker wherein n is an integer of 1-6. Kits include the molecule or the constituents thereof and transfection reagents in ampoules and injection equipment for injecting mixtures of the ampoule contents into a medium containing a target cell.

Abstract: The ionic conjugates include an inorganic particle electrostatically associated with a macromolecule which can interact specifically with predetermined chemical species or biological targets.

Abstract: Compositions comprising a cell expressing an AC133 cell surface antigen and an antibody, or antigen binding fragment thereof, that specifically binds to the antigen are provided. Expression of the antigen is highly tissue specific. It is detected on a subset of hematopoietic progenitor and stem cells derived from human bone marrow, fetal bone marrow and liver, cord blood and adult peripheral blood. The subset of cells recognized by AC133 is CD34bright and contains substantially all of the CFU-GM activity present in the CD34+ population. This highly specific distribution of AC133 makes it exceptionally useful as a reagent for isolating and characterizing human hematopoietic progenitor and stem cells. Cells selected for expression of AC133 antigen can be further purified by selection for other hematopoietic stem cell and progenitor cell markers.

Abstract: Provided herein in certain embodiments are antibodies, antibody fragments, pharmaceutical compositions, methods for modulating the functions of estrogen receptor alpha 36, and methods for preventing and/or treating diseases mediated by estrogen receptor alpha 36.

Abstract: The present invention provides molecules, including IgGs, non-IgG immunoglobulins, proteins and non-protein agents, that have increased in vivo half-lives due to the presence of an IgG constant domain, or a portion thereof that binds the FcRn, having one or more amino acid modifications that increase the affinity of the constant domain or fragment for FcRn. Such proteins and molecules with increased half-lives have the advantage that smaller amounts and or less frequent dosing is required in the therapeutic, prophylactic or diagnostic use of such molecules.

Abstract: This invention is related to preparation of photosensitive ruthenium based aminoacid monomers and oligomers, aminoacid monomer-protein cross-linking using photo sensitat ion and conjugation on micro and nano-structures by ruthenium-chelate based monomers. Its vast range biotechnolgy applications of multifunctional, biocompatible, stabilE and specific micro and nanobio-conjugates, which will stand-alone or simultaneously enable (i) both purification and determination, (ii) both targeting and imaging and theranostics and (iii) catalysis and determination. The construction and method of preparation is applicable to silica materials, superparamagnetic particles, QDs, CNTs, Ag/Au nanoparticles and Au surfaces and polymeric materials. The photosensitive aminoacid monomer linkers can react via chemically and biocompatible to a lot of different micro and nano-surface and then to the protein when they act as a single-step cross-linking reaction using irradiation.

Abstract: A bifunctional chelating agent of the formula (I): wherein the variables R1, R1?, Q1, Q2 and M are as defined in the description of the present application. Also described is a complex of the above chelating agent to an ion of a stable or radioactive metal; a conjugate of the complex covalently attached to a biological carrier; and a pharmaceutical composition containing the conjugate.

Abstract: A supramolecular approach has been developed for preparation of size-controllable nanoparticles, from three different molecular building blocks.

Abstract: The invention provides compositions and methods for treatment of amyloidogenic diseases. Such methods entail administering an agent that induces a beneficial immune response against an amyloid deposit in the patient. The methods are particularly useful for prophylactic and therapeutic treatment of Alzheimer's disease. In such methods, a suitable agent is A? peptide, active fragments thereof or an antibody thereto.

Abstract: The invention relates to anti-TNFR1 polypeptides, antibody single variable domains (dAbs), antagonists and multispecific ligands, as well as methods and uses of these. The anti-TNFR1 polypeptides, antibody single variable domains (dAbs), antagonists and multispecific ligands are useful for treating and/or preventing inflammatory disease, such as arthritis or COPD, as well as for pulmonary administration, oral administration, delivery to the lung and delivery to the GI tract of a patient.

Abstract: The present invention is directed to novel chimeric VEGF receptor proteins comprising amino acid sequences derived from the vascular endothelial growth factor (VEGF) receptors flt-1 and KDR, including the murine homologue to the human KDR receptor FLK-1, wherein said chimeric VEGF receptor proteins bind to VEGF and antagonize the endothelial cell proliferative and angiogenic activity thereof. The present invention is also directed to nucleic acids and expression vectors encoding these chimeric VEGF receptor proteins, host cells harboring such expression vectors, pharmaceutically acceptable compositions comprising such proteins, methods of preparing such proteins and to methods utilizing such proteins for the treatment of conditions associated with undesired vascularization.

Abstract: The present invention is directed to novel chimeric VEGF receptor proteins comprising amino acid sequences derived from the vascular endothelial growth factor (VEGF) receptors flt-1 and KDR, including the murine homologue to the human KDR receptor FLK-1, wherein said chimeric VEGF receptor proteins bind to VEGF and antagonize the endothelial cell proliferative and angiogenic activity thereof. The present invention is also directed to nucleic acids and expression vectors encoding these chimeric VEGF receptor proteins, host cells harboring such expression vectors, pharmaceutically acceptable compositions comprising such proteins, methods of preparing such proteins and to methods utilizing such proteins for the treatment of conditions associated with undesired vascularization.

Abstract: The present invention relates to the provision of novel immunogens comprising an antigenic IgE peptide preferably linked to an immunogenic carrier, compositions comprising the immunogens, and methods for the prevention, treatment or alleviation of IgE-mediated disorders. The invention further relates to methods for production of these medicaments, immunogenic compositions and pharmaceutical compositing thereof and their use in medicine.

Abstract: Cysteine engineered antibodies comprising a free cysteine amino acid in the heavy chain or light chain are prepared by mutagenizing a nucleic acid sequence of a parent antibody and replacing one or more amino acid residues by cysteine to encode the cysteine engineered antibody; expressing the cysteine engineered antibody; and isolating the cysteine engineered antibody. Certain highly reactive cysteine engineered antibodies were identified by the PHESELECTOR assay. Isolated cysteine engineered antibodies may be covalently attached to a capture label, a detection label, a drug moiety, or a solid support.

Abstract: The present invention relates to novel isolated antibodies, derived compounds, and functional isolated antibody fragments, capable of inhibiting the proliferation of tumor cells in vitro and/or in vivo and obtained by functional screening. More particularly, the present invention relates to the 6F4 antibody, specific to the JAM-A protein, as well as its use for the treatment of cancer. Pharmaceutical compositions composed of these antibodies are also covered.

Abstract: Antibody compositions and methods for treatment of neoplastic disease in a mammalian subject are provided. Methods of diagnosing cancer in a mammalian subject are also provided.

Abstract: The present invention relates to bispecific antibodies, methods for their production, pharmaceutical compositions containing said antibodies, and uses thereof.

Abstract: The inventors discovered that the adhesion molecule CAR, known to be localized in intracellular adhesion sites, functioned as an adhesion molecule for activated lymphocytes. Further, the inventors identified CARL, a novel CAR ligand expressed in lymphocytes, and clarified that the ligand was expressed selectively in Th1 cells. In addition, they found that anti-CAR antibodies could inhibit the adhesion of activated lymphocytes to CAR molecules. Thus, the present invention provides methods for detecting Th1 cells using CAR or anti-CARL antibodies, and methods of screening for inhibitors suppressing the adhesion of Th1 cells using the binding between CAR and CARL as an index. Furthermore, the present invention relates to methods of screening for inhibitors of the binding between CAR and CARL, antibodies that inhibit the binding between CAR and CARL, and therapeutic compositions comprising these antibodies.

Abstract: The present invention provides a neurosecretory protein VGF peptide useful in qualifying Alzheimer's disease status in a patient. In particular, this peptide and modified forms thereof may be used to classify a subject sample as Alzheimer's disease or non-Alzheimer's disease. The peptide biomarker can be detected by SELDI mass spectrometry.

Abstract: The invention generally relates to optimized drug conjugates.

Abstract: Disclosed are methods and compositions for efficiently expressing antibody fusion proteins. Antibody fusion proteins of the invention include a hybrid antibody moiety containing sequences from more than one type of antibody and/or mutant antibody sequences. Hybrid antibody fusion proteins of the invention may be produced at high levels and may combine functional properties characteristic of different antibody types in addition to functional properties of a non-antibody moiety.

Abstract: A method to treat conditions associated with A? peptide activity both prophylactically and therapeutically is described. The method employs humanized antibody fragments that specifically bind human A? peptide between amino acid positions 13-28, wherein the antibody fragments are covalently attached to a polyethylene glycol (PEG) molecule.

Abstract: Disclosed are CD70 binding agents, such as humanized anti-CD70 antibodies and fragments and derivatives, that exert a cytotoxic, cytostatic or immunomodulatory on CD70 expressing cells, as well as pharmaceutical compositions and kits comprising the antibody, fragment or derivative. Also disclosed are methods for the treatment of CD70-expressing cancers and immunological disorders, comprising administering to a subject the CD70 binding agents or pharmaceutical compositions.

Abstract: Divalent antibody fragments are described, each of which has one or more interchain bridges containing a synthetic or naturally occurring polymer selected from a polyalkylene, polyakenylene, polyoxyalkylene or polysaccharide. Each bridge may be the residue of a homo- or heterobifunctional cross-linking reagent and serves to link two heavy chains in each antibody fragment via the sulphur atoms of cysteine residues present in the chains. Each fragment may be attached to one or more effector or reporter molecules, and is of use in therapy or diagnostics where it has markedly improved binding and/or pharmacokinetic properties when compared to other antibody fragments which have the same number and type of polymer molecules but in which the polymer molecules are randomly attached.

Abstract: Compounds relating to attachment chemistries for binding biomolecules to a substrate surface are described. These include compounds of the following structure: The biomolecule includes a single nucleic acid, oligonucleotides, polynucleotides, DNAs, RNAs, proteins, peptides, enzymes, antibodies, CNAs (cyclohexyl nucleic acids), p-MeNAs (methyl or methoxy phosphate nucleic acids), peptide nucleic acids (PNAs), and pyranosyl RNAs (p-RNAs).

Abstract: Anti-EGFR antibodies, therapeutic compositions comprising combinations of anti-EGFR antibodies, as well as methods for using such antibodies and compositions to treat EGFR-related disorders (e.g., cancers), are disclosed.

Abstract: A novel gene 0161P2F10B (also designated 161P2F10B) and its encoded protein, and variants thereof, are described wherein 161P2F10B exhibits tissue specific expression in normal adult tissue, and is aberrantly expressed in the cancers listed in Table I. Consequently, 161P2F10B provides a diagnostic, prognostic, prophylactic and/or therapeutic target for cancer. The 161P2F10B gene or fragment thereof, or its encoded protein, or variants thereof, or a fragment thereof, can be used to elicit a humoral or cellular immune response; antibodies or T cells reactive with 161P2F10B can be used in active or passive immunization.

Abstract: The present invention provides antibodies (e.g., IgG antibodies) having C-terminal cysteine-containing extensions that facilitate antibody conjugation to a partner molecule (e.g. a drug, toxin, marker molecule, protein, radioisotope, or other therapeutic agent). Methods of making, screening and selecting the antibodies of the invention are provided.

Abstract: The present invention is directed to a high affinity T cell receptor (TCR) against a tumor-associated antigen, an isolated nucleic acid molecule encoding same, a T cell expressing said TCR, and a pharmaceutical composition for use in the treatment of diseases involving malignant cells expressing said tumor-associated antigen.

Abstract: Proteins that bind IL-1? and IL-1? are described along with their use in compositions and methods for treating, preventing, and diagnosing IL-1-related disorders and for detecting IL-1? and IL-1? in cells, tissues, samples, and compositions.

Abstract: The present invention relates to amino acid sequences that are directed against receptors for growth factors, compounds comprising such sequences, as well as nucleic acid sequences encoding the same. In one embodiment the invention relates to amino acid sequences that bind to a receptor tyrosine kinase. The receptor tyrosine kinase and/or growth factor receptor may be of human origin. In one embodiment the amino acid sequences are Nanobodies™.

Abstract: Hepatocyte growth factor (HGF) receptor antagonists are provided. The HGF receptor antagonists include HGF receptor antibodies and fragments thereof. The HGF receptor antagonists can be employed to block binding of HGF to HGF receptors or substantially inhibit HGF receptor activation. The HGF receptor antagonists may be included in pharmaceutical compositions, articles of manufacture, or kits. Methods of treating cancer using the HGF receptor antagonists are also provided.

Abstract: In some embodiments, the present invention pertains to a method for conjugating a first compound to a second compound wherein the conjugation involves an electrophilic moiety. The method comprises reacting the first compound with the second compound to form a conjugate. The improvement in embodiments of the present invention comprises adding a nucleophilic reagent to the conjugate wherein the nucleophilic reagent forms a neutral product upon reaction with unreacted electrophilic moieties of the conjugate. In some embodiments, the nucleophilic reagent is substantially non-reactive with disulfide bonds in the event that the conjugate comprises disulfide bonds. The conjugate formed is doubly deactivated because the other moiety for linking to the electrophilic moiety is also deactivated.

Abstract: The invention relates to antibody molecules having specificity for antigenic determinants of IL-17, therapeutic uses of the antibody molecules and methods for producing said antibody molecules.

Abstract: The invention relates to the fields of materials sciences and medicine and relates to an agent, which can be used, for example, as a contrast medium for the localization of cancer cells. The object of the present invention is to disclose an agent which sensitively and selectively recognizes the site and the type of the molecules or cells to be examined. The object is attained through an agent composed at least of bio-shuttle molecules to which endohedral fullerenes are coupled by way of peptide-based molecules, wherein the endohedral fullerenes are hydrophobic and correspond to the formula A3-xMxZ@C2n in which x=0 to 3 and n?34, A means rare earths and/or transuranic elements, M means metals, Z means non-metals and C means carbon. The object is further attained through a method in which hydrophobic endohedral fullerenes are coupled with bio-shuttle molecules by way of an irreversible Diels-Alder reaction with an inverse electron demand (DARinv).

Abstract: The claimed invention provides a fusion polypeptide comprising a fibrous protein domain and a mineralization domain. The fusion is used to form an organic-inorganic composite. These organic-inorganic composites can be constructed from the nano- to the macro-scale depending on the size of the fibrous protein fusion domain used. In one embodiment, the composites can also be loaded with other compounds (e.g., dyes, drugs, enzymes) depending on the goal for the materials, to further enhance function. This can be achieved during assembly of the material or during the mineralization step in materials formation.

Abstract: The present invention provides a compound consisting essentially of the following elements: one or more reactive groups; and two or more cross-linked antibodies or fragments thereof; characterised in that the or each reactive group is suitable for attaching an effector molecule but does not react with any of the antibodies or fragments thereof.

Abstract: The present invention relates to a new class of modified antibody fragments. The present invention provides an antibody fragment to which one or more effector molecules is attached characterized in that the native interchain disulphide bond between the heavy (CHI) and light (CL) chain constant regions is absent and the heavy chain (CHI) and light chain (CL) constant regions are linked by an interchain disulphide bond between a pair of engineered cysteines, one in the light chain constant (CL) region and the other in the heavy chain constant (CHI) region.

Abstract: Described are human binding molecules specifically binding to enterococci and having killing activity against enterococci, nucleic acid molecules encoding the human binding molecules, compositions comprising the human binding molecules and methods of identifying or producing the human binding molecules. The human binding molecules can be used in the diagnosis, prophylaxis, and/or treatment of a condition resulting from Enterococcus.

Abstract: An anchoring/capturing system for selecting or analyzing a CHO cell according to a product secreted by the CHO cell is described. The anchoring/capturing system comprises a first antibody or a first antigen-binding fragment for anchoring to the extracellular surface of the CHO cell, and a second antibody or a second antigen-binding fragment for binding the secreted product. Uses and methods involving the anchoring/capturing system are provided.

Abstract: The present invention relates to an immunoliposome preparation or a hydrophobic molecule-modified antibody having a therapeutic effect on cancer, autoimmune disease, or inflammatory disease. Specifically, the present invention relates to an immunoliposome or a hydrophobic molecule-modified antibody comprising, as a constituent, an antibody capable of inducing the apoptosis of cells expressing a death domain-containing receptor.

Abstract: The present invention provides isolated M. tuberculosis protein that is a putative Ketol-acid reductoisomerase (KARI; SEQ ID NO: 1) and immunogenic peptide fragments thereof, and antibodies produced against the full-length protein and immunogenic peptide fragments for the diagnosis of tuberculosis and/or infection by one or more mycobacteria of the M. tuberculosis complex in humans, for example using an antigen-based sandwich ELISA format. The present invention also provides multianalyte assays in which the KARI-based diagnostic assays of the present invention are multiplexed with the detection of one or more immunogenic epitopes from one or more other proteins of said mycobacteria e.g., anyone of SEQ IDS NOs: 2, 14, 21, 28-29, 36, or 44, including any combinations thereof.