Abstract: Modified bovine G-CSF polypeptides and uses thereof are provided.

Abstract: Provided herein are compositions, including pharmaceutical compositions, and methods for modulating, i.e., stimulating or inhibiting, activity of the alternative complement pathway, and methods of identifying factor H-binding proteins.

Abstract: The present disclosure provides light chain polypeptides that include a C-terminal extension, as well as antibodies and antibody conjugates containing such modified light chain polypeptides, where the C-terminal extension includes one or more cysteine residues. Conjugates that include an antibody of the present disclosure conjugated to an agent via the cysteine residue of the C-terminal amino acid extension are also provided. The present disclosure further provides nucleic acids encoding an antibody light chain polypeptide that includes a C-terminal amino acid extension including a cysteine residue. Pharmaceutical compositions including the antibodies or conjugates of the present disclosure are also provided, as are methods of making and use of the modified anti-bodies and conjugates of the present disclosure.

Abstract: A method for preparing a PRP conjugate having high storage stability and a method for producing a Hib conjugate vaccine are provided. A method for preparing PRP conjugate in accordance with the embodiments of the present invention is characterized by that the release of PRPs after preparing the PRP conjugate is suppressed by using PRP with a lowered molecular weight than native PRP for a coupling reaction between PRP and a carrier protein. Also, a Hib conjugate vaccine comprising as an antigen the PRP conjugate prepared by said method has excellent storage stability and maintain sufficient immunogenicity.

Abstract: A method for increasing the expression of PTPRD gene is provided, wherein the method comprises administering to a subject in need an effective amount of a peanut skin extract. The method is effective in preventing or treating diseases related to PTPRD gene.

Abstract: Provided herein are methods and compositions for treating a subject suffering from an enzyme deficiency in the central nervous system (CNS). The bifunctional fusion antibody provided herein comprise an antibody to an endogenous blood brain barrier (BBB) receptor and an enzyme deficient in mucopolysaccharidosis IIIB (MPS-IIIB). The fusion antibodies provided herein comprise alpha-N-acetylgulcosaminidase (NAGLU). The methods of treating an enzyme deficiency in the CNS comprise systemic administration of a fusion antibody provided herein.

Abstract: The present invention relates to a composition for the prevention or treatment of diabetes comprising a long-acting insulin conjugate and a long-acting insulinotropic peptide conjugate, and a therapeutic method for the treatment of diabetes, and more particularly, concurrent administration of the long-acting insulin conjugate and the long-acting insulinotropic peptide conjugate inhibits weight gain caused by insulin treatment, and vomiting and nausea caused by insulinotropic peptide treatment, and reduces the required dose of insulin, thereby remarkably improving drug compliance. Moreover, each of the long-acting insulin conjugate and the long-acting insulinotropic peptide conjugate of the present invention is prepared by linking insulin or insulinotropic peptide with an immunoglobulin Fc region via a non-peptidyl linker, thereby showing improved in-vivo duration of efficacy and stability.

Abstract: This invention is directed to composition, vaccines, tools and methods in the treatment and prevention of Bordetella pertussis. In particular, the invention is directed to a three-pronged approach that involves removal of the nonessential vaccine components, use of a nondenatured, genetically detoxified mutant, and adding virulence factors.

Abstract: A recombinant protein expressing one or more human growth factors, tumor antigens, and/or receptors or epitopes thereof on or within an immunogenic expression creating a recombinant protein in which one or more epitopes are presented on the surface of the sequence in their natural configuration. The growth factor, tumor antigen, and/or receptor, sequence(s) may be expressed within the encoding sequence at appropriate internal positions or at the termini as single expressions or as two or more tandem repeats.

Abstract: The present invention relates to a liquid formulation of a combination of long-acting insulin and insulinotropic peptide, comprising insulin which is a physiologically active peptide, insulinotropic peptide, and albumin-free stabilizer, wherein the stabilizer comprises a buffer, a sugar alcohol, a non-ionic surfactant, and an isotonic agent; and a method for preparing the liquid formulation. The liquid formulation of the present invention does not contain a human serum albumin and potentially toxic factors to the body, and thus it has excellent storage stability for insulin conjugate and insulinotropic peptide conjugate at high concentration, without a risk of viral contamination.

Abstract: A safe and effective vaccine to prevent, slow, halt or reverse progression of Alzheimer's disease in human patients is disclosed. The vaccine includes A?1-42 or an beta amyloid self epitope (e.g. A?1-15, or other 7-mer or 15-mer peptide epitopes derived from A?1-42) conjugated to an immunogenic carrier (e.g. DT) formulated in a water-in-oil Th2-biased adjuvant/delivery system.

Abstract: Compounds and compositions are provided, as are methods of using them to treat infections, neoplastic disease, including pancreatic cancer, inflammatory disease, and pain. Such compounds are nucleotides, acyclonucleotides, and ANP phosphonates conjugated with forms and/or moieties of Vitamin B6 for delivery past the cell membrane and into the cell.

Abstract: The present invention relates to bispecific molecules comprising an EGFR binding domain and a distinct IGFIR binding domain for use in diagnostic, research and therapeutic applications. The invention further relates to cells comprising such proteins, polynucleotide encoding such proteins or fragments thereof, and vectors comprising the polynucleotides encoding the innovative proteins. Exemplary bispecific molecules include antibody-like protein dimers based on the tenth fibronectin type III domain.

Abstract: The present invention relates in part to nicotine-derived hapten-carrier conjugates of the formula (III): wherein m, n, W, -(spacer)-, X* and Y are as defined in the description. In certain embodiments, said nicotine-derived hapten-carrier conjugates can be used to prepare vaccines for the treatment and/or prevention of nicotine addiction.

Abstract: Methods of increasing the yield in plant expression of recombinant proteins comprising engineering glycosylation sites into cloned genes or cDNAs for proteins using codons that drive post-translational modifications in plants; and engineering the cloned genes or cDNAs to contain a plant secretory signal sequence that targets the gene products (protein) for secretion. The methods result in increased recombinant glycosylated protein yields. Proteins produced according to these methods are disclosed.

Abstract: Hybrid nuclease molecules and methods for treating an immune-related disease or disorder in a mammal, and a pharmaceutical composition for treating an immune-related disease in a mammal.

Abstract: The present invention provides improved Pseudomonas Exotoxin A (PE) molecules with high cytotoxicity and reduced immunogenicity, compositions containing the improved (PE), and methods of use.

Abstract: Disclosed are methods and related compositions for concomitantly, locally administering immunosuppressants and doses of therapeutic macromolecules for reducing Type I and Type IV hypersensitivity.

Abstract: The present invention relates to the use of alpha (2) macroglobulin complexes isolated from the serum of a mammal. The invention also relates to methods for making such complexes and compositions comprising alpha (2) macroglobulin complexes, isolated from the serum of a mammal, wherein such compositions are used in methods for the treatment and prevention of cancer and infectious disease. The invention also relates to methods for treating and preventing cancer and infectious disease using such complexes comprising, isolated from the serum of a mammal. The invention also encompasses methods for production of alpha (2) macroglobulin complexes.

Abstract: The present invention relates to drug fusions that have improved serum half lives. These fusions and conjugates comprise polypeptides, immunoglobulin (antibody) single variable domains and GLP and/or exendin molecules. The invention further relates to uses, formulations, compositions and devices comprising such drug fusions and conjugates.

Abstract: A peptide-POD with ability to penetrate and deliver fluorophores, siRNA, DNA and quantum dots to cells in culture and retinal and ocular tissues in vivo is provided herein. POD couples to adenovirus vectors, enhancing tropism for certain cells, potentially providing a safer and more efficacious method to deliver molecules to ocular and other tissues in vivo. POD constructs are therapeutic delivery vehicles for treating cells and tissues, including ocular cells and tissues suffering from retinal degeneration.

Abstract: A composition, comprising: an enriched population of autophagosomes derived from a non-small cell lung carcinoma cell line, and wherein the enriched population of autophagosomes includes: one or more toll-like receptor agonists; one or more tumor antigens; and one or more damage-associated molecular pattern molecules. In this way, an off-the-shelf vaccine may be available to be administered in order to stimulate a targeted immune response in patients bearing different tumor types.

Abstract: The present invention provides an isolated and purified heat shock protein 60 (Hsp60) peptide having the amino acid sequence of SEQ ID NO:2. The instant invention is also directed to a vaccine against Ehrlichia comprising a peptide homologous to the amino acid sequence of SEQ ID NO:2. The instant invention is also directed to an antibody directed against a peptide homologous to the amino acid sequence of SEQ ID NO:2. The instant invention is also directed to a method of determining whether a subject is infected with Ehrlichia, comprising the steps of: contacting a sample from a subject with the antibody described herein; and detecting a resulting antibody reaction, wherein a positive reaction indicates the subject is infected with Ehrlichia.

Abstract: Drug delivery compositions and methods of delivering compounds are disclosed. Vaccines and methods of immunizing individuals are disclosed. Compositions for drug delivery including gene therapy and methods of treating individuals using such compositions are disclosed.

Abstract: The present invention relates to methods for the production of heat shock protein complexes for use in vaccine compositions. In particular, there is provided a method for increasing the level and immunogenicity of heat shock protein complexes produced in cells by subjecting the cells to specific stress inducing stimuli. The invention further extends to the use of heat shock protein complexes produced according to the methods of the invention in the preparation of vaccine compositions for the prevention and treatment of infectious diseases and cancerous conditions.

Abstract: This invention relates to use protein-polymer conjugates described in the specification to treat various diseases, including disease is idiopaic myelofibrsis, polycythaemia vera, and essential thromobocythaemia.

Abstract: The present invention relates to a CRH formulation having improved stability/efficacy. The improved CRH formulation is particularly suitable for treatment of various disorders. The invention also relates to a method of producing the CRH formulation, and to methods of treatment using said CRH formulation.

Abstract: The invention relates to a pharmaceutical composition made of one or more preparation and comprising a therapeutically effective dose of at least one recombinant human C3-derivative and at least one antigen für vaccination.

Abstract: The present invention relates to a conjugate of a protein or peptide with a polyethylene glycol derivative having catechol, wherein the protein or peptide is mono-PEGylated at the N-terminal with the polyethylene glycol derivative, and to a preparation method thereof. According to the invention, the catechol-PEG derivative can be site-specifically conjugated with the N-terminal amine group of a protein or peptide, so that a homogeneous polyethylene glycol-protein or -peptide conjugate can be obtained in high yield. Unlike a prior art conjugate, the conjugate obtained according to the invention allows the decrease in the activity of the protein to be minimized without chemically modifying the protein, and thus the conjugate has an excellent pharmacological effect. Also, because the conjugate is homogeneous, the process for preparing the conjugate can be simplified. Moreover, the conjugate has uniform biological efficacy in vivo and shows strong resistance to hydrolysis and thus a long in vivo duration time.

Abstract: The present invention relates to methods of treatment useful in chronic diseases, by means of the rupture of tolerance to self-antigens and increasing autoimmune response against these antigens. More particularly, the present invention relates to methods useful in the treatment of tumors that are growth dependent on the Epidermal Growth Factor, including non-small cell lung carcinoma. In the present invention a therapeutic combination is revealed that includes the combination of a vaccine against self antigens with a monoclonal antibody against peripheral T cells or a chemotherapeutic drug able to induce a depletion of peripheral T cells.

Abstract: This invention provides chimeric proteins comprising an apoptosis-inducing molecule fused to a member of a binding pair that is capable of binding to a selected cell that expresses a death receptor. When the selected cell is exposed in vivo or ex vivo to the chimeric protein, the selected cell undergoes apoptosis. The preferred embodiment is FasL protein fused to streptavidin. The methods of using the chimeric proteins are especially beneficial in causing activated lymphocytes to undergo apoptosis, thus modulating the immune response. Patients with conditions such as asthma or allergy, or patients undergoing transplantation with allogeneic or xenogeneic tissue are examples of patients who benefit from the methods of this invention.

Abstract: An immunogenic product includes TNF? coupled with KLH, wherein the TNF? is strongly inactivated, which means that the product shows less than 30% of cytolytic activity and/or an inactivation factor of more than 15000, in the conditions of TEST A. An emulsion and a vaccine including the product and methods for preparing the immunogenic product are also described.

Abstract: Disclosed are fusion proteins comprising a biologically active molecule and an immunoglobulin (Ig) Fc domain which is linked to the biologically active molecule. The Fc domain is a hybrid human Fc domain of (i) IgG1, IgG2 or IgG4 or (ii) IgG4 and IgD. The hybrid Fc is useful as a carrier of biologically active molecules.

Abstract: It is an object of the present invention to provide a method for producing a conjugate of thyroxine and albumin with higher purity. The present invention provides a method for producing a conjugate of thyroxine and albumin which comprises: step (a) of converting a carboxyl group in thyroxine having a carboxyl group to be linked to albumin into an active ester and allowing the thyroxine to react with albumin, so as to prepare a conjugate of thyroxine and albumin; and step (b) of purifying the conjugate with the use of an acidic mixed aqueous solvent in which the thyroxine having a carboxyl group to be linked to albumin is dissolved but albumin is not precipitated.

Abstract: The present invention relates to single domain proteins that bind to epidermal growth factor receptor (EGFR). The invention also relates to single domain proteins for use in diagnostic, research and therapeutic applications. The invention further relates to cells comprising such proteins, polynucleotide encoding such proteins or fragments thereof, and to vectors comprising the polynucleotides encoding the innovative proteins.

Abstract: The present invention provides a tumor cell-soluble TNF family member molecule complex containing a tumor cell and an isolated soluble TNF family member molecule, wherein the soluble TNF family member molecule is bound on a surface of the tumor cell such that it binds to a receptor of the TNF family member expressed on a surface of a cell other than the tumor cell, and stimulates the cell other than the tumor cell via the receptor, and a composition and a tumor vaccine, each containing the complex.

Abstract: Thermostable polysaccharide based lyophilized vaccines are disclosed, particularly polysaccharide-protein conjugate vaccines and methods for preparation thereof. In an exemplary embodiment, a stabilized vaccine composition consists essentially of at least one polysaccharide-protein conjugate, at least one amorphous excipient, and a buffer component.

Abstract: The present invention relates to an insulinotropic peptide conjugate having improved in-vivo duration of efficacy and stability, comprising an insulinotropic peptide, a non-peptide polymer and an immunoglobulin Fc region, which are covalently linked to each other, and a use of the same. The insulinotropic peptide conjugate of the present invention has the in-vivo activity which is maintained relatively high, and has remarkably increased blood half-life, and thus it can be desirably employed in the development of long acting formulations of various peptide drugs.

Abstract: Compositions and methods are provided for treatment growth hormone and/or insulin-like growth factor 1 deficiency in a patient in need of such treatment. Compositions and methods include novel vaccines that provide immunogenicity for somatostatin and result in the increased release of endogenously produced growth hormone and/or insulin-like growth factor 1.

Abstract: The present invention refers to the use of rotavirus proteins VP4, VP8 and their derived fusion proteins and peptides, for enhancing the delivery of pharmaceutical agents through the paracellular pathway. These rotavirus proteins and derived peptides may additionally be employed to reduce unwanted cellular adhesion that can occur between cancerous cells, or between normal cells as a result of surgery, injury, chemotherapy, disease, inflammation or other pathological conditions.

Abstract: A vaccine composition for therapeutic use thereof on cancer patients includes a chemical conjugate of human recombining Epidermic Growth Factor (hrEGF) and a combining protein P64k for performing a conjugation reaction which produces said chemical conjugate in a controlled and reproducible manner. The preferred conjugate surprisingly increases the immunogenic activity causing significant increases in the anti-EGF antibody titers in humans, and provides a vaccine preparation with more than one type of effective dose presentation which enables the immunization dose per patient to be increased, but without involving an increase in immunization frequency and/or the number of immunization sites.

Abstract: A stable immunogenic product for the induction of antibodies against one or more antigenic proteins in a subject, characterized in that it comprises proteinaceous immunogenic heterocomplexes which are formed by associations between (i) antigenic protein molecules and (ii) proteinaceous carrier molecules and in that less than 40% of the antigenic proteins (i) are linked to the proteinaceous carrier molecules (ii) by a covalent bond.

Abstract: The present invention is directed to a vaccine and a pharmaceutical composition comprising hCG and Mycobacterium w suitable for administration to a subject in need thereof for the prevention and/or treatment of cancer. The compositions when administered to a subject in need thereof results in enhanced immunogenicity and prevention against cancer. Furthermore, the compositions of the present invention, when administered to a subject in need thereof, result in inhibition of tumor growth.

Abstract: The present invention relates to three-branched PEG-G-CSF conjugate of general formula (1) in which the bonding ratio of three-branched polyethylene glycol (PEG) and G-CSF is 1:1 (mol/mol), wherein PEG has an average molecular weight of from 200 to 45,000 daltons; a pharmaceutical composition comprising the same, and a preparing method thereof.

Abstract: An adjuvant composition which comprises an anionic macromolecule component particularly an ionic polysaccharide such as DEAE-dextran, and a saponin component, particularly an immunostimulating complex component. Immunogenic compositions comprising an immunogen and this adjuvant composition are also disclosed together with methods of use thereof.

Abstract: This invention relates to a conjugate of a polymer moiety and an interferon-? moiety, an erythropoietin moiety, or a growth hormone moiety.

Abstract: The present invention relates to a composition for treating obesity-related diseases comprising an insulinotropic peptide conjugate, more particularly, to a composition for treating obesity-related diseases comprising a conjugate prepared by covalently linking the insulinotropic peptide with a carrier substance via a non-peptidyl linker, and a method for treating obesity-related diseases by using the same. In particular, the composition for treating obesity-related diseases according to the present invention remarkably improves the efficacy of suppressing food intake and its duration to reduce body weight and body fat, thereby being useful for the treatment of obesity-related diseases.

Abstract: Provided herein in certain embodiments are compounds, pharmaceutical compositions and methods for modulating the functions of estrogen receptor alpha 36, for preventing and/or treating diseases related to estrogen receptor alpha 36, for preventing and/or treating respiratory diseases such as asthma, for inducing cell death and/or inhibiting cell proliferation and for preventing and/or treating diseases involving abnormal cell proliferation such as cancers.

Abstract: Chimeric heteromultimer adhesins that bind the ligand of natural heromultimeric receptors and uses therefor are disclosed. The chimeric molecules of the heteromultimer adhesins comprise an extracellular domain of a heteromultimeric receptor monomer and a multimerization domain for the stable interaction of the chimeric molecules in the adhesin. Specifically disclosed are heteromultimeric adhesins comprising the extracellular domains of the ErbB2 and ErbB3 and ErbB2 and ErbB4. The chimeric ErB heteromultimer adhesins of the present invention are useful as competitive antagonists or agonists of a neuregulin for the treatment of diseases such as various cancers.

Abstract: A novel agent for the targeted control of a mammalian cell activity can be used to control the interaction of particular cell types with their external environment. The agent has applications as a pharmaceutical for the treatment of a variety of disorders. An agent according to the invention comprises three Domains B, T and E, linked together in the following manner: Domain B-Domain T-Domain E where Domain B is the Binding Domain, which binds the agent to a Binding Site on the cell which undergoes endocytosis to produce an endosome; Domain T is the Translocation Domain, which translocates the agent from within the endosome across the endosomal membrane into the cytosol of the cell; and Domain E is the Effector Domain, which inhibits the ability of the Recyclable Membrane Vesicles to transport the Integral Membrane Proteins to the surface of the cell.