A novel class or family of TGF-β binding proteins is disclosed. Also disclosed are assays for selecting molecules for increasing bone mineralization and methods for utilizing such molecules.

The present invention relates generally to anti-FZD10 antibodies and to methods of using anti-FZD10 antibodies. In particular, the anti-FZD10 antibodies described herein are useful for altering one or more of survival, replication, differentiation and epithelial-to-mesenchymal cell transition of embryonic stem cells and/or for the treatment of diseases, such as a variety of cancers, associated with expression of FZD10, including as stand-alone therapies and in combination therapies with other agents.

Provided herein, inter alia, are isolated antibodies that bind an extracellular domain of a human SIRP-α v1 polypeptide (e.g., the D1 domain), an extracellular domain of a human SIRP-α v2 polypeptide, or both. In some embodiments, the antibodies also bind an extracellular domain of a monkey SIRP-α polypeptide, an extracellular domain of a mouse SIRP-α polypeptide, an extracellular domain of a human SIRP-β polypeptide, and/or an extracellular domain of a human SIRP-γ polypeptide. In some embodiments, the antibodies block or do not binding between an extracellular domain of a human SIRP-α polypeptide and an IgSF domain of a human CD47 polypeptide, while in some embodiments, the antibodies reduce the affinity of a human SIRP-α polypeptide for binding an IgSF domain of a human CD47 polypeptide. Further provided herein are methods, polynucleotides, vectors, and host cells related thereto.

A stomatological composition is provided. The stomatological composition is capable of stably compounding an antibody obtained from a hen egg yolk, and preventing diseases in an oral cavity such as odontonecrosis and periodontal disease from occurring, or improving such diseases in the oral cavity. The stomatological composition includes at least one selected from the group consisting of lipase, protease and the antibody obtained from the hen egg yolk, citric acid and a metal salt of citric acid. A total amount of the lipase, the protease and the antibody obtained from the hen egg yolk is in the range of 0.001 to 10 wt %. When an amount of the citric acid is defined as “A” [wt %] and an amount of the metal salt of citric acid is defined as “B” [wt %], the following relation is satisfied: 0.005≦A/B≦1. Further, the stomatological composition of the present invention includes a polyglyceryl fatty acid ester or an amino acid-based ampholytic surfactant as a surfactant. Further, the stomatological composition of the present invention includes a collagen.

The present invention relates to a therapy for treating or preventing several diseases in animals, based on the administration of a highly concentrated avian derived immunoglobulins formulation, obtained from the egg yolk from hens previously hiper-immunized with a vaccine formulation comprising infectious agents or toxins antigens, a light mineral oil and a particulate adjuvant.

The present invention relates to the use of a composition selected from the group consisting of antibodies, antibody fragments, insulin-like growth factor antagonists, Toll-like receptor antagonists and mixtures thereof for the treatment or the prophylaxis of certain diseases.

NT-proBNP can be determined in a biological sample using at least one antibody which recognizes an epitope of NT-proBNP in both a glycosylated and non-glycosylated form of NT-proBNP. Said antibody is preferably an isolated polyclonal antibody or a mixture of monoclonal antibodies coated onto a particle, preferably coated onto said particle in a coating ratio of 6-60%, forming a layer or multiple layers of antibodies on said particle. The assay, realized in the form of a nephelometric or turbidimetric assay, can be applied to a wide range of automated clinical analyzers.

Neutralizing antibodies through recombinant protein expression were identified by mining antibody repertoires by high-throughput second generation sequencing. Sequencing across the majority of light and heavy chain variable regions of chicken immunoglobulins was performed at two immunological time points: a non-immune (naive) state and a post-hyperimmunization state. The mRNA was extracted from unsorted and unselected PBMC populations and identification of antigen-specific antibody sequences leveraged the significant disparity of abundance of an individual B cell clone in non-immune and immunized states. Through bioinformatic analysis, candidate amino acid sequences for variable heavy chain and light chains were identified. Recombinant polypeptides with the binding domains having the identified amino acid sequences for variable heavy chain and light chains were expressed and screened using immunoassays to confirm antigen-specificity.

The present invention provides compositions, kits, and methods for the detection of host cell proteins (HCPs) in biological samples. In some embodiments, the present invention utilizes immunization of ayes hosts with proteins derived from non-ayes host cells to produce ayes antibodies specific for non-ayes HCPs.

The present disclosure provides antibodies that specifically bind to TIGIT. The antibodies find use in a variety of treatment, diagnostic, and monitoring applications, which are also described. For example, the antibody may be used to treat a patient for cancer, particularly a patient is also being treated or has been treated with an immune checkpoint inhibitor, e.g., a PD-1/PD-L1 inhibitor.