The present invention relates to amino acid sequences that can bind to serum albumin. In particular, the present invention relates to immunoglobulin single variable domains, and in particular heavy-chain immunoglobulin single variable domains, that can bind to serum albumin. The invention also relates to proteins, polypeptides and other constructs, compounds, molecules or chemical entities that comprise at least one of the immunoglobulin single variable domains binding to serum albumin that are described herein.

Provided herein are methods of producing a recombinant polypeptide containing two chains, such as an immune mobilizing monoclonal T-cell receptor against cancer (ImmTAC) protein including an alpha chain and a beta chain. In particular, methods are provided for producing heterologous secretory proteins in bacteria through utilization of optimized expression vectors and culture processes.

The disclosure provides isolated antibodies and antigen-binding fragments that bind to the G protein of RSV and which are capable of neutralizing RSV.

IVIG replacement compounds are derived from recombinant and/or biochemical creation of immunologically active biomimetic(s). These replacement compounds are then screened in vitro to assess each replacement compound's efficiency at modulating immune function. Particular replacement compounds are selected for further in vivo validation and dosage/administration optimization. Finally, the replacement compounds are used to treat a wide range of diseases, including inflammatory and autoimmune diseases

The present invention relates to a linker for forming conjugates of a protein or peptide with a therapeutically active agent and which comprise a thiomaleamic acid moiety that is susceptible to cleavage under the pH conditions prevalent in the lysosome.

The current invention is directed to a method for the determination of the glycosylation pattern of a human immunoglobulin of the subclass IgG1 or IgG4 or of a murine immunoglobulin of the subclass IgG2a or IgG3 comprising the following steps: a) cleaving said immunoglobulin into fragments by enzymatic digestion with the enzyme IdeS, b) separating the fragments of said immunoglobulin obtained by the enzymatic digestion by reversed phase high performance liquid chromatography, c) subjecting the separated fragments of said immunoglobulin obtained in step b) to a mass spectrometric analysis, and d) determining the glycosylation pattern of said immunoglobulin from the mass spectrometric data obtained in step c).

Isolated proteins and immunogenic fragments thereof, for use in the treatment and prevention of a Group A Streptococcus infection are provided. In particular, the invention provides pharmaceutical compositions and methods of prophylactic and/or therapeutic treatment of a Group A Streptococcus infection.

The present invention provides compositions and methods useful for promoting or reducing T-cell trafficking to a target tissue. Also provided are compositions and methods useful for promoting or inhibiting antigen-presenting cell (APC) activation. The invention is related to discovery of functional characteristics of TIM-3, a molecule that is preferentially expressed on the surface of Th1 cells. The methods are useful for treating disorders including cancer, infectious disease, allergy, asthma, and autoimmune disease.

Fusion proteins containing B7-H4 polypeptides are disclosed. The B7-H4 fusion proteins can include full-length B7-H4 polypeptides, or can contain a fragment of a full-length B7-H4 polypeptide, including some or all of the extracellular domain of the B7-H4 polypeptide. Methods for using the fusion proteins to downregulate T cell activation and for the treatment of inflammatory and autoimmune diseases and disorders are also disclosed. The B7-H4 fusion proteins are useful for treating inflammation by inhibiting or reducing differentiation, proliferation, activity, and/or cytokine production and/or secretion by ThI, ThI 7, Th22, and/or other cells that secrete, or cause other cells to secrete, inflammatory molecules, including, but not limited to, IL-1, TNF-, TGF-beta, IFN-, IL-17, IL-6, IL-23, IL-22, IL-21, and MMPs; or enhancing IL-IO secretion by Tregs, increasing the differentiation of Tregs, increasing the number of Tregs, or combinations thereof.

Provided is methods for producing mixtures of antibodies from a single host cell clone, wherein, a nucleic acid sequence encoding a light chain and nucleic acid sequences encoding different heavy chains are expressed in a recombinant host cell. The recombinantly produced antibodies in the mixtures according to the invention suitably comprise identical light chains paired to different heavy chains capable of pairing to the light chain, thereby forming functional antigen-binding domains. Mixtures of the recombinantly produced antibodies are also provided by the invention. Such mixtures can be used in a variety of fields.