Compositions and methods of use thereof for modulating LAIR-1 are provided. For example, immunomodulatory agents are provided that reduce LAIR-1 expression, ligand binding, crosslinking, negative signaling, or a combination thereof. Such agents can be used to increase an immune response in a subject in need thereof. Exemplary agents include (i) a soluble LAIR-2 polypeptide or fusion protein, (ii) a soluble LAIR-1 polypeptide or fusion protein, (iii) a function blocking anti-LAIR-1 antibody, (iv) an antibody that depletes LAIR-1 positive cells, and (y) combinations thereof. Immunomodulatory agents are also provided that increase LAIR-1 expression, ligand binding, crosslinking, negative signaling, or a combination thereof. Such agents can be used to reduce an immune response in a subject in need thereof. Exemplary agents include: (i) a function activating anti-LAIR-1 antibody, (ii) a function blocking anti-LAIR-2 antibody, and (iii) a combination thereof.

The present invention relates to a protein binding to GARP in the presence of TGF-β and uses thereof.

The present invention provides bifunctional binding polypeptide comprising a pMHC binding moiety and a PD-1 agonist.

The present invention relates to antibodies or antigen-binding fragments that are useful for treating coronavirus infections (e.g., COVID-19 caused by SARS-CoV-2). The present invention also relates to various pharmaceutical compositions and methods of treating coronavirus using the antibodies or antigen-binding fragments.

The present invention relates to antibody constructs comprising a domain which binds to a MAGEB2 peptide complexed with an HLA and optionally, another domain which binds to CD3. Moreover, the invention provides polynucleotides encoding the antibody constructs, vectors comprising said polynucleotides and host cells transformed or transfected with said polynucleotides or vectors. Furthermore, the invention provides processes for producing the antibody constructs of the invention, medical uses of said antibody constructs, and kits comprising said antibody constructs.

The present invention relates to T cell receptors (TCRs) that bind the HLA-A*02 restricted peptide SLLQHLIGL (SEQ ID NO: 1) derived from the germline cancer antigen PRAME. Said TCRs may comprise non-natural mutations within the alpha and/or beta variable domains relative to a native PRAME TCR. The TCRs of the invention are particularly suitable for use as novel immunotherapeutic reagents for the treatment of malignant disease.

Humanized, non-promiscuous monoclonal antibodies specific for immunoglobulin-like transcript 3 (ILT3), also known as Leukocyte immunoglobulin-like receptor subfamily B member 4 (LILRB4), are described.

Provided herein are FGFR1/KLB targeting agonistic antigen-binding proteins, or fragments thereof, having improved physico-chemical properties. Also provided herein are conjugates comprising an FGFR1/KLB targeting agonistic antigen-binding protein, or a fragment thereof, and at least one GLP-1R agonistic peptide. Further provided are pharmaceutical compositions comprising the antibody (or fragment thereof), or the conjugate provided herein, and the use of the antibody (or fragment thereof, or the use of the conjugate in medicine.

It has been demonstrated that certain compounds bind to TNF and stabilise a conformation of trimeric TNF that binds to the TNF receptor. Antibodies which selectively bind to complexes of such compounds with TNF superfamily members are disclosed. These antibodies may be used to detect further compounds with the same activity, and as target engagement biomarker.

The present invention provides antigen-binding proteins that specifically bind to an HLA-displayed human papillomavirus (HPV) peptide, and therapeutic and diagnostic methods of using those binding proteins.