Isolated antibodies that bind to human TIGIT (T-cell immunoreceptor with Ig and ITIM domains) are provided. In some embodiments, the antibody has a binding affinity (K.sub.D) for human TIGIT of less than 5 nM. In some embodiments, the anti-TIGIT antibody blocks binding of CD155 and/or CD112 to TIGIT. In some embodiments, the antibodies are afucosylated.

The present disclosure relates to compositions and methods of killing cells. In particular examples, the method includes contacting a cell having a cell surface protein with a therapeutically effective amount of an antibody-IR700 molecule, wherein the antibody specifically binds to the cell surface protein, such as a tumor-specific antigen on the surface of a tumor cell. The cell is subsequently irradiated, such as at a wavelength of 660 to 740 nm at a dose of at least 1 J cm.sup.−2. The cell is also contacted with one or more therapeutic agents (such as an anti-cancer agent), for example about 0 to 8 hours after irradiating the cell, thereby killing the cell. Also provided are methods of imaging cell killing in real time, using fluorescence lifetime imaging. Also provided are wearable devices that include an article of clothing, jewelry, or covering; and an NIR LED incorporated into the article, which can be used with the disclosed methods.

The present invention relates to compounds (reactive conjugates) for the chemical modification of therapeutic antibodies or proteins. The compounds enable the regioselective attachment of a payload to an antibody or antibody fragment in one single step, thereby producing a modified antibody or modified antibody fragment, which can be used for diagnosing, monitoring, imaging or treating disease.

The present invention relates to the pulmonary delivery of antibodies or antibody derivatives.

The present invention relates to the pulmonary delivery of antibodies or antibody derivatives.

The present invention relates to compositions and methods for the treatment and prevention of thrombogenic-related diseases and disorders. The compositions may comprise antigen-binding fragments that prevent platelet activation by either blocking Fc.sub.γRIIa binding on platelets, neutrophils and monocytes, or neutralising platelet factor 4.

Provided is a fusion polypeptide comprising GDF15 (Growth/differentiation factor 15) and an Fc region of immunoglobulin, a pharmaceutical composition comprising the fusion polypeptide, and a method of increasing in vivo duration of GDF15 comprising fusing with an Fc region of immunoglobulin.

The disclosure is directed to dual variable domain immunoglobulin double-stranded RNA conjugates that are advantageous for inhibition of target gene expression, as well as compositions suitable for therapeutic use. The dual variable domain immunoglobulin comprises a first variable domain that binds to a binding target, and a second variable domain that comprises a reactive residue, where the linker is covalently conjugated to the reactive residue. The dsRNA is linked to the linker and is capable of inhibiting the expression of the target gene by RNA interference. The disclosure also provides pharmaceutical compositions comprising these conjugate and methods of inhibiting the expression of a target gene by administering these conjugates, e.g., for the treatment of various disease conditions.

The present disclosure relates to IL12 receptor agonists with improved therapeutic profiles.

Aspects of the disclosure relate to complexes comprising a muscle-targeting agent covalently linked to a molecular payload. In some embodiments, the muscle-targeting agent specifically binds to an internalizing cell surface receptor on muscle cells. In some embodiments, the molecular payload inhibits expression or activity of a DMPK allele comprising a disease-associated-repeat. In some embodiments, the molecular payload is an oligonucleotide, such as an antisense oligonucleotide or RNAi oligonucleotide.