Treatment and/or diagnosis of a cancer type characterized by expressing zinc transporter ZIP4. The present invention is directed to nanocarriers functionalized with a ligand capable to bind to the extracellular domain of zinc transporter ZIP4, for use in the treatment and/or diagnosis of a cancer type characterized by expressing ZIP4.

An isolated antigen binding protein, which includes at least one CDR of a heavy chain variable region and at least one CDR of a light chain variable region and a method to encode an isolated nucleic acid molecule. A vector with the nucleic acid molecule. A cell with the nucleic acid molecule. A pharmaceutical composition with the isolated antigen binding protein. A method for preventing, alleviating or treating a CS-related disease or disorder. A method for detecting C5 in a sample.

A humanized monoclonal antibody that binds to an advanced glycation end-product-modified protein or peptide on a cell comprises a heavy chain and a light chain. The antibody binds a carboxymethyllysine-modified protein or peptide. A composition comprises a humanized monoclonal antibody that binds to an advanced glycation end-product-modified protein or peptide on a cell and a pharmaceutically acceptable carrier.

The present disclosure provides, inter alia, multi-drug Antibody Drug Conjugates (MD-ADCs) and Linking Assembly (LA) Units, that are constructed in a site-specific matter via ‘orthogonal’ deprotection and drug loading. Also provided are, Protected Linking Assembly Units, which allow for ‘orthogonal’ deprotection and construction of MD-ADCs and LA Units of the present disclosure.

Provided herein are modified immunoglobulins comprising an amyloid reactive peptide joined to an antibody, as well as humanized antibodies that bind to human amyloid fibrils and antibody-peptide fusion proteins. Also provided herein are methods of treating amyloid-based diseases by administering a modified immunoglobulin, humanized antibody, or antibody-peptide fusion protein.

A tissue factor (TF)-targeted antibody-drug conjugate (ADC) and a method for preparing the ADC. The ADC is capable of binding to TF antigen with high specificity, and has high affinity, low immunogenicity, high cytotoxicity, and significant anti-tumor activity.

Provided are methods and compositions to target delivery of cells to a tissue lesion, thereby treating the lesion. For example, biotinylated antibodies with affinity to a lesion epitope are administered at the lesion. Reparative cells including avidin and biotin are then administered at the lesion. The reparative cells are targeted to the lesion via avidin-biotin bridges to the antibodies, with additional cells recruited to the lesion via cell-to-cell avidin-biotin bridges. In certain examples, antibody-reparative cell complexes are formed by mixing the biotinylated antibodies with the reparative cells including avidin and biotin. The complexes are then administered at the lesion. In other examples, multivalent antibodies are used to target reparative cells to the lesion, such as by binding an epitope at the lesion and an epitope present on the reparative cell. In other examples, the antibodies are chemically linked to a reparative cell or to a nanosome containing a therapeutic agent.

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 activity of a pro-atrophy gene. In some embodiments, the molecular payload is an oligonucleotide, such as an antisense oligonucleotide or RNAi oligonucleotide.

Provided herein are methods and compositions for treating a subject suffering from a deficiency in α-L-Iduronidase in the CNS. The methods include systemic administration of a bifunctional fusion antibody comprising an antibody to a human insulin receptor and an α-L-Iduronidase. A therapeutically effective systemic dose is based on the specific CNS uptake characteristics of human insulin receptor antibody-α-L-Iduronidase fusion antibodies as described herein.

The invention provides antibodies that specifically bind tau. The antibodies inhibit or delay tau-associated pathologies and associated symptomatic deterioration.