DNA-targeted nanocarriers for encapsulating an active agent and delivering it to extracellular DNA are provided. The nanocarriers, for example, polymeric particles, liposomes, and multilamellar vesicles have targeting moiety that targets DNA conjugated thereto. The targeting moiety that targets DNA is typically an antibody, or variant, fragment, or fusion protein derived therefrom that binds to DNA or nucleosomes. The targeting moiety can be a circulating autoantibody that binds DNA such as those commonly found in patients with SLE. In some embodiments, the targeting moiety is antibody 3E10 or a variant, fragment, or fusion protein derived therefrom. Pharmaceutical compositions, methods of use, and dosage regimens are also provided.

Described herein are methods, formulations and kits for treating a patient with triple-negative breast cancer with nanoparticle complexes comprising a carrier protein (e.g., albumin), paclitaxel and a binding agent specific for a target antigen expressed by the cells (e.g., an anti-VEGF antibody).

The presently disclosed subject matter provides antigen-binding proteins (e.g., chimeric antigen receptors) and antibodies or antigen-binding portions thereof that bind to a Foxp3 peptide/MHC molecule complex. Such antibodies, fusion proteins and conjugates thereof are useful for inhibiting regulatory T cells and treating cancers.

The present invention provides antagonizing antibodies that bind to complement factor D (CFD), conjugates thereof, and methods of using same. The anti-CFD antibodies can be used therapeutically alone or in combination with other therapeutics to treat age related macular degeneration and other diseases.

The invention provides anti-Tau antibodies and methods of using the same.

Provided herein are containers comprising a composition comprising an antibody comprising a heavy chain comprising SEQ ID NO:1 and a light chain comprising SEQ ID NO:2. The containers can be bottles or vials, for example, glass or polyethylene terephthalate G (PETG) bottles or vials. Also provided are kits comprising the containers and methods of treating cancer using the antibodies from the containers.

Infection with obligatory intracellular bacteria is difficult to treat as intracellular targets and delivery methods of therapeutics are not well-known. Ehrlichia translocated factor-1 (Etf-1), a type IV secretion system (T4SS) effector, is a primary virulence factor for an obligatory intracellular bacterium, Ehrlichia chaffeensis. Disclosed herein are Etf-1-specific nanobodies (Nbs) that block Etf-1 functions and Ehrlichia infection. Also disclosed is a method for treating human monocytic ehrlichiosis (HME) in a subject with the disclosed nanobodies.

The present disclosure provides, in one aspect, bifunctional compounds that can be used to promote or enhance degradation of certain circulating proteins. In certain embodiments, the circulating protein mediates a disease and/or disorder in a subject, and treatment or management of the disease and/or disorder requires degradation, removal, or reduction in concentration of the circulating protein in the subject. Thus, in certain embodiments, administration of a compound of the disclosure to the subject removes or reduces the circulation concentration of the circulating protein, thus treating, ameliorating, or preventing the disease and/or disorder.

Described are conformation-specific antibodies or antigen-binding fragments that specifically bind to the trans conformation of phosphorylated-Threonine254-Proline (pThr254-Pro) of the p65 subunit of nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB). Also described are related pharmaceutical compositions, polynucleotides, peptides, vectors, host cells, methods of production, methods of treatment, diagnostic methods, and kits.

The invention provides methods for selective targeting of live cells, which have undergone or are undergoing radiation or chemotherapy, at a site of interest with a cell-penetrating polypeptide. In one embodiment of the invention, the method comprises contacting the live cells with a cell-penetrating polypeptide comprising cell-penetrating determinants so that the cell-penetrating polypeptide binds extracellular DNA near or around the live cells so as to form a complex or association therewith such that the complex or associated polypeptide-DNA so bound bind the live cells and penetrates the live cells thereby selectively targeting live cells at a site of interest with a cell-penetrating polypeptide.