The present disclosure relates to nanoparticle formulations and methods of use for alpha connexin c-terminal peptides. Methods of making and methods of use, for example in the treatment of cancer, are also provided.

The present invention provides antibodies that bind to the IL-3 receptor alpha subunit alpha (Il3Rα) chain, and compositions comprising such antibodies. The present invention provides methods for inhibiting or reducing an IL3Rα-expressing cell population, the methods comprising contacting a population of IL3Rα-expressing cells (e.g., cancer cells and/or cancer stem cells) with an antibody that binds to IL3Rα. The present invention also provides antibody conjugates comprising an antibody that binds to an IL3Rα chain linked to a cytotoxic agent or anticellular agent and compositions comprising such conjugates. The present invention also provides methods for preventing, treating and/or managing a disorder associated with IL3Rα-expressing cells (e.g., a hematological cancer), the methods comprising administering to a subject in need thereof an antibody that binds to IL3Rα.

Provided herein are HER2-targeting molecules comprising Shiga toxin A Subunit derived polypeptides having 1) de-immunization and 2) reduced, protease-cleavage sensitivity while retaining Shiga toxin function(s), such as, e.g., potent cytotoxicity via ribosome inhibition. Certain HER2-targeting molecules of the present invention exhibit reduced immunogenic potential in mammals and are well-tolerated by mammals while retaining aforementioned features. The HER2-targeting molecules of the present invention have uses for selectively killing specific cells (e.g., HER positive tumor cells); for selectively delivering cargos to specific cells (e.g., HER positive tumor cells), and as therapeutic and/or diagnostic molecules for treating and diagnosing a variety of conditions, including cancers and tumors involving the expression or over-expression of cell-surface HER2.

The present invention relates to functional binding fragments comprising the minimal binding fragments of VAR2CSA, to antibodies against such binding fragments of VAR2CSA, nucleic acids encoding such fragments of VAR2CSA as well as methods for their production. The invention further relates to conjugates and fusion proteins of VAR2CSA polypeptides including the minimal binding fragments and their use, in particular in the treatment of conditions associated with expression of chondroitin sulfate A (CSA), such as an inappropriate expression of chondroitin sulfate A (CSA).

The present invention relates to a binder-toxin fusion protein comprising at least one protein binder selected from the group consisting of an antibody an antibody fragment or derivative retaining target binding capacity, or an antibody mimetic,
a ribotoxin or -protoxin, and optionally, a peptide linker connecting a) and b) and/or a cleavable domain comprised in the protoxin (FIG. 1)

The present invention relates to the field of immunogenic compositions and vaccines, their manufacture, host cells which can be used in their manufacture and the use of such immunogenic compositions and vaccines in medicine. More particularly, it relates to Klebsiella pneumoniae O-antigens, conjugates comprising a K. pneumoniae O-antigen, host cells suitable for their production and immunogenic compositions or vaccines containing at least one Klebsiella pneumoniae O-antigen.

The present invention is directed to T-cell epitope delivering polypeptides which deliver one or more CD8+ T-cell epitopes to the MHC class I presentation pathway of a cell, including toxin-derived polypeptides which comprise embedded T-cell epitopes and are de-immunized. The present invention provides cell-targeted, CD8+ T-cell epitope delivering molecules for the targeted delivery of cytotoxicity to certain cells, e.g., infected or malignant cells, for the targeted killing of specific cell types, and the treatment of a variety of diseases, disorders, and conditions, including cancers, immune disorders, and microbial infections. The present invention also provides methods of generating polypeptides capable of delivering one or more heterologous T-cell epitopes to the MHC class I presentation pathway, including polypeptides which are 1) B-cell and/or CD4+ T-cell de-immunized, 2) comprise embedded T-cell epitopes, and/or 3) comprises toxin effectors which retain toxin functions.

The present invention relates to Shiga toxin effector polypeptides with reduced antigenic and/or immunogenic potential. Immunogenicity can be a limitation for the repeated administration to mammals of proteins and polypeptides derived from Shiga toxins. The Shiga toxin effector polypeptides of the present invention have uses as components of therapeutics, diagnostics, and immunization materials. The cytotoxic proteins of the present invention have uses for selective killing of specific cell types and as therapeutics for the treatment of a variety of diseases, including cancers, immune disorders, and microbial infections. The proteins of the present invention also have uses for detecting specific cell types, collecting diagnostic information, and monitoring the treatment of a variety of diseases, such as, e.g., cancers, immune disorders, and microbial infections.

A polypeptide composition, and methods of making the same, may include a first polypeptide and a second polypeptide, wherein the first polypeptide comprise a first toxin fragment and a first intein fragment, the second polypeptide comprise a second toxin fragment and a second intein fragment, the first polypeptide is different from the second polypeptide; the first toxin fragment and the second toxin fragment are non-biotoxic; the first polypeptide and the second polypeptide may make the first toxin fragment and the second toxin fragment into biotoxic toxins by means of the interaction of the first intein fragment and the second intein fragment. Kits may include such first and second polypeptides, and such compositions and kits may be used in treating tumors.

Disclosed are novel antibody-drug conjugates and use thereof in therapy, in particular in anticancer or anti-inflammatory therapy, as well as synthetic products useful as linkers, composed of a linker head and a linker body, and also a method for preparing the linkers and the antibody-drug conjugates.