Abstract: 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.

Abstract: 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.

Abstract: The present invention provides cell-targeted molecules comprising binding regions for cell-type specific targeting and Shiga toxin A Subunit effector regions for Shiga toxin effector functions, wherein the Shiga toxin effector regions are at and/or proximal to an amino-terminus of a polypeptide component of the cell-targeted molecule, and optionally comprising a disrupted, furin-cleavage motif between the Shiga toxin effector region and the binding region. The cell-targeted molecules of the invention exhibit a more optimized cytotoxicity and/or improved, in vivo tolerability as compared to related molecules comprising less amino-terminus proximal, Shiga toxin effector regions and/or furin-cleavage sensitive, wild-type, Shiga toxin effector regions. The cell-targeted molecules of the invention have uses, such as, e.g.

Abstract: The present invention provides cytotoxic proteins comprising immunoglobulin-type binding regions for mediating cell-type specific targeting and Shiga toxin effector regions derived from A Subunits of members of the Shiga toxin family for effectuating cytotoxicity. The cytotoxic proteins 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.

Abstract: The present invention provides CD20-binding proteins that bind to and rapidly internalize CD20 antigens from a cell surface location to the interior of a cell. CD20-binding proteins of the invention comprise a CD20 binding region and a Shiga toxin effector region. Certain of the disclosed CD20-binding proteins kill cells that express CD20 on their surface. Further, the presently disclosed CD20-binding proteins can comprise additional exogenous materials and are capable of targeted delivery of these additional exogenous materials into the interior of CD20 expressing cells. Such additional materials may include peptides, antigens, enzymes, and polynucleotides. These CD20-binding proteins have uses in methods of internalizing themselves, targeted killing of CD20 expressing cells, delivering exogenous materials into CD20 expressing cells, and treating a variety of diseases involving CD20 expressing cells, such as cancers and immune disorders.

Abstract: The present invention provides CD20-binding proteins that bind to and rapidly internalize in a CD20-mediated fashion from a cell surface location to the interior of the cell. CD20-binding proteins of the invention comprise a CD20 binding region and a Shiga toxin effector region. Certain of the disclosed CD20-binding proteins kill cells that express CD20 on their surface. Further, the presently disclosed CD20-binding proteins can comprise additional exogenous materials, such as, e.g., antigens, and are capable of targeted delivery of these additional exogenous materials into the interior of CD20 expressing cells. These CD20-binding proteins have uses in methods such as, e.g.