The invention relates to a novel class of antagonistic and inverse agonistic anti-US28 antibodies, more specifically to single heavy chain variable domain antibodies (VHH) and variants and modifications thereof. The invention further relates to methods for producing these antibodies and to the use of the antibodies in methods for diagnostic and therapeutic purposes, especially for treatment of an individual suffering from a CMV-positive tumor such as glioblastoma.

Disclosed are vaccine-derived neutralizing antibodies (NAbs) for CMV infections and small peptides which define precise recognition elements of the antigens by the NAbs. In certain embodiments, vaccine-derived NAbs may be produced by immunizing a subject with a gH/gL/UL128/UL130/UL131A pentameric glycoprotein complex (gH/gL-PC). In certain embodiments, vaccine-derived NAbs may have properties similar or identical to those of NAbs induced in a subject naturally infected with CMV. Native and non-native small peptides from UL128 and gH have been defined by mapping epitopes and deriving artificial sequences which are minimal recognition elements of vaccine-derived NAbs disclosed herein. These small peptides can be used to elicit vaccine-derived NAbs that prevent CMV entry into susceptible cell types and protect humans from infection and disease. Multivalent vaccines comprising these small peptides and/or epitopes are also disclosed. Kits and methods of using the vaccine-derived NAbs and small peptides disclosed herein including methods of treating or preventing CMV infection in a subject are also provided.

The invention relates to neutralizing antibodies, and antibody fragments thereof, having high potency in neutralizing hCMV, wherein said antibodies and antibody fragments are specific for one, or a combination of two or more, hCMV gene UL products. The invention also relates to immortalized B cells that produce, and to epitopes that bind to, such antibodies and antibody fragments. In addition, the invention relates to the use of the antibodies, antibody fragments, and epitopes in screening methods as well as in the diagnosis, prevention, and therapy of disease.

Recombinant monoclonal antibodies to human cytomegalovirus (CMV) gB protein are described. The affinities of these antibodies are higher than the best previously reported antibodies. Since high affinity is critical to prevention of virus transfer across the placenta, the invention antibodies are useful as therapeutic and prophylactic agents to prevent or ameliorate effects on the fetus of CMV infection during pregnancy.

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.

The invention relates to neutralizing antibodies, and antibody fragments thereof, having high potency in neutralizing hCMV, wherein said antibodies and antibody fragments are specific for one, or a combination of two or more, hCMV gene UL products. The invention also relates to immortalized B cells that produce, and to epitopes that bind to, such antibodies and antibody fragments. In addition, the invention relates to the use of the antibodies, antibody fragments, and epitopes in screening methods as well as in the diagnosis, prevention, and therapy of disease.

Purified recombinant polypeptides isolated from Chinese hamster ovary host cells, including antibodies, such as therapeutic antibodies, and methods of making and using such polypeptides are provided.

The invention relates to the provision of antibody therapeutics and prophylactics that are tailored specifically for human use. The present invention provides libraries, vertebrates and cells, such as transgenic mice or rats or transgenic mouse or rat cells. Furthermore, the invention relates to methods of using the vertebrates to isolate antibodies or nucleotide sequences encoding antibodies. Antibodies, heavy chains, polypeptides, nucleotide sequences, pharmaceutical compositions and uses are also provided by the invention.

The present invention is directed to antigen binding proteins including, but not limited to, monoclonal antibodies and antigen binding fragments thereof, that specifically bind to and preferably neutralize human cytomegalovirus (CMV). Also encompassed by the invention are antigen binding proteins that have been humanized. The antigen binding proteins of the invention are useful as a therapeutic agent for treating and/or preventing CMV infections in a patient in need thereof.

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.