The invention relates to an anti-viral composition comprising at least one, and ideally a plurality of, monoclonal antibodies, or fragments thereof; an immunogenic agent, vaccine or pharmaceutical composition comprising the afore anti-viral composition; said anti-viral composition, immunogenic agent, vaccine or said pharmaceutical composition for use in the treatment of or prevention of a viral infection; use of said anti-viral composition in the manufacture of a medicament to treat or prevent a viral infection; a combination therapeutic for use in the treatment or prevention of a viral infection comprising said anti-viral composition, immunogenic agent, vaccine or pharmaceutical composition in combination with at least one other therapeutic agent; and a method of treating or preventing a viral infection comprising administering said anti-viral composition, immunogenic agent, vaccine or said pharmaceutical composition to an individual having, or suspected of having, a viral infection.

Disclosed herein are CMV-specific CARs. In some embodiments. the present invention is directed to a method of treating, reducing, or inhibiting an infection by a cytomegalovirus in a subject, which comprises administering to the subject (a) an expression vector that encodes a CMV-specific CAR as described herein, or (b) one or more cells that are transduced with the expression vector.

The invention provides a human herpesvirus immunogenic peptide comprising a novel antigenic domain (AD) of glycoprotein B, termed AD-6. The invention also provides a nucleic acid sequence encoding said immunogenic peptide and an inhibitor that binds to said 5 immunogenic peptide. Also provided are an immunogenic composition, a pharmaceutical composition and a vaccine comprising said immunogenic peptide, nucleic acid sequence or inhibitor, and methods of treating or preventing a human herpesvirus infection.

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.

Immunogenic compositions and prophylactic or therapeutic vaccines for use in protecting and treating against human cytomegalovirus (CMV) are disclosed. Subunit vaccines comprising a human CMV protein complex comprising pUL128 or pUL130, and nucleic acid vaccines comprising at least one nucleic acid encoding a CMV protein complex comprising pUL128 or pUL130 are described. Also disclosed are therapeutic antibodies reactive against a CMV protein complex comprising pUL128 or pUL130, as well as methods for screening compounds that inhibit CMV infection of epithelial and endothelial cells, methods for immunizing a subject against CMV infection, methods for determining the capability of neutralizing antibodies to inhibit CMV infection of cell types other than fibroblasts, and methods of diminishing an CMV infection.

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.

This invention relates generally to the inhibition of cytomegalovirus (CMV) reactivation in immunosuppressed subjects, including subjects receiving hematopoietic or solid organ transplants. The present invention is particularly relevant for the treatment of CMV reactivation or infection in subjects with graft-versus-hosts disease (GVHD) or under immunosuppressive therapy.

The present invention provides binding molecules having one or more of (preferably all of) highly specific binding to the US28 protein of human cytomegalovirus (HCMV), very low levels of non-specific binding to healthy (non-infected) cells, and/or a strain-agnostic binding ability, as well as nucleic acid molecules encoding the said binding molecules. The binding molecules are designed to bind to extracellular domain 3 (ECD3) of a US28 protein of human cytomegalovirus (HCMV), the third of the four extracellular domains presented by US28, corresponding to positions 167 to 183 of the US28 protein sequence as defined by SEQ ID NO:5. The binding molecules of the present invention have been demonstrated to have excellent binding properties, including particular binding specificity for aggressive and/or metastasizing HCMV-infected cancers, including breast cancers. In certain preferred embodiments, the binding molecule is selected from an antibody (including, for example, a BiTE antibody) and a chimeric antigen receptor (CAR), or functional variants, fragments, fusion proteins, and/or conjugates thereof. Also provided are cells expressing said binding molecules, such as CAR-expressing cells, including CAR-T cells, CAR-NK cells, and CAR-M cells.

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.