Compositions are disclosed that induce broadly HIV therapeutic and vaccine inducing antibodies against diverse HIV clades and relate to the ability to identify HIV gp120-derived short peptide sequence immunogens and various therapeutic compositions made from the identified peptides which compose CCR5 binding sites. Also disclosed are methods of selecting peptide sequences that are likely candidates for drugs which will offer effective treatment in such areas as Alzheimer's disease, psoriasis, multiple sclerosis and other diseases associated with the human inflammatory cascade as well as related retroviruses such as HTLV-1, the cause of tropical spastic paraparesis.

The subject invention concerns methods and materials for inducing an immune response in an animal or person against an immunodeficiency virus, such as HIV, SIV, or FIV. In one embodiment, a method of the invention comprises administering one or more antigens and/or immunogens to the person or animal wherein the antigen and/or immunogen comprises one or more evolutionarily conserved epitopes of immunodeficiency viruses. In one embodiment, the epitope is one that is conserved between HIV and SIV, or between HIV and FIV. In another embodiment, the epitope is one that is conserved between HIV, SIV, and FIV.

The recombinant rhesus cytomegalovirus (RhCMV) and human cytomegalovirus (HCMV) vectors of this invention encode heterologous antigens, such as pathogen-specific antigens or tumor antigens, which may be used, for example, for the treatment or prevention of infectious disease or cancer. The recombinant RhCMV or HCMV vectors elicit and maintain high level cellular immune responses specific for the heterologous antigen while including deletions in one or more genes essential or augmenting for CMV replication, dissemination or spread.

A pharmaceutical composition includes, as active substance a mutated non-primate lentiviral Env protein having decreased immunosuppressive properties, substantially no immunosuppressive properties or no immunosuppressive properties, or a variant of the mutated lentiviral Env protein, or a fragment of the above proteins, in association with a pharmaceutically acceptable carrier.

This disclosure relates to recombinant bacteria, e.g. L. lactis, expressing heterologous pili containing human immunodeficiency virus (HIV) antigens. In certain embodiments, the recombinant bacteria are administered in combination with other HIV antigens, nucleic acids encoding HIV antigens, recombinant virus encoding HIV antigens, anti-viral agents and/or adjuvants in an effective amount to elicit a mucosal immune response against HIV.

The present disclosure provides fusion proteins that incorporate unique mechanisms for multimerizmg antigens to enhance their immunogenicity. The fusion proteins comprise at least two antigens, or other vaccine related proteins, separated by a linker sequence and an oligomerization domain. When expressed, the fusion protein forms a muKimeric protein complex, This approach can be used to muHimeri?.e a single antigen/protein or to create multimers comprising two or more different antigens/proteins. Also provided are nucleic acids encoding the fusion proteins, Yet another aspect is directed to methods of inducing or suppressing an immune response in a subject by administering to the subject a vaccine composition comprising a fusion protein or nucleic acid encoding the fusion protein, optionally without using an adjuvant.

Briefly described, virus-like particles, methods of preparing virus-like particles, immunogenic compositions that include virus-like particles, and methods of eliciting an immune response using immunogenic compositions that include virus-like particles are described herein. A virus-like particle (VLP) can include a viral core protein that can self assemble into the VLP core and at least one viral surface envelope glycoprotein expressed on the surface of the VLP. The VLP can also optionally include at least one adjuvant molecule expressed on the surface of the VLP.

Selection of HIV vaccine antigens by use of intrapatient sequence variation to identify mutations in the HIV envelope glycoprotein that affect the binding of broadly neutralizing antibodies and polypeptides identified by these methods.

A modified HIV gp120 protein labeled with a fluorophore has been used herein in single-molecule imaging techniques to demonstrate the conformation states of HIV-1 Env. The introduction of small organic fluorophores at selected positions within HIV-1 envelope protein gp120 that do not affect infectivity permits the detection of changes in inter-dye distances as a measure of conformational changes. Implementation of the smFRET-based technologies disclosed herein enable conformational screening for molecules that block, induce or trap HIV-1 Env in specific conformational states. Methods for identifying anti-HIV drugs in a smFRET-based screening, and various reagents useful for implementation of such methods, are provided.

The current disclosure provides for the simultaneous isolation and selection of antigen-specific T cells by providing engineered proteins, cell lines, and viruses that have a peptide-major histocompatibility complex (pMHC) on the surface of the virus that facilitates transduction of the T cell that, through the T cell receptor (TCR), specifically binds to the peptide in the pMHC complex. Accordingly, aspects of the disclosure relate to proteins, cells, and viral particles that can achieve these methods.