HIV neutralizing peptides, sulfated HIV-1 envelope proteins and immunogenic fragments thereof are disclosed, as well as nucleic acids encoding these molecules and methods of producing these peptides, envelope proteins and fragments. Methods are also provided for the treatment or prevention of a human immunodeficiency type 1 (HIV-1 ) infection. The methods can include administering to a subject an HIV neutralizing peptide, sulfated HIV-1 envelope protein or immunogenic fragment thereof as disclosed herein. In several embodiments, administering the HIV neutralizing peptide, sulfated HIV-1 envelope protein or immunogenic fragment generates an immune response in a subject.

HIV-1 Env ectodomain trimers stabilized in a prefusion mature closed conformation and methods of their use and production are disclosed. In several embodiments, the HIV-1 Env ectodomain trimers and/or nucleic acid molecules can be used to generate an immune response to HIV-1 in a subject. In additional embodiments, the therapeutically effective amount of the HIV-1 Env ectodomain trimers can be administered to a subject in a method of treating or preventing HIV-1 infection.

Disclosed herein is a vaccine comprising an antigen and IL-21. Also disclosed herein are methods for increasing an immune response in a subject. The methods may comprise administering the vaccine to the subject in need thereof.

This invention provides improved replication-competent adenoviral vectors. The improved vectors have both a hybrid regulatory unit that provides for high level transgene expression. The vectors can be use, e.g., for therapeutic or prophylactic purposes.

HIV-1 envelope proteins and fragments that possess naturally occurring and novel engineered epitopes that can be used to elicit (and are recognized by) broadly neutralizing antibodies.

This disclosure provides HIV immunogens and use thereof for generating an immune response in a subject. Also disclosed is a method of isolating anti-HIV antibodies and use thereof. This disclosure further provides a method for treating or preventing a human immunodeficiency type 1 (HIV-1) infection in a subject using the disclosed HIV immunogens and/or antibodies.

The present invention provides a recombinant bacterium and methods of using the recombinant bacterium to induce an immune response.

In certain aspects the invention provides a selection of HIV-1 envelopes suitable for use as immunogens, and methods of using these immunogens to induce neutralizing antibodies. In certain embodiments, the immunogens are designed to trimerize. In other embodiments, the immunogenic compositions and methods comprise at least one agent for transient immune response modulation during vaccination.

Disclosed herein are compositions that include antigen-encoding nucleic acid sequences and/or antigen peptides. Also disclosed are nucleotides, cells, and methods associated with the compositions including their use as vaccines against infectious diseases such as HIV.

The present invention provides novel scaffolded HIV-1 vaccine immunogens. Some of the scaffolded immunogens contain a soluble gp140 trimer linked to the N-terminus of the nanoparticle subunit and a T-helper epitope that is fused via a short peptide spacer to the C-terminus of the nanoparticle subunit. Some other immunogens of the invention contain a soluble gp140 trimer protein that is linked to a stable nanoparticle via a short peptide spacer that is a T-helper epitope. Some of the scaffolded immunogens contain a gp140 trimer immunogen presented on a nanoparticle platform formed with I3-01 protein, E2p, or variants of protein 1VLW. Also provided in the invention are nucleic acids that encode the various vaccine immunogens described herein, and expression vectors and host cells harboring the nucleic acids. The invention further provides methods of using the scaffolded HIV-1 vaccine immunogens for preventing or treating HIV infections.