Provided are HIV-1 fusion polypeptides, polynucleotides encoding such fusion polypeptides, vectors expressing such fusion polypeptides for use in eliciting an immune response against HIV-1; pharmaceutical and immunogenic compositions and kits comprising such fusion polypeptides, polynucleotides or vectors, and methods of use in treating and/or preventing HIV-1. Further provided are methods for design of antiviral vaccines, including vaccines to elicit an immune response against HIV-1.

The invention generally provides compositions and methods of treating or preventing an arenavirus infection, using an agent that inhibits binding of an arenavirus glycoprotein 1 (GP1) polypeptide to transferrin receptor 1 (TfR1). The invention also provides methods of designing or identifying therapeutic agents that bind to or target a GP1 receptor-binding site (RBS) to inhibit arenavirus attachment to a cell, and therapeutic agents identified using the methods.

Provided herein are genetically engineered Pichinde viruses that include three ambisense genomic segments. The first genomic segment includes a coding region encoding a Z protein and a coding region encoding a L RdRp protein. The second genomic segment includes a coding region encoding a nucleoprotein (NP) and the third genomic segment includes a coding region encoding a glycoprotein. Each of the second and third genomic segments optionally include an additional coding region that may encode an antigen or a detectable marker. Also provided herein is a reverse genetics system for making a genetically engineered Pichinde virus, and a collection of vectors that can be used to produce a genetically engineered Pichinde virus. Further provided are methods for using a reverse genetics system, and methods for producing an immune response in a subject.

The invention relates to recombinant measles virus expressing Lassa virus polypeptides, and concerns in particular immunogenic LASV particles expressed by a measles virus and/or virus like particles (VLPs) that contain proteins of a Lassa virus. These particles are recombinant infectious particles able to replicate in a host after an administration. The invention provides means, in particular nucleic acid constructs, vectors, cells and rescue systems to produce these recombinant infectious particles. The invention also relates to the use of these recombinant infectious particles, in particular under the form of a composition, more particularly in a vaccine formulation, for the treatment or prevention of an infection by Lassa virus.

Provided herein are genetically modified arenaviral vectors suitable as vaccines for prevention and treatment of cytomegalovirus infections and reactivation. Also provided herein are pharmaceutical compositions and methods for the treatment of cytomegalovirus infections and reactivation. Specifically, provided herein are pharmaceutical compositions, vaccines, and methods of treating cytomegalovirus infections and reactivation.

The present application relates to arenaviruses expressing prostate cancer-related antigens. In particular, described herein is a modified arenavirus particle which is engineered to carry a heterologous open reading frame (ORF) encoding a prostate cancer-related antigen or an antigenic fragment thereof, wherein the prostate cancer-related antigen is selected from the group consisting of: prostatic acid phosphatase (PAP), prostate specific antigen (PSA), and prostate-specific membrane antigen (PSMA). Also described herein are arenavius genome segments or S segments encoding the prostate cancer-related antigen or an antigenic fragment thereof, cDNA, DNA expression vector, a pharmaceutical composition comprising such an arenavirus particle, methods of generating such an arenavirus particle and treating prostate cancer using such an arenavirus particle, and a kit for such usage.

The present application relates to arenavirus particles containing a genome engineered such that an arenaviral open reading frame (ORF) is sequestered into two or more functional fragments and these fragments are expressed from two or more viral mRNA transcripts. The arenavirus particles described herein are genetically stable and provide high-level transgene expression. In certain embodiments, the arenavirus particles are tri-segmented. In particular, described herein is a nucleotide sequence comprising one or more ORFs comprising a nucleotide sequence encoding a functional fragment of arenavirus GP, NP, L or Z. Also described herein is an arenavirus particle containing a genome engineered such that an arenaviral ORF is sequestered into two or more functional fragments and these fragments are expressed from two or more viral mRNA transcripts. Also described herein is an arenavirus genomic or antigenomic segment engineered such that the transcription thereof results in one or more mRNA transcripts comprising a nucleotide sequence encoding a functional fragment of arenavirus GP, NP, L or Z. The arenavirus particles described herein may be suitable for vaccines and/or treatment of diseases and/or for the use in immunotherapies.

The invention relates to an infectious arenavirus particle that is engineered to contain a genome with the ability to amplify and express its genetic information in infected cells but unable to produce further infectious progeny particles in normal, not genetically engineered cells. One or more of the four arenavirus open reading frames glycoprotein (GP), nucleoprotein (NP), matrix protein Z and RNA-dependent RNA polymerase L are removed or mutated to prevent replication in normal cells but still allowing gene expression in arenavirus vector-infected cells, and foreign genes coding for an antigen or other protein of interest or nucleic acids modulating host gene expression are expressed under control of the arenavirus promoters, internal ribosome entry sites or under control of regulatory elements that can be read by the viral RNA-dependent RNA polymerase, cellular RNA polymerase I, RNA polymerase II or RNA polymerase III. The modified arenaviruses are useful as vaccines and therapeutic agents for a variety of diseases.

Provided are HIV-1 fusion polypeptides, polynucleotides encoding such fusion polypeptides, vectors expressing such fusion polypeptides for use in eliciting an immune response against HIV-1; pharmaceutical and immunogenic compositions and kits comprising such fusion polypeptides, polynucleotides or vectors, and methods of use in treating and/or preventing HIV-1. Further provided are methods for design of antiviral vaccines, including vaccines to elicit an immune response against HIV-1.

The present application provides immunotherapies for Hepatitis B virus infections. Provided herein are genetically modified arenaviral vectors suitable as vaccines for prevention and treatment of Hepatitis B virus infections. Also provided herein are pharmaceutical compositions and methods for the treatment of Hepatitis B virus infections. Specifically, provided herein are pharmaceutical compositions, vaccines, and methods of treating Hepatitis B virus infection.