Provided are modified arenaviruses and populations thereof, wherein the modified arenaviruses include i) an introduced PPXY domain; ii) an increased number of PPXY domains; iii) a substituted amino acid in place of S41 in a viral Z protein that is not a substrate for a serine or tyrosine kinase, or a combination of i)-iii). A PPXY domain can include a phosphomimetic replacement of the Y amino acid. Modified Old World and New World arenaviruses are included. Arenavirus production is provided using cell cultures that contain a kinase inhibitor that inhibits a kinase that can phosphorylate the Y amino acid of the PPXY domain, or by cells that have disrupted kinase gene expression, or by cells that have a disrupted ESCRT system. Also provided are pharmaceutical formulations that contain modified arenaviruses, and methods of using such formulations for stimulating an immune response hat is fully or partially protective against arenavirus infection.

The present application relates to Pichinde viruses with rearrangements of their open reading frames (“ORF”) in their genomes. In particular. described herein is a modified Pichinde virus genomic segment, wherein the Pichinde virus genomic segment is engineered to carry a viral ORF in a position other than the wild-type position of the ORF. Also described herein are trisegmented Pichinde virus particles comprising one L segment and two S segments or two L segments and one S segment. The Pichinde virus, described herein may be suitable for vaccines md/or treatment of diseases and/or for the use in immunotherapies.

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.

Compositions and methods are described for generating an immune response to an arenavirus. The compositions and methods described herein relate to a modified vaccinia Ankara (MVA) vector encoding one or more viral antigens for generating a protective immune response to a member of genus Arenavirus (such as a member of species Lassa virus) in the subject to which the vector is administered. The compositions and methods of the present invention may be used to prevent and/or treat an infection caused by arenavirus.

The present application relates generally to genetically modified arenaviruses that are suitable for treating solid tumors, for example, via intratumoral administration. The arenaviruses described herein may be suitable for vaccines and/or treatment of solid tumors and/or for the use in immunotherapies. In particular, provided herein are methods and compositions for treating a solid tumor by administering a first arenavirus alone or in combination with another agent, including a second arenavirus, wherein the first and/or second arenavirus has been engineered to include a nucleotide sequence encoding a tumor antigen, tumor associated antigen or antigenic fragment thereof.

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.

The present application relates to Pichinde viruses with rearrangements of their open reading frames (ORF) in their genomes. In particular, described herein is a modified Pichinde virus genomic segment, wherein the Pichinde virus genomic segment is engineered to carry a viral ORF in a position other than the wild-type position of the ORF. Also described herein are trisegmented Pichinde virus particles comprising one L segment and two S segments or two L segments and one S segment. The Pichinde virus, described herein may be suitable for vaccines and/or treatment of diseases and/or for the use in immunotherapies.

Provided are modified arenaviruses and populations thereof, wherein the modified arenaviruses include i) an introduced PPXY domain; ii) an increased number of PPXY domains; iii) a substituted amino acid in place of S41 in a viral Z protein that is not a substrate for a serine or tyrosine kinase, or a combination of i)-iii). A PPXY domain can include a phosphomimetic replacement of the Y amino acid. Modified Old World and New World arenaviruses are included. Arenavirus production is provided using cell cultures that contain a kinase inhibitor that inhibits a kinase that can phosphorylate the Y amino acid of the PPXY domain, or by cells that have disrupted kinase gene expression, or by cells that have a disrupted ESCRT system. Also provided are pharmaceutical formulations that contain modified arenaviruses, and methods of using such formulations for stimulating an immune response hat is fully or partially protective against arenavirus infection. Also provided is a method for producing a population of arenaviruses that involves culturing cells that i) are infected with a wild type arenavirus, or ii) comprise one or more expression vectors encoding the arenavirus, wherein the cells are characterized by at least one of: a) comprising kinase inhibitor; or b) a modification such that expression of a kinase capable of phosphorylating a tyrosine in a PPXY domain of the arenavirus is inhibited or eliminated, or c) a disrupted ESCRT pathway.

The invention relates to recombinant VSV viruses and viral vectors which produce a glycoprotein GP of the lymphocyte choriomeningitis virus (LCMV) instead of the G protein of the VSV, to virus producing cells which produce LCMV-GP-pseudotyped VSV virions, and to the use of said vectors and cells in the therapy of solid tumors, especially brain tumors.

The invention relates to recombinant VSV viruses and viral vectors which produce a glycoprotein GP of the lymphocyte choriomeningitis virus (LCMV) instead of the G protein of the VSV, to virus producing cells which produce LCMV-GP-pseudotyped VSV virions, and to the use of said vectors and cells in the therapy of solid tumors, especially brain tumors.