This invention comprises: compositions comprising a derivative, plasmids, a reagent kit and methods of making these compositions a derivative, vaccine- and non-vaccine-compositions of above for causing death of cancer cells that form part of a tunoour and virus infected Denguue, Measles and other diseased cells; the derivative comprising replicating as well as non-replicating dervivaties of an attenuated negative stranded RNA virus belonging to family paramyxoviridae, including Measles Virus, comprising a single additional transcriptional unit carrying either only one or two or more non-viral genes, and the non-replicating derivatives being free from contaminating replicating Measles Virus (b) a Measles Virus packaging cell line for making above compositions, expressing the M, F and H proteins of MV stably. And (c) a reagent kit for producing the Measles Virus derivatives describved above.

Outer membrane vesicles from bacteria of the Burkholderia pseudomallei complex can be used as adjuvants in compositions and methods to potentiate the immune response to immunogens.

The present invention relates to polynucleotides comprising a sequence of a live, infectious, attenuated Flavivirus wherein a nucleotide sequence encoding at least a part of a Filovirus glycoprotein is located at the intergenic region between the E and NS1 gene of said Flavivirus, such that a chimeric virus is expressed, characterised in that the encoded sequence C terminally of the E protein of said Flavivirus and N terminally of the signal peptide of the NS1 protein of said Flavivirus comprises in the following order: a further signal peptide of a Flavivirus NS1 protein, a filovirus glycoprotein wherein the N terminal signal peptide is absent, a TM domain of a flaviviral E protein.

Specific resurfaced Dengue virus glycoprotein subunit E DIII variants and their uses in preventing and treating Dengue virus infection are disclosed. Provided herein are specific resurfaced Zika virus glycoprotein subunit E DIII variants and their uses in preventing and treating Zika virus infection. Multivalent vaccines comprising such resurfaced EDIII variants are also described, in addition to nanoparticle conjugated resurfaced EDIII variants.

The present invention relates to a biodegradable nanocomplex. The biodegradable nanocomplex comprises a first electrically charged substance, a charge-redistribution substance, a second electrically charged substance and a carried substance, for holding the carried substance inside. The first electrically charged substance and the carried substance have the same electrical polarity, and the biodegradable nanocomplex has a nonuniformally and positively charge distribution along a radial direction thereof. The nonuniformally and positively charge distribution comprises a first electrically charged portion having substantially electrical neutrality, a second electrically charged portion surrounding the first electrically charged portion, and a third electrically charged portion surrounding the second electrically charged portion, in which the third electrically charged portion comprises an outermost surface of the biodegradable nanocomplex, thereby modulating the carried substance towards the desired immune responses via the nonuniformally and positively charge distribution.

Described herein are processes for purifying infectious virus particles and uses of protamine in such processes.

Aspects of the disclosure relate to attenuated flaviviruses for use in vaccines and immunogenic compositions. Embodiments include methods for treating or preventing one or more conditions, for example flavivirus infection, using an attenuated flavivirus. In some embodiments, the disclosed methods and compositions involve one or more attenuated flaviviruses that are capable of inducing a protective immune response.

The present disclosure relates to Zika vaccines. In certain embodiments, this disclosure relates to vaccine compositions for use in methods of protecting a human subject against Zika disease or infection, wherein said composition comprises a vaccinal for Zika such as a live attenuated or inactivated chimeric Zika virus; live attenuated Zika virus; an inactivated Zika virus; a replication-defective pseudo-infectious Zika virus; a Zika virus-like particle (VLP), a Zika protein or combinations thereof. In certain embodiments, the Zika vaccinal comprises or encodes altered polypeptide sequences disclosed herein.

Chimeric proteins that comprise one or more amino acid sequences of an insect-specific flavivirus and one or more other immunogenic proteins are provided. The chimeric proteins are suitably capable of forming virus particles. The chimeric protein and/or virus particle may be suitable for delivery to a subject to elicit an immune response to a pathogen and/or for diagnosis or detection of a pathogen. Also provided are nucleic acids and vectors encoding the chimeric proteins, and isolated chimeric insect-specific flaviviruses comprising the chimeric proteins and/or nucleic acids.

Disclosed herein are methods, compositions, and kits useful to enhance an immune response against an antigen and to improve vaccine efficacy. The disclosed methods, compositions, and kits may be utilized to improve vaccine immunogenicity and enhance immune protection following subsequent antigen challenges. In some embodiments, the methods include co-administering a blocker of the IFN-I pathway with an antigen that is used as part of a vaccine, such as a viral vaccine.