Abstract: The present invention relates to a recombinant avian herpes virus, which comprises at least two recombinant nucleotide sequences, each recombinant nucleotide sequence encoding a distinct antigenic peptide, wherein the at least two recombinant nucleotide sequences are inserted into distinct non-coding regions of the viral genome chosen among the region located between UL44 and UL45, the region located between UL45 and UL46, the region located between US10 and SORF3, and the region located between SORF3 and US2.

Abstract: Disclosed are compositions and methods for related to mutant influenza viruses with increased fidelity.

Abstract: Disclosed are vaccine-derived neutralizing antibodies (NAbs) for CMV infections and small peptides which define precise recognition elements of the antigens by the NAbs. In certain embodiments, vaccine-derived NAbs may be produced by immunizing a subject with a gH/gL/UL128/UL130/UL131A pentameric glycoprotein complex (gH/gL-PC). In certain embodiments, vaccine-derived NAbs may have properties similar or identical to those of NAbs induced in a subject naturally infected with CMV. Native and non-native small peptides from UL128 and gH have been defined by mapping epitopes and deriving artificial sequences which are minimal recognition elements of vaccine-derived NAbs disclosed herein. These small peptides can be used to elicit vaccine-derived NAbs that prevent CMV entry into susceptible cell types and protect humans from infection and disease. Multivalent vaccines comprising these small peptides and/or epitopes are also disclosed.

Abstract: Provided herein are optimized, recombinant influenza HA polypeptides that elicit immune responses. Also provided are compositions and kits comprising the optimized HA polypeptides as well as methods of making and using the optimized HA polypeptides.

Abstract: The present invention develops a vaccine composition against and treatment or prevention on inflammation and lung injury (particularly hyperoxia-induced lung injury) and progression of periodontitis. Tn immunization increases serum anti-Tn antibody titers, while it decreases lavaged protein and cytokines, and also decreases mean linear intercept and lung injury score. Furthermore, the improvement in lung injury is accompanied by a decrease in NF-?B activity.

Abstract: Provided herein are tetravalent antibodies that specifically bind to human PSGL-1. Unlike bivalent antibodies, these tetravalent antibodies contain a dimer of two monomers, with each monomer comprising two light chain variable (VL) domains and two heavy chain variable (VH) domains. This format allows for cross-linker/FcR-expressing cell-independent tetravalent antibodies against PSGL-1 that show enhanced efficacy as compared to bivalent PSGL-1 antibodies. These tetravalent antibodies can be used in a variety of diagnostic and therapeutic methods, including without limitation treating T-cell mediated inflammatory diseases, transplantations, and transfusions.

Abstract: The present invention provides a composition for use as the protectant for a live attenuated influenza virus vaccine, comprising the following components at the following concentrations: human serum albumin: 1.0-15.0 g/L, sugar: 15.0-95.0 g/L, and sodium glutamate: 0.5-15.0 g/L. The present invention also provides a process for preparing a live attenuated influenza vaccine with the composition according to the present invention, comprising the following steps: dissolving the components of the composition according to the present invention sequentially into a pH buffer solution, adjusting the pH to a specified value, performing filtration sterilization, and adding virus stock to give the live attenuated influenza vaccine. The present invention further provides a live attenuated influenza vaccine, which may be used as an injection or nasal spray.

Abstract: Compounds (such as peptides or peptide mimetics) that bind to HIV RRE RNA are provided. In some examples, the compounds inhibit (for example, decrease) binding of Rev to the RRE RNA. In some embodiments, the compounds include two moieties, each of which bind to one of the Rev binding sites in the RRE. In some examples, the moieties include peptides or small molecules. In some examples, the peptides include an arginine-rich motif. The RRE binding compounds may be further linked to a detectable label or cargo moiety. Also provided are methods of treating or inhibiting HIV including administering one or more of the RRE binding compounds to a subject.

Abstract: The present invention relates to variants of herpes simplex virus (HSV) that selectively infect and replicate in cancer cells, including HSV strains that selectively infect and replicate in bladder cancer cells. Preferred HSV of the invention have intact endogenous Us11 and Us12 genes and have genes encoding ICP34.5 replaced with a gene encoding Us11 fused to an HSV immediate early (IE) promoter. The variant HSV of the invention also comprise one or more additional heterologous genes encoding immunomodulatory polypeptides. Methods and compositions using these variant HSV, for example, for treating cancer in a subject, are also provided.

Abstract: The present invention relates to dengue virus vaccine compositions comprising a first and a second dengue vaccine, wherein the first dengue vaccine comprises at least one live, 5 attenuated dengue virus or live, attenuated chimeric dengue virus and the second dengue vaccine is a recombinant dengue subunit vaccine, a DNA vaccine, a conjugate vaccine, or an inactivated dengue vaccine; wherein the genome of the live attenuated dengue virus or the live attenuated chimeric dengue virus comprises a 30 nucleotide deletion of the TL2 stem-loop structure of the 3? untranslated region. The dengue virus vaccine compositions of the invention may further 10 comprise one or more adjuvants. In preferred embodiments of the invention, the first and the second dengue vaccine are tetravalent.

Abstract: The present disclosure relates, in part, to pharmaceutical compositions comprising one or more polynucleotides suitable for enhancing, increasing, augmenting, and/or supplementing the levels of Collagen alpha-1 (VII) chain polypeptide and/or Lysyl hydroxylase 3 polypeptide and/or Keratin type I cytoskeletal 17 polypeptide in a subject. The present disclosure also relates, in part, to pharmaceutical compositions and methods of use for providing prophylactic, palliative, or therapeutic relief of a wound, disorder, or disease of the skin in a subject, including a subject having, or at risk of developing, one or more symptoms of epidermolysis bullosa.

Abstract: Provided herein are methods to characterize preparations of recombinant viral particles using analytical ultracentrifugation. Recombinant viral particles include recombinant adeno-associated viral particles, recombinant adenoviral particles, recombinant lentiviral particles and recombinant herpes simplex virus particles. Variant species of recombinant viral particles including empty capsids and recombinant viral particles with variant genomes (e.g., truncated genomes, aggregates, recombinants) can be identified and quantitated. The methods can be used to characterize preparations of recombinant viral particles regardless of the sequence of the recombinant viral genome or the serotype of the recombinant viral capsid.

Abstract: A peptide comprising the rhinovirus immunogen peptide of the rhinovirus structural protein 1 (VP1) of rhinovirus C and related vaccines and therapeutic compositions is disclosed.

Abstract: Human cytomegalovirus vectors comprising heterologous antigens are disclosed. The vectors derived from the TR strain, are ganciclovir-sensitive, include active US2, US3, US6, US7 and UL131A genes, and have a deleterious or inactivating mutation in the UL82 gene preventing the expression of pp71.

Abstract: Provided is a method for producing non-enveloped viral particles, comprising a step for obtaining a fraction containing non-enveloped viral particles by removing precipitates which are produced in a step for adding a substance which reduces the solubility of proteins under acidic conditions and/or a substance which precipitates under acidic conditions to a neutral or basic sample containing non-enveloped viral particles, and acidifying the sample after the addition of the substance.

Abstract: The present application discloses stability-indicating potency assays for influenza vaccines.

Abstract: The invention is directed to an oral vaccine composed of a micronized freeze-dried rotavirus particle emulsion with buffering excipients in a non-aqueous liquid. This IVT-06 formulation has imparted heat stability by protecting the virus at temperatures of 30° C. and 40° C. for at least twelve months. Extrapolations from the 12-month stability data indicate a shelf life of more than two years at 30° C., and six months at 50° C. In addition, for ease of administration, the formulated dose has a volume of 0.5 mL.

Abstract: The present invention provides monoclonal antibodies that bind to the Middle East Respiratory Syndrome-Coronavirus (MERS-CoV) spike protein, and methods of use. In various embodiments of the invention, the antibodies are fully human antibodies that bind to MERS-CoV spike protein. In some embodiments, the antibodies of the invention are useful for inhibiting or neutralizing MERS-CoV activity, thus providing a means of treating or preventing MERS infection in humans. In some embodiments, the invention provides for a combination of one or more antibodies that bind to the MERS-CoV spike protein for use in treating MERS infection. In certain embodiments, the one or more antibodies bind to distinct non-competing epitopes comprised in the receptor binding domain of the MERS-CoV spike protein.

Abstract: The invention provides anti-Factor D antibodies and conjugates and methods of using the same.

Abstract: The invention relates to an influenza viruses hemagglutinin protein as a vaccine antigen against influenza viruses, in particular to a protein being a fragment of H5 hemagglutinin from highly pathogenic avian influenza virus (HPAIV) H5N1 strain, expressed in a bacterial expression system. The protein according to the invention is a potential ingredient of an anti-HPAIV H5N1 vaccine, administered to chickens parenterally or through mucous membranes in the presence of adjuvants. The object of the invention is also a method of obtaining the vaccine protein.