Polyvalent, primary isolate nucleic acid compositions for inducing an immune response against HIV are disclosed. The compositions and methods described herein are for the use of a nucleic acid composition that encodes one or more different HIV envelope glycoproteins. The synthetic, codon-optimized DNAs encoding one or more HIV proteins are a combination of different nucleic acids, such as DNA plasmids, generated from primary isolate DNA of different HIV major group genetic clades and/or different proteins. HIV polypeptide compositions for inducing an immune response against HIV are also disclosed. Methods for using the polypeptide compositions before, at the same time as, and/or after administration of the DNA compositions are provided.

The invention relates to the combination therapy comprising oncolytic adenovirus vector and a checkpoint inhibitor or checkpoint inhibitors. More specifically, the invention relates to oncolytic adenovirus vector and checkpoint inhibitor or checkpoint inhibitors for use in a cancer therapy.

The present invention relates to an isolated humanized protein binding to human Glycoprotein VI (hGPVI) for treating a GPVI-related condition in a subject in need thereof, wherein said isolated humanized protein is to be administered during at least 2 hours to the subject, preferably during at least 4 to 6 hours.

The present disclosure relates to monoclonal antibodies and antigen-binding fragments thereof that bind to human β-klotho, and pharmaceutical compositions and methods of treatment comprising the same.

The present disclosure is directed to antibodies binding to and neutralizing Zika virus and methods for use thereof.

A composition for treating and/or preventing Hepatitis B virus infection and Hepatitis B virus infection mediated diseases and the method thereof are provided. In some embodiments, the composition includes a polyriboinosinic acid-polyribocytidylic acid (PIC), at least one antibiotic or polyamide compound, at least one positive ion, and Hepatitis B virus surface antigen. In some embodiments, the composition includes PIC, at least one antibiotic or polyamide compound, at least one positive ion, Hepatitis B virus surface antigen and Hepatitis B virus core antigen. The present disclosure also relates to a method of treating and/or preventing Hepatitis B virus infection, particularly for treating chronic HBV infection.

The present invention is directed to a method of booster vaccination and to a vaccine composition for use in such a method, for inducing in a human subject a neutralizing antibody response, wherein said subject has previously received a primary vaccination against each of serotypes 1 to 4 of dengue virus and was dengue naïve before said primary vaccination, said composition comprising a dengue antigen of at least one of serotypes 1 to 4 or a nucleic acid construct capable of expressing said antigens in the subject, wherein said booster vaccination results in a 2-fold increase in the neutralizing antibody titre against each of serotypes 1 to 4. The invention is also directed to a method of inducing in a human subject a neutralizing antibody response comprising the administration of a vaccine composition, or to a vaccine composition for use in such a method, said composition comprising a dengue antigen of each of serotypes 1 to 4, or a nucleic acid construct capable of expressing in said subject a dengue antigen of each of serotypes 1 to 4; wherein said composition is administered as a primary vaccination, followed by a booster vaccination, and wherein the human subject is initially dengue naïve.

Compositions and methods for inducing a protective immune response against Coxiella burnetii, to reduce a subject's risk of developing Q fever.

Disclosed herein are methods of forming compounds and exemplary stable compounds in the nature of a conjugated compound at refrigerated or room temperature, which in some embodiments comprises an antigen and virus particle mixed in a conjugation reaction to form a conjugate mixture, such that the conditions and steps of forming these products allow for use of the conjugate mixture as a vaccine, including but not limited to use as a vaccine against various pathogens including for treatment of diseases caused by novel coronaviruses (including SARS-COV 2).

To develop a universal and long-lasting influenza or other pathogens vaccine has been a mission impossible goal in the life science and health field. Applicants disclose, herein, vaccines prepared against SARS-COV-2, an influenza A strain vaccine prepared from a 1934 influenza virus (A/PR/8/34 H1N1, Puerto Roca, 1934), and an influenza B strain vaccine prepared from a 1940 influenza virus. The disclosed vaccine induces production of broadly neutralizing antibodies in mice. The presently disclosed vaccine is able to inhibit two other influenza A strains: a 2009 influenza H1N1 virus collected from Los Angeles (A/California/07/2009) and a 2014 influenza H3N2 virus collected from Hong Kong (A/Hongkong/4801/2014). Applicants also describe an influenza B strain vaccine prepared from a B strain virus from a 1940 patient in USA (B/L11/40). The B strain vaccine also produced broadly neutralizing antibodies, in this case against a B strain from Colorado 2017 (B/Colorado/2017). Applicant's methods and compositions are not only useful in creating influenza vaccines with broad activity against other influenza subtypes but also be efficient to generate long-lasting SARS-CoV-2 vaccines against emerging new variants either through recombined protein antigens from SARS-CoV-2 or inactivated SARS-CoV-2 virus.