Disclosed is an Ad7-vectored vaccine for preventing SARS-CoV-2 infection, which is an adenovirus vectored vaccine, comprising an Ad7 vector loaded with a nucleic acid sequence shown in SEQ ID NO: 1. Some embodiments of the disclosure have good safety and are convenient to use. Experiments have shown that the vaccine is capable of producing more S protein in human cells, which is expected to be developed as a vaccine for preventing SARS-CoV-2 infection. Some embodiments of the disclosure may be used in combination with other vaccines, and may also be used as therapeutic vaccines for COVID-19. When a patient is vaccinated with the Ad7-vectored vaccine of the present disclosure at the initial stage of infection, the vaccine can quickly induces immune response in the human body, thereby achieving a therapeutic effect.

Disclosed are compositions and virus-like particles (VLPs) self-assembled from the expression of human immunodeficiency virus (HIV) Gag protein and a fragment of gp41 protein containing its N-terminus ectodomain. The fragment of gp41 protein is linked to an antigen that is not a peptide or protein from HIV, which is presented by HIV VLP. In some aspects, the presented antigen is trimerized. Also disclosed are methods of inducing an immune response against the antigen.

The present invention discloses novel recombinant multivalent non-pathogenic Marek's Disease virus constructs that encode and express both Infectious Laryngotracheitis Virus protein antigens and an Infectious Bursal Disease virus protein antigen, and methods of their use in poultry vaccines.

Provided herein is an in-series synthetic receptor circuit for dual-antigen AND-gate control over expression of a therapeutic payload by engineered cells. In some embodiments, the circuit may be composed of a first binding-triggered transcriptional switch, a second binding-triggered transcriptional switch and a therapeutic payload (e.g., a chimeric antigen receptor), where binding of the first binding-triggered transcriptional switch to a first antigen activates expression of the second binding-triggered transcriptional switch, and binding of the second binding-triggered transcriptional switch to a second antigen activates expression of the therapeutic payload. If the cell is an immune cell and the therapeutic payload is a chimeric antigen receptor, then the immune cell may be activated by binding of the chimeric antigen receptor to a third antigen. Methods of treatment using the cell also provided.

The invention relates to transgene expressing Newcastle Disease Viruses (NDV), which have been demonstrated to possess significant oncolytic activity against mammalian cancers and/or an improved safety profile. The invention provides novel oncolytic viruses through the use of genetic engineering, including the transfer of foreign genes or parts thereof, such as genes encoding Atezolizumab or Bevacizumab. The present invention also provides nucleic acids encoding a reverse genetically engineered (rg-)NDV comprising one or more of these foreign genes and having a mutation in the HN gene, said mutation allowing replication of said rgNDV in a cancer cell to a higher level than replication of an otherwise identical rgNDV not having said mutation in the HN gene.

The present invention relates to immunogenic compositions comprising RSV F protein, methods for preparing compositions that contain RSV F protein ecto-domain polypeptides, and to certain engineered RSV F proteins and nucleic acids that encode the engineered RSV F proteins. Compositions prepared using the methods can contain RSV F protein ecto-domain polypeptides in a predominant or single desired form and conformation. The invention also relates to methods for inducing an immune response to RSV F.

Disclosed herein are recombinant viruses and/or insect cells suitable for detecting the infection of a pathogen in a biological sample of a test subject. The information derived from the detection may also be used to render a diagnosis on whether the test subject is infected with the pathogen or not, so that proper course of treatment may be assigned to the subject. Also disclosed herein is a vaccine for the prophylaxis and/or treatment of infection caused by said pathogen.

The present disclosure relates to a method for stimulating tumor antigen-specific immune responses comprising cancer vaccination involving the blockade or inhibition of interferon signaling. In particular, the method comprises administering an inhibitor of interferon signaling and a cancer vaccine comprising a tumor antigen, wherein the inhibitor of interferon signaling is administered before the cancer vaccine.

The present invention relates to immunogenic compositions comprising RSV F protein, methods for preparing compositions that contain RSV F protein ecto-domain polypeptides, and to certain engineered RSV F proteins and nucleic acids that encode the engineered RSV F proteins. Compositions prepared using the methods can contain RSV F protein ecto-domain polypeptides in a predominant or single desired form and conformation. The invention also relates to methods for inducing an immune response to RSV F.

Provided herein are recombinant poxviruses that are stable through successive passaging of the recombinant poxviruses. More particularly, the recombinant poxviruses comprise one or more modified nucleic acids encoding MUC1, CEA, and/or TRICOM antigens, wherein the recombinant poxviruses are stable through successive passaging. Also, provided herein are compositions and method related thereto.