Disclosed are means, methods and compositions of matter useful for amplification of adaptive immune responses towards neoplastic tissue. In one embodiment, immunization of a patient is performed by a means comprising of administering either an exogenous vaccine or stimulation of immunogenicity of the tumor so as to cause release of antigens/increased exposure of antigens, thus resulting in an “endogenous” vaccine. Subsequent to vaccination a patient is treated by an immunopheresis procedure, in order to allow for removal of “blocking factors” produced by the tumor or produced by cells programmed by tumors to produce said blocking factors. In one embodiment further immunization is performed subsequent to removal of said blocking factors in order to allow for enhancement of adaptive immune responses.

Provided in the present disclosure are immunogenic compounds, pharmaceutical formulations thereof and their use for inducing a protective immune response against 2019 novel coronavirus (SARS-CoV-2) infection and variants in a mammal.

Disclosed herein are compositions that include modified adenoviruses. Also disclosed are nucleotides, cells, and methods associated with the compositions including their use as vaccines. Also disclosed herein are viral vectors using TET promoter system and methods of producing viruses having the same.

The present invention provides a combination of an agonist of stimulator of interferon response cGAMP interactor 1 (STING) and a vaccine including specific antigens or antigenic epitopes, namely, a complex comprising a cell penetrating peptide, at least one antigen or antigenic epitope, and a TLR peptide agonist. Such a combination is particularly useful in medicine, in particular in the prevention and/or treatment of cancer. Moreover, the present invention also provides compositions, such as a pharmaceutical compositions and vaccines, which are useful, for example, in the prevention and/or treatment of cancer.

The present invention relates to nanoparticles complexed with biomacromolecule agents configured for treating, preventing or ameliorating various types of disorders, and methods of synthesizing the same. In particular, the present invention is directed to compositions comprising nanoparticles (e.g., synthetic high density lipoprotein (sHDL)) carrying biomacromolecule agents (e.g., nucleic acid, peptides, glycolipids, etc.), methods for synthesizing such nanoparticles, as well as systems and methods utilizing such nanoparticles (e.g., in diagnostic and/or therapeutic settings).

The present application relates generally to genetically modified arenaviruses that are suitable vaccines against neoplastic diseases, such as cancer. The arenaviruses described herein may be suitable for vaccines and/or treatment of neoplastic diseases and/or for the use in immunotherapies. In particular, provided herein are methods and compositions for treating a neoplastic disease by administering a genetically modified arenavirus in combination with an immune checkpoint inhibitor, wherein the arenavirus has been engineered to include a nucleotide sequence encoding a tumor antigen, tumor associated antigen or antigenic fragment thereof.

The disclosure provides T-cell compositions, therapies and processes of manufacture that are tailored to the specific antigenic expression of a subjects' tumor and allowing for changes in expression over time based on either pressure from antineoplastic therapy or natural heterogeneous selection. The disclosure also extends to methods of manufacturing such T-cell compositions and the generation of single antigen T-cell banks from healthy donors to provide an improved personalized T-cell therapy.

CORONAVIRUS IMMUNOGENIC COMPOSITIONS AND USES THEREOF Provided in the present disclosure are immunogenic compounds, pharmaceutical formulations thereof and their use for inducing a protective immune response against 2019 novel coronavirus (SARS-CoV-2) infection and variants in a mammal.

Disclosed are means, methods and compositions of matter useful for amplification of adaptive immune responses towards neoplastic tissue. In one embodiment, immunization of a patient is performed by a means comprising of administering either an exogenous vaccine or stimulation of immunogenicity of the tumor so as to cause release of antigens/increased exposure of antigens, thus resulting in an “endogenous” vaccine. Subsequent to vaccination a patient is treated by an immunopheresis procedure, in order to allow for removal of “blocking factors” produced by the tumor or produced by cells programmed by tumors to produce said blocking factors. In one embodiment further immunization is performed subsequent to removal of said blocking factors in order to allow for enhancement of adaptive immune responses

Provided is a T cell receptor (TCR) having a feature of binding to a VLDGLDVLL-HLA A2 complex. The binding affinity of the TCR to the VLDGLDVLL-HLA-A0201 complex is at least 2 times of the binding affinity of a wild-type TCR to the VLDGLDVLL-HLA-A0201 complex. Also provided is a fusion molecule of the TCR and a therapeutic agent. The TCR can be used alone or in combination with a therapeutic agent to target a tumor cell presenting the VLDGLDVLL-HLA-A0201 complex.