The present disclosure is related to compositions that include polynucleotides encoding chimeric receptors, methods of delivering polynucleotides encoding chimeric receptors to immune cells, and methods of using immune cells encoding chimeric receptors to treat or prevent a neurological disease, disorder, or injury.

The present disclosure relates to immune cells that express an exogenous neoantigen and an immunogenicity enhancer, or to T cells that express an exogenous neoantigen, and their use in treating a disease or disorder, such as cancer for tumor associated neoantigens. Related expression constructs, kits, host cells, pharmaceutical compositions, and methods are also provided.

Provided are a tumour antigen polypeptide having the amino acid sequence as shown in SEQ ID NO: 2 or a variant thereof; a nucleic acid encoding same; a nucleic acid construct, an expression vector, and a host cell comprising the encoding nucleic acid; and an antigen presenting cell presenting the tumour antigen polypeptide on the cell surface and an immune effector cell thereof. Also provided is the use of the polypeptide, nucleic acid, antigen presenting cell or immune effector cell in the diagnosis, prevention and treatment of cancers.

Described herein are compositions and methods for treating cancer through the combination of tumor antigen-pulsed dendritic cells and Dengue Virus. The combination of the two forms of therapeutic intervention provides enhanced tumor cell reduction compared to either alone. The cancer targeted by compositions and methods described herein may be a solid cancer or blood cancer.

We provide new methods of in vitro or in vivo enhancing the T-cell stimulatory capacity of human DCs and the use thereof in cancer vaccination. The method includes the introduction of different molecular adjuvants to human DCs by contacting or modifying them with mRNA or DNA molecule(s) encoding CD40L, and CD70 or constitutively active TI R4 (caTIR4).

Disclosed are pharmaceutical compositions for inducing an immune response against tumor cells comprising tumor cells which are made apoptotic by treatment with high hydrostatic pressure and dendritic cells, and methods for producing such compositions.

The present disclosure provides for methods and compositions for the modulation of CD5 in a subject. Also provided are methods of detecting and monitoring diseases, such as inflammatory and autoimmune diseases.

Disclosed provides a method of treating measure residue disease (MRD) in a subject with cancer using an allogeneic leukemia-derived cell as a vaccine based on the information provided by prognostic biomarkers comprising dendritic cells including cDC1 cDC2, and/or pDC; CD8+ T cells including CD8+CD45RA+ cells, CD8+CD45RA? CCR7+CM T cells, and/or CD8 RO+ T cells; B cells; NK cells including CD56++NK cells and/or CD56+NK cells; CD4 CD161+ T cells; CD14+CD16? non-inflammatory monocytes, or any combination thereof.

The present disclosure provides retro-inverso Tregitope compounds and compositions as well as methods for their preparation and use.

The present invention relates to a method for generating semi-mature dendritic cells by treating immature dendritic cells with the auto-antigen, cytokine, and PGE2 as a target for the treatment of autoimmune diseases, particularly rheumatoid arthritis, in which the levels of NR4A2 and/or UBASH3B at gene or protein are increased more than 2-fold compared to the immature dendritic cells In addition, the present invention relates to a cell therapeutic agent for treating or preventing autoimmune diseases, containing the semi-mature dendritic cells as an active ingredient. The present invention increases the therapeutic efficacy on rheumatoid arthritis retaining responsiveness to the same auto-antigen that being used for preparing semi-mature dendritic cells, thereby enabling cell therapy.