The present application provides enhanced antigen presenting cells comprising an agent that enhances the viability and/or function of the antigen presenting cell and/or an antigen and/or an adjuvant, methods of manufacturing such modified antigen presenting cells, and methods of using such modified antigen presenting cells, such as for modulating an immune response in an individual.

Methods for producing an antibody or an antigen-binding fragment thereof specifically binding to an antigen of interest, methods for inducing proliferation of PBMCs, B cell activation and differentiation, B cell maturation, and/or promoting class switch in an antibody-producing PBMC to produce IgG, compositions for the in vitro immunization and methods for identifying an antibody-enhancing factor for in vitro immunization.

The invention relates to pharmaceutical compositions that contain COVID-19 peptide specific cytotoxic T cells, and to methods for treating or preventing COVID-19 infection.

Provided is a method for expanding a human DC cell. The method includes the step of contacting a cell sample of a DC cell to be expanded with a viral transactivator protein sourcing from simian-T-lymphotropic virus (STLV). Also provided are an expanded DC cell prepared by the method, and a DC cell and data repository constructed by the method.

The invention relates to pharmaceutical compositions that contain viral peptide specific cytotoxic T cells (CTLs), methods for producing viral peptide specific CTLs, and to methods for treating or preventing viral infection.

Devices, systems, and methods can be used for the automated production of dendritic cells (DC) from dendritic cell progenitors, such as monocytes obtained from peripheral blood, and the automated generation of immunotherapeutic products from those dendritic cells, all within a closed system. The invention makes it possible to obtain sufficient quantities of a subject's own DC for use in preparing and characterizing vaccines, for activating and characterizing the activation state of the subject's immune response, and to aid in preventing and/or treating cancer or infectious disease.

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.

Provided herein are methods and systems for bio-printing of three-dimensional organs and organoids. Also provided herein are bio-printed three-dimensional organs and organoids for use in the generation and/or the assessment of immunological products and/or immune responses. Also provided herein are methods and system for bio-printing three-dimensional matrices.

This disclosure is directed to methods of preparing dendritic cells or other CD40 bearing antigen-presenting cells and methods of treating cancer by using the dendritic cells or other antigen-presenting cells in combination with anti-chemorepellant agents. This disclosure is further directed to methods of preparing T cells and methods of treating cancer, by activated T cells optionally in combination with anti-chemorepellant agents. The antigen presenting cells of the disclosure are activated by incubation with cancer cells and fusion proteins. The T cells of the disclosures are activated by incubation with activated antigen-presenting cells that were activated by incubation with cancer cells and a fusion protein. In particular, the fusion protein comprises an antigen-binding domain, e.g., an antibody or antibody fragment, and a stress protein domain.

Described herein are compositions and methods for treating a disease, particularly a cancer, with an immune checkpoint modulatory agent and a strain of an Arbovirus or a strain of an Alphavirus. Also provided herein are also methods for combination therapy comprising administration of an immune checkpoint modulatory agent, tumor antigen primed dendritic cells and an Alphavirus or an Arbovirus.