Disclosed are means, methods, and compositions of matter for prophylaxis and/or treatment of SARS-CoV-2 by administration of dendritic cells in a manner and frequency sufficient to induce activation of innate and/or adaptive immune responses. In one embodiment the invention teaches administration of dendritic cells pulsed with one or more innate immune stimulants in a manner endowing said dendritic cell with ability to induce augmentation of natural killer (NK) cell number and/or activity. In another embodiment the invention teaches the use of dendritic cells stimulated with innate immune activators in a manner to allow for uptake of viral particles and presentation of viral epitopes to T cells in order to stimulate immunological activation and/or memory responses.

An object of the present invention is to improve the efficiency of a method for producing chimeric antigen receptor (CAR)-expressing cells. The present invention provides a method for producing genetically modified mammalian cells, comprising the steps of: a) introducing a polynucleotide encoding a chimeric antigen receptor (CAR) protein to a cell population comprising T cells derived from a mammal by a transposon method to obtain a genetically modified cell population; b) providing an endogenous cell population derived from the mammal expressing a protein that binds to the CAR; and c) coculturing the genetically modified cell population of the step a) and the endogenous cell population of the step b).

The present invention relates to a method for ex vivo generating and expanding γδ Foxp3.sup.+ regulatory T cells, and therapeutic uses thereof. The inventors performed the induction of Foxp3+ expression in ex vivo human induced tumor-antigen specific CD4+ TCRγδ unrestricted T cells and the induction of autologous CD8-mediated T-cell responses against tumor-antigen specific FOXP3 expressing CD4+ TCRγδ unrestricted T cells. The inventors developed a method to ex vivo generated and expanded antigen specific Foxp3 expressing CD3+ TCRγδ+ unrestricted T cells, committed to exclusively exert regulatory activity, whichever culture condition of stimulation is. In particular, the present invention relates to a method for generating ex vivo γδ Foxp3+ regulatory T cells having the following phenotype: CD3+ TCRγδ+ Foxp3+.

The invention provides compositions and methods for the treatment of cancer and infectious diseases.

The invention discloses a method for amplifying antigen-specific regulatory T cells in vitro, belonging to the technical field of biomedicine. The invention adopts Rapamycin combined with TGF-β cells to induce human T cells into antigen-specific regulatory T cells with immunosuppressive function in vitro by the action of DC cells, which has the advantages as follows: 1) the amount is sufficient; 2) the obtained regulatory T cells can resist differentiation to Th17 cells; 3) the obtained regulatory T cells have stronger inhibitory functions and biological effects compared with the regulatory T cells induced by other methods. The invention overcomes many defects of natural regulatory T cells and has greater therapeutic advantages in the treatment of inflammatory diseases, autoimmune diseases and prevention of organ transplant immunological rejection.

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 application relates to the delivery of immunomodulatory molecules, including cytokines, to the situs of tissue scaffolds, and wounds including injuries.

The present invention relates to a method for ex vivo generating and expanding MHCII restricted CD4.sup.+ Foxp3.sup.+ regulatory T cells, and therapeutic uses thereof. The inventors here demonstrated the optimal conditions for inducing Foxp3 expression in naive CD3+ CD4+ TCRαβ+ MHCII restricted T following polyclonal or following antigen-specific activation. They also developed an experimental procedure to generate autologous CD8+ T cell lines functionally committed to lyse tumor-antigen specific FOXP3 expressing TCRαβ+ MHCII restricted T cells, pathogenic CD4+ T cells that favour tumor cell immune evasion. In particular, the present invention relates to a method for generating ex vivo MHCII restricted CD4+ Foxp3+ regulatory T cells having the following phenotype: CD3+ CD4+ Foxp3+.

Provided are: a composition for inducing direct conversion from somatic cells into common myeloid progenitor cells, the composition including a chemical cocktail; a method of direct conversion of somatic cells into common myeloid progenitor cells and macrophages by using the composition; common myeloid progenitor cells or macrophages prepared by the method; a pharmaceutical composition for preventing or treating fibrosis or scars, cell therapeutics, a composition for screening drugs, and a 3D printable biomaterial composition for fabricating artificial tissues, each using the common myeloid progenitor cells or the macrophages.

Provided is a method for preparation of a composition comprising activated human CD8.sup.+ and natural killer (NK) lymphocytes. The method entails use of mature dendritic cells as feeder cells added at an early stage in CD4.sup.+ mediated activation of the CD8.sup.+ cells. Also provided is a method for treatment of cancer using the cells obtained from the process.