The present disclosure is directed, in some embodiments, to methods and compositions of comprising a cell having a non-internalizing receptor, and a nanoparticle surface-modified with a ligand that binds to the non-internalizing receptor.

The present disclosure is directed, in some embodiments, to methods and compositions of comprising a cell having a non-internalizing receptor, and a nanoparticle surface-modified with a ligand that binds to the non-internalizing receptor.

Methods and compositions for treating autoimmune diseases and conditions using engineered myeloid cells.

Provided are a simple and convenient method for preparing universal immune cells and the use thereof. The method comprises placing allogeneic immune cells and specific cell mitogens, cytokines, and immunologic adjuvants in a liquid cell culture medium to be co-cultured in a culture container, so as to obtain a universal immune cell culture with a high immunocompetence. Many clinical long-term practical applications have proven that the universal immune cells are safe and reliable, durable and effective, and have no rejection reaction. Therefore, the universal immune cells can be used as maternal cells of other types of universal immune cell preparations, such as CAR-T and TCR-T, and can be used in fields including adoptive cellular immunotherapy, etc.

The present invention relates to an in vitro cell culture method comprising a step of contacting T-cells with an MPC inhibitor, and further to a cell population comprising T-cells with a memory phenotype obtained by said method, preferably, wherein the T-cells are human cells. The present invention also relates to a method for generating and/or maintaining T-cells and/or B-cells with a memory phenotype comprising the steps of culturing T-cells and or B-cells in vitro and adding an MPC inhibitor to the culture. The invention furthermore relates to a population of T-cells and/or B-cells obtained by the methods of the invention. Also provided are immunotherapies using the cells of the invention. Furthermore, provided is an MPC inhibitor for use in immunotherapy and/or as a vaccine co-adjuvant.

The present invention provides a use of IFN-γ in preparing an anti-tumor adjuvant drug, wherein the IFN-γ enhances killing effect of the T cell preparation on tumor cell by sensitizing the tumor cell; the T cell preparation comprises non-genetically engineered T cell and/or genetically engineered T cell; and the IFN-γ comprises full-length or fragment of wild-type or mutant IFN-γ. The present invention revises the current understanding of IFN-γ in the prior art and finds that the IFN-γ inhibits the acquired immune resistance mediated by PD-L1-PD-1 and enhances the anti-tumor effect of immunotherapy by activating the IFN-γ signaling pathway in tumor cell.

Polypeptides, nucleic acids, and compositions thereof are provided that include a targeting moiety. The polypeptides, nucleic acids, and compositions that comprise them, can be used in methods to treat subjects, to alter CAR-expressing cells in subjects who may suffer from a disease such as a cancer or a pathogen.

The present disclosure is directed, in some embodiments, to methods and compositions of comprising a cell having a non-internalizing receptor, and a nanoparticle surface-modified with a ligand that binds to the non-internalizing receptor.

The disclosure features amphiphilic ligand conjugates comprising a chimeric antigen receptor (CAR)ligand and a lipid. The disclosure also features compositions and methods of using the same, for example, to stimulate proliferation of CAR expressing cells.

This disclosure relates to therapeutics containing IL-37, chimeric antigen receptors, nucleic acids, or vectors encoding the same. In certain embodiments, this disclosure relates to methods of treating cancer comprising administering a nucleic acid or vector encoding interleukin-37 to a subject diagnosed with cancer and administering T cells expressing a chimeric antigen receptor to the subject. In certain embodiments, this disclosure relates to methods of treating cancer comprising administering a nucleic acid or vector encoding interleukin-37 and a chimeric antigen receptor to a subject diagnosed with cancer.