The present invention pertains to peptide-containing complexes/nanoparticles that are useful for stabilizing and/or delivering one or more molecules of a genome-editing system, such as proteins and/or nucleic acids, for example CRISPR proteins and/or nucleic acids.

The instant disclosure provides chimeric polypeptides which modulate various cellular processes following a cleavage event induced upon binding of a specific binding member of the polypeptide with its binding partner. Methods of using chimeric polypeptides to modulate cellular functions, including e.g., induction of gene expression, are also provided. Nucleic acids encoding the subject chimeric polypeptides and associated expression cassettes and vectors as well as cells that contain such nucleic acids and/or expression cassettes and vectors are provided. Also provided, are methods of treating a subject using the described components and methods as well as kits for practicing the subject methods.

Embodiments of the disclosure concern methods and compositions for immunotherapy for diseases and malignancies associated with viruses other than HPV or with non-virus-associated diseases and malignancies, such as wherein the VST encodes a CAR specific for a non-viral cancer and the VST can be stimulated in vitro or in vivo using viruses, viral vaccines or oncolytic viruses. In specific embodiments, methods concern production of immune cells that target one or more antigens of HIV, EBV, CMV, adenovirus, vaccinia virus, and/or VZV, including methods with stimulation steps that employ IL-7 and IL-15, but not IL-2, IL-4, or both. Other specific embodiments utilize stimulations in the presence of certain cells, such as costimulatory cells and certain antigen presenting cells.

Provided herein are chimeric antigen receptors that binds specifically to B-cell maturation antigen (BCMA) and CD307e, nucleic acids that encode these chimeric antigen receptors, and methods of making and using these chimeric antigen receptors.

Antigen binding molecules, chimeric receptors, and engineered immune cells to FLT3 are disclosed in accordance with the invention. The invention further relates to vectors, compositions, and methods of treatment and/or detection using the FLT3 antigen binding molecules and engineered immune cells.

Disclosed herein are methods for culturing CAR-modified immune cells with at least one Retinoic Acid Receptor and/or Retinoid X Receptor active agent.

Disclosed herein are methods for culturing CAR-modified immune cells with at least one Retinoic Acid Receptor and/or Retinoid X Receptor active agent.

The presently disclosed subject matter relates to immunoswitch particles that switch off immunosuppressive pathways on tumor cells or immunosuppressive molecules induced by tumor cells in the tumor microenvironment, or virus infected cells or immunosuppressive molecules induced by virus infected cells in the microenvironment surrounding the virus infected cells, while simultaneously switching on co-stimulatory or co-inhibitory pathways on T cells, as well as method for converting immunosuppressive infections.

Disclosed herein are chimeric antigen receptor effector cells (CAR-ECs) and CAR-EC switches. The switchable CAR-ECs are generally T cells. The one or more chimeric antigen receptors may recognize a peptidic antigen on the CAR-EC switch. The CAR-ECs and switches may be used for the treatment of a condition in a subject in need thereof.

This document relates to materials and methods for treating cancer. For example, this document provides materials and methods for using PD-L1 targeting domains in bispecific chimeric polypeptides, chimeric transmembrane polypeptides, genetically modified viruses, nucleic acid vectors, and/or fusion-inducing cells to treat cancer.