The invention relates to a mammalian cell, particularly a human cell, expressing a first isoform of a surface protein, wherein the first isoform is functionally indistinguishable, but immunologically distinguishable from a second isoform, for use in a medical treatment of a patient having cells expressing the second isoform form of the surface protein. The invention further relates to an agent selected from 1) a compound comprising, or consisting of, an antibody or antibody-like molecule and 2) an immune effector cell bearing an antibody-like molecule or an immune effector cell bearing a chimeric antigen receptor, for use in a method of treatment of a medical condition, wherein the agent is specifically reactive to either a first or a second isoform of a surface protein, wherein the first isoform is functionally indistinguishable, but immunologically distinguishable from the second isoform, and wherein the agent is administered to ablate a cell bearing the isoform that the agent is reactive to.

The present disclosure relates to tagged chimeric effector molecules and receptor molecules thereof for genetically engineering a host cell, wherein the recombinant host cell can be identified, isolated, sorted, induced to proliferate, tracked or eliminated using the tag. An exemplary receptor molecule is a chimeric antigen receptor (CAR) having an extracellular domain comprising a binding domain for a target, a hinge region, and a tag cassette, a hydrophobic portion as a transmembrane domain and an intracellular part with an effector domain. An exemplary target is CD19. An exemplary tag is a Strep Tag?. T cells recombinantly modified for expression of such molecules may be used in adoptive immunotherapy.

The present invention relates generally to immunization and immunotherapy for the treatment or prevention of HIV. In particular, the methods include in vivo and/or ex vivo enrichment of HIV-specific CD4+ T cells.

Methods and compositions are provided for combined transplantation of a solid organ and hematopoietic cells to a recipient, where tolerance to the graft is established through development of a persistent mixed chimerism. An individual with persistent mixed chimerism, usually for a period of at least six months, is able to withdraw from the use of immunosuppressive drugs after a period of time sufficient to establish tolerance.

The present invention provides a method of carrying out adoptive immunotherapy in a primate subject in need thereof by administering the subject a cytotoxic T lymphocytes (CTL) preparation in a treatment-effective amount. The method comprises administering as the CTL preparation a preparation consisting essentially of an in vitro expanded primate CTL population, the CTL population enriched prior to expansion for central memory T lymphocytes, and depleted prior to expansion of effector memory T lymphocytes. In some embodiments, the method may further comprise concurrently administering Interleukin-15 to the subject in an amount effective to increase the proliferation of the central memory T cells in the subject. Pharmaceutical formulations produced by the method, and methods of using the same, are also described.

Provided in the present invention are a specific antibody of BCMA and a BCMA-targeting immune effector cell, and also provided are a chimeric antigen receptor-modified T cell prepared using the antibody and the use thereof.

Provided are a fusion protein comprising an antibody binding area and an endocytic functional area, the encoding nucleic acid of the protein, an expression vector of same, a host cell thereof, and an immune effector cell expressing the fusion protein or the endocytic functional area or further expressing a chimeric antigen receptors. Also provided are an immunoconjugate comprising a cell-killing part and an antibody conjugate in a specifically-binding immune effector cell or an antibody of the endocytic functional area, a reagent kit and uses of the immunoconjugate, and a method for specifically removing, selecting, or enriching and detecting the immune effector cell.

The present disclosure relates to methods for using BCMA-specific binding molecules (such as a BCMA-specific chimeric antigen receptor or antibody) in combination with -secretase inhibitors, which can be done concurrently or sequentially, to treat or prevent a B-cell related proliferative disease, such as a cancer or autoimmune disease, or the like. A BCMA-specific binding molecule in combination with -secretase inhibitor can be used in, for example, adoptive immunotherapy.

Provided herein are methods of modulating, in vivo, cells engineered with a recombinant receptor, such as a T cell receptor (TCR) or chimeric antigen receptor (CAR). In some embodiments, the methods include disrupting an area in the subject in which the cells are present or likely to be present or were present or were likely to be present, such as a lesion, including a tumor. In some embodiments, the disruption alters the environment of the lesion, e.g. tumor microenvironment. In some embodiments, the disruption is a biopsy. In some aspects, the provided methods result in increased expansion, and, in some cases, a more robust and durable response, of the engineered cells after carrying out the disruption.

Described herein are compositions including an immune effector cells that are chemically modified at the surface with one or more active agent-loaded nano- or micro-particles for controlled release of the active agent. Exemplary drug-loaded nanoparticles include crosslinked multilayer liposome (CMLV) encapsulating an A2a receptor inhibitor. The modified immune effector cells may also present one or more chimeric antigen receptors (CARs) on the surface. Also provided are methods of using the same to treat cancer.