Compositions and methods are provided for treating diseases associated with CD100, including certain autoimmune diseases, inflammatory diseases, and cancers. In particular, anti-CD100 monoclonal antibodies have been developed to neutralize CD100.

A bi-specific genetically modified immune cell, comprising a first antigen binding moiety that is specific to CD83 and a second antigen binding moiety that is specific to interleukin 6 receptor (IL-6R). Also provided herein are uses of such bi-specific genetically modified immune cells for suppressing alloreactive donor cells in cell transplantation.

Chimeric autoantibody receptors (CAARs) can include separate signaling and recognition constructs that are able to bind ligands that target autoantigens made of conventional amino acids, non-conventional amino acids, carbohydrates, or nucleic acids. Additionally, the present disclosure describes cells modified to express such constructs and the use of such constructs and/or cells in the treatment of autoimmune disease.

Described herein are immunoresponsive cells which are useful for their preventive and therapeutic potential against autoimmune diseases and rejections of solid organ transplants.

The invention relates to a system, comprising: a) a sample processing unit, comprising an input port and an output port coupled to a rotating container having at least one sample chamber, the sample processing unit configured provide a first processing step to a sample or to rotate the container so as to apply a centrifugal force to a sample deposited in the chamber and separate at least a first component and a second component of the deposited sample; and b) a sample separation unit coupled to the output port of the sample processing unit, the cell separation unit comprising separation column holder (42), a pump (64) and a plurality of valves (1-11) configured to at least partially control fluid flow through a fluid circuitry and a separation column (40) positioned in the holder, the separation column configured to separate labeled and unlabeled components of sample flowed through the column.

Antibody-mediated rejection (ABMR) is one of the main obstacles to successful transplantation, including ABO blood group-incompatible (ABOi) transplantation. C4d deposition is a marker of ABMR and is also found in most ABOi allograft tissues. Described herein are anti-C4d CAR Tregs that suppress ABMR in ABOi allografts. Anti-C4d CAR Tregs prepared by retroviral transduction of CAR into CD62L +CD4 +CD25 +Tregs, expressed Foxp3, CD25, CTLA-4, LAP, and GITR to similar extents as non-transduced Tregs. Anti-C4d CAR Tregs were activated by specific binding to C4d and suppressed in vitro T cell proliferation as well as non-transduced Tregs. Furthermore, adoptive transfer of anti-C4d CAR Tregs significantly prolonged mouse ABOi heart allograft survival (P<0.05).

This invention provides a method for depleting a subject's hematopoietic stem cells comprising administering to the subject an effective amount of a radiolabeled anti-CD45 antibody, such as .sup.131I-BC8 or .sup.225Ac-BC8. This invention also provides a method for treating a subject afflicted with a non-cancerous disorder treatable via genetically edited cell therapy comprising (i) administering to the subject an amount of a radiolabeled anti-CD45 antibody effective to deplete the subject's hematopoietic stem cells, and (ii) after a suitable time period, performing the therapy on the subject to treat the subject's disorder. Finally, this invention provides articles of manufacture for performing the subject methods.

The present invention describes a method for treating cancer comprising adoptive transfer of tumor antigen specific CD8+ T cells and an oncolytic virus vaccine targeting the same antigen.

Modulators of syndecan-2, such as an antibody to syndecan-2 that cross-links syndecan-2 on the cell surface or a syndiecan-2 polypeptide that interferes with syndecan-2 receptor binding, is used to regulate a Th17 mediated disease such as an autoimmune disease, fibrosis or cancer.

The present invention relates to novel immunoregulatory macrophage cells which are useful in the treatment of different immunological and non-immunological diseases and conditions. The cells are characterized by a specific marker and activity pattern which distinguishes them from other cells. The novel immunoregulatory macrophage cells have a high phagocytosing capacity and are capable to suppress the proliferation of T cells. The invention also provides a novel process for preparing immunoregulatory macrophage cells in suspension culture from blood monocytes. The process is amenable to a high degree of automation. In a still further aspect, the invention relates to a pharmaceutical composition comprising the immunoregulatory macrophage cells of the invention.