The present invention provides an agent for promoting graft survival which can suppress rejection without use of existing immunosuppressants, an organ preservation solution capable of maintaining the freshness of an organ excised from a donor, and the like. An agent for promoting graft survival or an organ preservation solution is prepared, which comprises 5-aminolevulinic acid (ALA) or a derivative thereof, or a salt of ALA or the derivative and an iron compound as active ingredients. Preferable examples of the ALAs can include ALA and various esters such as methyl ester, ethyl ester, propyl ester, butyl ester, and pentyl ester of ALA, and their hydrochlorides, phosphates, and sulfates. Preferable examples of the iron compound can include sodium ferrous citrate.

Compositions and methods are disclosed herein for producing one or more immunoglobulins in an isolated B lymphocyte cell line. An isolated recombinant cell line includes an isolated B lymphocyte cell line capable of expressing at least one endogenous membrane immunoglobulin reactive to a first antigen and at least one exogenously incorporated nucleic acid encoding at least one secreted immunoglobulin reactive to a second antigen.

The present invention relates to a CD4.sup.+ T cell that produces high levels of IL-10 for use in the treatment and/or prevention of a tumor that expresses CD13, HLA-class I and CD54 and/or for use in inducing Graft versus tumour (GvT). The present invention relates also to a composition comprising said cell and to a method to select a subject to be treated with said cell.

Methods for increasing the numbers of regulatory T cells (Treg), e.g., in a population of T cells or in a patient.

The invention provides compositions and methods for treating diseases associated with expression of CD33. The invention also relates to chimeric antigen receptor (CAR) specific to CD33, vectors encoding the same, and recombinant T cells comprising the CD33 CAR. The invention also includes methods of administering a genetically modified T cell expressing a CAR that comprises a CD33 binding domain.

The invention provides compositions and methods for treating cancer by using immune effector cells (e.g., T cells, NK cells) engineered to conditionally express an agent which enhances the immune effector response of an immune effector cell that expresses a Chimeric Antigen Receptor (CAR). The conditional agents described herein include agents that target a cancer associated antigen, e.g., a CAR, agents that inhibit one or more checkpoint inhibitors of the immune response, and a cytokine.

The present disclosure provides a heterodimeric, conditionally active chimeric antigen receptor (CAR), and a nucleic acid comprising a nucleotide sequence encoding the CAR. The present disclosure provides cells genetically modified to produce the CAR. A CAR of the present disclosure can be used in various methods, which are also provided.

The invention relates to an inhibitory chimeric antigen receptor (N-CAR) comprising an extracellular domain comprising an antigen binding domain, a transmembrane domain, and, an intracellular domain wherein the intracellular domain comprises an Immunoreceptor Tyrosine-based Switch Motif ITSM, wherein said ITSM is a sequence of amino acid TX.sub.1YX.sub.2X.sub.3X.sub.4, wherein X.sub.1 is an amino acid X.sub.2 is an amino acid X.sub.3 is an amino acid and X.sub.4 is V or

There is provided a chimeric antigen receptor (CAR) comprising a CD19-binding domain which comprises a) a heavy chain variable region (VH) having complementarity determining regions (CDRs) with the following sequences: CDR1-GY-AFSSS (SEQ ID No. 1); CDR2-YPGDED (SEQ ID No. 2) CDR3-SLLYGDYLDY (SEQ ID No. 3); and b) a light chain variable region (VL) having CDRs with the following sequences: CDR1-SASSSVSYMH (SEQ ID No. 4); CDR2-DTSKLAS (SEQ ID No. 5) CDR3-QQWNINPLT (SEQ ID No. 6). There is also provided a cell comprising such a CAR, and the use of such a cell in the treatment of cancer, in particular a B cell malignancy.

The current invention provides methods to identify ?9?2T-cell receptors (?9?2TCR) that mediate anti-tumor responses. Surprisingly, it was now found that the CDR3 regions of the ?9-T-cell receptor chain and the ?2-T-Cell receptor chain (?2TCR chain) are of importance. Based on these findings, combinatorial-??TCR-chain-exchange (CTE) is proposed as an efficient method for identifying ?9?2TCRs that mediate anti-tumor responses. Using the method of the invention, specific sequences of the respective ?9TCR and ?2TCR chains were identified that mediate anti-tumor responses. Hence, the invention further provides for specific ?9?2TCRs, or fragments thereof, that may be used e.g. in diagnostics or treatment of cancer. The invention further provides for nucleic acid sequences, genetic constructs and retroviral vectors that can be used to express the ?9?2TCRs according to the invention.