The present invention provides novel processes, compositions, and methods for analyzing or assaying the potency and/or functionality of tumor infiltrating lymphocyte (TIL) products for use in therapy, including human cancer therapy, and analyzing or assaying the potency and/or functionality of other polyclonal products, such as marrow infiltrating lymphocyte (MIL) and peripheral blood lymphocyte (PBL) products. Compositions, methods, and kits for preparing and treating cancer using TIL, MIL, and PBL products are also provided.

Provided herein are, inter alia, compositions comprising ex vivo expanded ILC1 cells, methods of preparing the compositions, and methods useful for treating cancer and leukemia.

CD22 antibodies, a preparation method therefor, and an application thereof. The CD22 antibodies have a high affinity to CD22 protein Therefore, the CD22 antibodies can be used in the preparation of drugs for the treatment of diseases such as tumors and autoimmune diseases.

Provided herein are methods of treating a solid malignant tumor using antigen-specific T cells and methods of managing tumor flare in treatment of a solid malignant tumor using antigen-specific T cells. The methods provided herein improve the safety of treatment by informing the patient about the potential risks for tumor flare, telling the patient to contact his or her physician if tumor swelling occurs, counseling a patient with Waldeyer's ring lymphadenopathy to contact his or her physician if shortness of breath or stridor occurs, or grading and managing tumor flare developed in the patient.

The present disclosure relates generally to modified NK cell compositions and methods of using the modified cell compositions in immunotherapy applications. In embodiments, the modified cell express a chain and a chain. In embodiments, the modified NK cell compositions can be used to treat various cancers.

An immunoresponsive cell, such as a T-cell expressing (i) a second generation chimeric antigen receptor comprising: (a) a signalling region; (b) a co-stimulatory signalling region; (c) a transmembrane domain; and (d) a binding element that specifically interacts with a first epitope on a target antigen; and (ii) a chimeric costimulatory receptor comprising (e) a co-stimulatory signalling region which is different to that of (b); (f) a transmembrane domain; and g) a binding element that specifically interacts with a second epitope on a target antigen.

This arrangement is referred to as parallel chimeric activating receptors (pCAR). Cells of this type are useful in therapy, and kits and methods for using them as well as methods for preparing them are described and claimed.

The present invention relates to a modified T cell, comprising (a) a disrupted endogenous CD28-encoding gene; and (b) a polynucleotide encoding a chimeric antigen receptor (CAR), wherein the CAR comprises in its ectodomain at least one antigen binding moiety that is capable of specific binding to the extracellular portion of CD28. The invention furthermore relates to a population of the modified T cells, to a method for generating modified T cells and medical and non-medical uses thereof.

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.

A family of chimeric antigen receptors (CARs) containing a CD123 specific scFv was developed to target different epitopes on CD123. In some embodiments, such a CD123 chimeric antigen receptor (CD123CAR) gene includes an anti-CD123 scFv region fused in frame to a modified IgG4 hinge region comprising an S228P substitution, an L235E substitution, and optionally an N297Q substitution; a costimulatory signaling domain; and a T cell receptor (TCR) zeta chain signaling domain. When expressed in healthy donor T cells (CD4/CD8), the CD123CARs redirect T cell specificity and mediated potent effector activity against CD123+ cell lines as well as primary AML patient samples. Further, T cells obtained from patients with active AML can be modified to express CD123CAR genes and are able to lyse autologous AML blasts in vitro. Finally, a single dose of 5.0?10.sup.6 CAR123 T cells results in significantly delayed leukemic progression in mice. These results suggest that CD123CAR-transduced T cells may be used as an immunotherapy for the treatment of high risk AML.

The present invention relates to compositions and methods for treating diseases, disorders or conditions associated with the expression of the glycosyl-phosphatidylinositol (GPI)-linked GDNF family protein ?-receptor 4 (GFR?4).