The present invention relates to a novel chimeric antigen receptor comprising a CD99 region which participates in immune synapse stabilization as a backbone of the chimeric antigen receptor, an immune cell comprising the same, and the uses thereof. CD99-based CAR-T cells are capable of forming very stable immune synapses with tumor cells compared to conventional backbone-based CAR-T cells and can exhibit improved tumor therapeutic efficiency, so they can be useful for immune cell therapy for the treatment of cancer.

Disclosed herein are engineered cells and/or hypoimmunogenic cells including engineered and/or hypoimmunogenic stem cells, engineered and/or hypoimmunogenic cells differentiated therefrom, engineered and/or hypoimmunogenic CAR-T cells (primary or differentiated from engineered and/or hypoimmunogenic stem cells) and related methods of their use and generation. Provided herein are engineered and/or hypoimmunogenic cells exhibiting reduced expression of MHC class I and/or MHC class II human leukocyte antigens and T-cell receptors. In some embodiments, such cells also exogenously express one or more tolerogenic factors such as CD47 and one or more chimeric antigen receptors (CAR)s.

The disclosure provides a chimeric antigen receptor (CAR) polypeptide having an antigen binding domain comprising an extracellular lectin which specifically binds to glycoproteins expressed on the surface of target cells. Also provided herein are engineered lymphocytes expressing the CAR polypeptide, a nucleic acid molecule encoding the CAR polypeptide, and methods of treating cancer.

Embodiments of the present invention provide isolated proteins comprising antigen binding domains that bind kallikrein related peptidase 2 (hK2), including monospecific and bispecific antibodies. Additional embodiments of the invention provide polynucleotides encoding the hk2-specific proteins, vectors, host cells, and methods of making and using them.

Provided are methods for activating an antigen-presenting cell and eliciting an immune response by inducing an inducible pattern recognition receptor adapter, or adapter fragment, and CD40 activity. Also provided are nucleic acid compositions comprising sequences coding for chimeric proteins that include an inducible CD40 peptide and an inducible pattern recognition receptor adapter or adapter fragment.

The present disclosure provides compositions and methods for the delivery of immune cells to treat un-resectable or non-resected tumor cells and tumor relapse. The compositions comprise (i) a structure comprising an injectable polymer or scaffold comprising pores; (ii) lymphocytes disposed within the structure, (iii) at least one lymphocyte-adhesion moiety associated with the structure; and (iv) at least one lymphocyte-activating moiety associated with the structure, and optionally an immune stimulant.

Provided herein are methods for generating TILs that can then be employed in the treatment of patients having a cancer (e.g., a pediatric cancer, a uveal melanoma or mesothelioma).

The invention features compositions and methods useful in treating inflammation of the gut, such as inflammation associated with inflammatory bowel disease, by modulating ?? T cells (e.g., V?4+ cells). Particular embodiments include V?4+ cells expressing heterologous protein; polynucleotides containing genes contributing to functional expression of BTNL3, BTNL8, and HNF4A; methods of treating a subject using V?4+ cells or gene therapy; and methods of identifying a subject having imitations associated with inflammation of the gut. Compositions and methods of the invention can be used in the treatment of inflammation and cancer of the gut.

Provided herein are anti-CD20 antibodies and uses thereof for treatment and diagnosis. Also provided are CD20 antigens for the production of anti-CD20 antibodies and methods of generating anti-CD20 antibodies using the CD20 antigens.

Provided herein are anti-CD20 antibodies and uses thereof for treatment and diagnosis. Also provided are CD20 antigens for the production of anti-CD20 antibodies and methods of generating anti-CD20 antibodies using the CD20 antigens.