The invention provides compositions and methods for treating diseases associated with expression of CD19, e.g., by administering a recombinant T cell comprising the CD19 CAR as described herein, in combination with one or more B-cell inhibitors, e.g., inhibitors of one or more of CD10, CD20, CD22, CD34, CD123, FLT-3, ROR1, CD79b, CD179b, or CD79a. The disclosure additionally features novel antigen binding domains and CAR molecules directed to CD20 and CD22, and uses, e.g., as monotherapies or in combination therapies. The invention also provides kits and compositions described herein.

The present disclosure is directed towards genetically engineered TCR-T cells to recognize tumor antigens and simultaneously secrete a binding protein that blocks an immune checkpoint molecule and TGF. These engineered T cells demonstrate stronger antitumor response and reduced T cell exhaustion. The present disclosure provides immunotherapy against HPV- or EBV-positive cancers, among others.

The present disclosure is directed towards genetically engineered TCR-T cells to recognize tumor antigens and simultaneously secrete a binding protein that blocks an immune checkpoint molecule and TGF. These engineered T cells demonstrate stronger antitumor response and reduced T cell exhaustion. The present disclosure provides immunotherapy against HPV- or EBV-positive cancers, among others.

Described herein are compositions and methods for treating a disease, particularly a cancer, with an immune checkpoint modulatory agent and a strain of an Arbovirus or a strain of an Alphavirus. Also provided herein are also methods for combination therapy comprising administration of an immune checkpoint modulatory agent, tumor antigen primed dendritic cells and an Alphavirus or an Arbovirus.

Described herein are compositions and methods for treating a disease, particularly a cancer, with an immune checkpoint modulatory agent and a strain of an Arbovirus or a strain of an Alphavirus. Also provided herein are also methods for combination therapy comprising administration of an immune checkpoint modulatory agent, tumor antigen primed dendritic cells and an Alphavirus or an Arbovirus.

The invention pertains to the field of adaptive cell immunotherapy. It provides with the genetic insertion of exogenous coding sequence(s) that help the immune cells to direct their immune response against infected or malignant cells. These exogenous coding sequences are more particularly inserted under the transcriptional control of endogenous gene promoters that are sensitive to immune cells activation. Such method allows the production of safer immune primary cells of higher therapeutic potential.

The invention pertains to the field of adaptive cell immunotherapy. It provides with the genetic insertion of exogenous coding sequence(s) that help the immune cells to direct their immune response against infected or malignant cells. These exogenous coding sequences are more particularly inserted under the transcriptional control of endogenous gene promoters that are sensitive to immune cells activation. Such method allows the production of safer immune primary cells of higher therapeutic potential.

The present disclosure provides improved genome editing compositions and methods for editing a PD-1 gene. The disclosure further provides genome edited cells for the prevention, treatment, or amelioration of at least one symptom of, a cancer, an infectious disease, an autoimmune disease, an inflammatory disease, or an immunodeficiency.

The present disclosure provides improved genome editing compositions and methods for editing a PD-1 gene. The disclosure further provides genome edited cells for the prevention, treatment, or amelioration of at least one symptom of, a cancer, an infectious disease, an autoimmune disease, an inflammatory disease, or an immunodeficiency.

The invention provides cells that have an increased immune checkpoint engagement function (Immune Checkpoint Engager ICE cells). The ICE cells comprise an engager molecule' expressed on a cell surface, wherein said engager molecule engages with an immune checkpoint molecule on an immune cell, wherein said engager molecule is expressed at least at a level that protects said ICE cell from being killed by said immune cell.