The present invention relates to chimeric antigen receptors (CARs) specific to ICAM-1 comprising I domain of the (XL subunit of human lymphocyte function-associated antigen 1 (LFA-1). The invention particularly relates to CARs comprising human I domains having different affinities (1 mM to 1 nM Kd) to ICAM-1. CAR T cells comprising human I domain having a low affinity (1 to 200 μM Kd) to ICAM-1 can avoid targeting healthy tissues with basal ICAM-1 expression while simultaneously exhibiting increased potency and long-term efficacy against tumor tissues with high ICAM-1 expression. The present invention also relates to an adoptive cell therapy method for treating cancer by administering the CAR-T cells comprising human I domain to a subject suffering from cancer, whereby the CAR T cells bind to the cancer cells overexpressing ICAM-1 and kill the cancer cells.

Alveolar-like macrophages and a method for generating alveolar-like macrophages from hemangioblasts is provided. The method comprises the steps of: i) culturing the hemangioblasts in a hematopoietic-inducing medium comprising vascular endothelial growth factor (VEGF), stem cell factor (SCF) and interleukin-3 (IL-3) for a sufficient period of time to generate macrophages, and ii) culturing the macrophages in an alveolar macrophage-inducing medium comprising granulocyte macrophage colony stimulating factor (GM-CSF), and optionally macrophage colony stimulating factor (M-CSF), under suitable conditions and for a sufficient period of time to yield alveolar-like macrophages.

This disclosure provides for chimeric receptor polypeptides where upon binding of a first antigen to the antigen binding domain triggers a proteolytic cleavage and upregulation of a chimeric antigen receptor, wherein the chimeric antigen receptor binds to a second antigen. The first and second antigens are present on a population of B cells known as Autoimmune- or Age-related B cells or CD11c+T-bet+ B cells. The present disclosure includes methods and compositions for reducing or eliminating ABCs through the binding of the chimeric antigen receptor, and thus controlling or eliminating autoimmune disease.

Recombinant viruses and viral nucleic acids are contemplated that provide to the infected cell various regulatory molecules that stimulate T-cell and NK-cell activity and that suppress inhibition of T-cell and NK-cell activity. Most preferably, the virus and viral nucleic acid will further include a human cancer-associated sequence, and especially a sequence that encodes a plurality of cancer associated antigens, cancer specific antigens, and/or patient and tumor specific neoantigens. Especially preferred regulatory molecules include CD80 (B7.1), CD86 (B7.2), CD54 (ICAM-1/BB2), CD11 (LFA-1), and an inhibitor of CTLA-4.

The present disclosure provides variant immunomodulatory polypeptides, and fusion polypeptides comprising the variant immunomodulatory peptides. The present disclosure provides T-cell modulatory multimeric polypeptides, and compositions comprising same, where the T-cell modulatory multimeric polypeptides comprise a variant immunomodulatory polypeptide of the present disclosure. The present disclosure provides nucleic acids comprising nucleotide sequences encoding the T-cell modulatory multimeric polypeptides, and host cells comprising the nucleic acids. The present disclosure provides methods of modulating the activity of a T cell; the methods comprise contacting the T cell with a T-cell modulatory multimeric polypeptide of the present disclosure.

The present invention is based on the finding that CD11b signaling inhibits immune suppression, modulates neovascularization and promotes anti-tumor immune responses in models of murine and human cancer. As such, provided herein are methods of treating cancer using an antibody, protein or small molecule that modulates CD11b activity or expression. Also provided are methods of identifying cancer that is amenable to such treatment and/or increasing susceptibility of cancer cells to treatment with a chemotherapeutic agent.

The disclosure concerns a method for cancer treatment by in vivo priming and activation of natural killer cells for achieving tumor cell lysis. The method includes introducing into a patient a priming tumor cell preparation (PTCP) derived from a first tumor cell line, which is irradiated to inactivate the first tumor cells or a membrane preparation thereof, the first tumor cells having known priming ligands on the membrane surface thereof. The patient's rest NK cells are contacted by the PTCP in vivo, resulting in primed NK cells, which are characterized by upregulation of CD69, shedding of CD16, or a combination of CD69+ and CD16. These primed NK cells then contact second tumor cells, the cancer, and are configured to lyse and kill the second tumor cells.

Particular aspects show that the signal peptide remains intact on the mature CD18 molecule on ruminant leukocytes rendering these cells susceptible to cytolysis by Lkt. Comparative amino acid sequence analysis of the signal peptide of CD18 of eight ruminants and five non-ruminants revealed that the ruminant CD18 signal peptides contain cleavage-inhibiting glutamine (Q), compared to cleavage-conducive glycine in non-ruminants, at position 5 relative to the cleavage site. Mutagenesis of Q at position 5 of the bovine CD18 signal peptide to G resulted in the abrogation of Lkt-mediated cytolysis of transfectants expressing bovine CD18 carrying the Q(5)G mutation. Provided is novel technology to clone cattle and other ruminants expressing CD18 without the signal peptide on their leukocytes, providing ruminants that are less susceptible to M. haemolytica. Methods for treating conditions and/or diseases associated with M. haemolytica (e.g., pneumonic pasteurellosis), comprising administration of polypeptides comprising CD18 signal peptide sequences are also provided.

The present invention is directed to transduced T cells expressing at least 100,000 molecules of human somatostatin receptor 2 (SSTR2), which improves PET/CT imaging sensitivity. The present invention is also directed to transduced T cells expressing SSTR2 and chimeric antigen receptor (CAR). In one embodiment, the CAR is specific to human ICAM-1 and the CAR comprises a binding domain that is scFv of anti-human ICAM-1, or an I domain of the L subunit of human lymphocyte function-associated antigen-1. In another embodiment, the CAR is specific to human CD19, and the CAR comprises a binding domain that is scFv of anti-human CD19. The present invention is further directed to using the above transduced T cells for monitoring T cell distribution in a patient by PET/CT imaging and/or treating cancer.

The present disclosure provides variant immunomodulatory polypeptides, and fusion polypeptides comprising the variant immunomodulatory peptides. The present disclosure provides T-cell modulatory multimeric polypeptides, and compositions comprising same, where the T-cell modulatory multimeric polypeptides comprise a variant immunomodulatory polypeptide of the present disclosure. The present disclosure provides nucleic acids comprising nucleotide sequences encoding the T-cell modulatory multimeric polypeptides, and host cells comprising the nucleic acids. The present disclosure provides methods of modulating the activity of a T cell; the methods comprise contacting the T cell with a T-cell modulatory multimeric polypeptide of the present disclosure.