Abstract: Disclosed is a recombinant polypeptide for facilitating membrane fusion. The recombinant polypeptide having a sequence with at least 80% sequence identity with the ectodomain of p14 fusion-associated small transmembrane (FAST) protein and having a functional myristoylation motif, a transmembrane domain from a FAST protein and a sequence with at least 80% sequence identity with the endodomain of p15 FAST protein. A targeting ligand can be added to the recombinant polypeptide for selective fusion. The recombinant polypeptide can be included in the membrane of a liposome, or the like, to facilitate the delivery of bioactive compounds, such as siRNA, or the recombinant polypeptide can be mixed with a lipid carrier and added to cultured cells to induce cell-cell fusion and heterokaryon formation.

Abstract: The present disclosure provides compositions and methods for treating a disease or condition in a subject in need thereof, comprising administering to the subject a pharmaceutically effective amount of a composition comprising a plurality of particles comprising at least one therapeutic biologic suspended in a pharmaceutically acceptable liquid carrier.

Abstract: The present invention relates to combination therapy with ADCs against a tumor-associated antigen, such as Trop-2, and drugs, such as microtubule inhibitors and/or PARP inhibitors. Where ADCs are used, they preferably incorporate SN-38 or another drug that induces DNA strand breaks. Preferably, the combination of ADC and PARPi or microtubule inhibitor exhibits synergistic effects against the cancer. The combination therapy can reduce solid tumors in size, reduce or eliminate metastases and is effective to treat cancers resistant to standard therapies, such as radiation therapy, chemotherapy or immunotherapy.

Abstract: The present invention is directed to a combination therapy involving a type II anti-CD20 antibody and a selective BCL-2 inhibitor for the treatment of a patient suffering from cancer, particularly, a CD20-expressing cancer.

Abstract: Disclosed herein is a method for ex vivo expanding tumor-infiltrating lymphocytes for use in adoptive cell therapy (ACT). The method involves culturing tumor fragments from the subject in a culture medium containing IL-2 and a 41BB agonist in an amount effective to expand tumor-infiltrating lymphocytes with enriched tumor-reactivity and specificity. Also disclosed is a method for treating a tumor in a subject that involves treating the subject with nonmyeloablative lymphodepleting chemotherapy, and administering tumor-infiltrating lymphocytes expanded by the disclosed methods.

Abstract: Described herein are methods for selecting cancer patients for treatment with a combination therapy comprising entinostat and a second therapeutic agent. In particular, methods are provided for the examination of a non-cancer cell type, myeloid-derived suppressor cells, e.g., those which are CD14-positive and HLA-DR-(lo/negative), as a therapeutic indicator in the setting of entinostat combination therapies.

Abstract: The present invention relates to modified citrullinated enolase peptides that can be used as targets for cancer immunotherapy. These peptides can be used as vaccines or as targets for monoclonal antibody (mAb) therapy. Such vaccines cur mAbs may be used in the treatment of cancer.

Abstract: The present invention relates to thiocarbamate derivatives of Formula (I) which are useful as A2A adenosine receptor (A2AR) inhibitors Especially, the present invention relates to a pharmaceutical composition comprising an A2A inhibitor of Formula (I) and a lipid carrier such as lauroyl macrogol-32 glycerides, D-?-tocopherol-polyethylene glycol-1000 succinate or a mixture thereof. The pharmaceutical composition of the invention is particularly useful for oral dosing in the treatment of cancers. The present invention also relates to a combination comprising an A2A receptor inhibitor of Formula (I) and an anticancer agent. The anticancer agent is for example an immunotherapeutic agent, such as a checkpoint inhibitor. The invention further relates to a pharmaceutical composition and a kit of parts comprising such combination. Additionally, the combination of the invention is particularly useful for the treatment and/or prevention of cancers.

Abstract: Markers of acute myeloid leukemia stem cells (AMLSC) are identified. The markers are differentially expressed in comparison with normal counterpart cells, and are useful as diagnostic and therapeutic targets.

Abstract: The present invention provides antigen-binding proteins capable of binding to NKp46 polypeptides. The antigen-binding proteins have increased activity in the treatment of disorders characterized by NKp46-expressing cells, particularly tumor cells.

Abstract: The present invention relates to pharmaceutical compositions for use in the treatment of chemoresistant acute myeloid leukemia (AML). The inventors have established a powerful preclinical model to screen in vivo responses to conventional genotoxics and to mimic the chemoresistance and minimal residual disease as observed in AML patients after chemotherapy. The inventors showed that cytarabine-resistance mechanism involves the CD39-dependent crosstalk between energetic niche and AML mitochondrial functions through CD39-P2Y13-cAMP-PKA signaling axis. In particular, the present invention relates to an inhibitor of the CD39-P2Y13-cAMP-PKA signaling axis for use in a method of treating chemoresistant acute myeloid leukemia (AML) in a patient in need thereof comprising administering to the patient a therapeutically effective amount of said inhibitor.

Abstract: Disclosed herein are drug delivery molecules that comprise a ligand that targets a cell surface molecule; a membrane penetration domain; and a payload binding domain; and pharmaceutical compositions comprising the same. Also disclosed are methods of treating cancer, inhibiting the progression of cancer, preventing cancer metastasis, and delivering a therapeutic compound to the brain in a subject in need thereof, the methods comprising identifying a subject in need thereof; providing a composition comprising the drug delivery molecule as disclosed herein; and administering an effective amount of the composition to the subject.

Abstract: The invention provides improved methods of conjugating an agent to a thiol moiety in a protein that contains at least one disulfide bond and at least one trisulfide bond. Exemplary embodiments include the production of antibody drug conjugates substantially free of impurities created in the presence of reactive sulfide moieties in the production processes.

Abstract: The present disclosure relates generally to the fields of immunology and molecular biology. More specifically, provided herein are pharmaceutical combinations comprising (A) antibodies, or antigen-binding portions thereof, directed against LY75, and (B) a second anti-cancer entity; nucleic acids encoding antibody combinations; methods for preparing antibody combinations; and methods for the treatment of diseases, such as cancers mediated by LY75 expression or activity.

Abstract: This patent application relates generally to the treatment of cancer, and more particularly to the use of a pseudotyped lentivirus expressing IL-12 for the treatment of cancer.

Abstract: The disclosure provides methods of treating a malignancy comprising administering an effective dose of a chimeric receptor (e.g., CAR or TCR) genetically modified T cell immunotherapy. Some aspects of the disclosure relate to methods of determining an effective dose of a T cell immunotherapy comprising polyfunctional T cells prior to administration to the patient.

Abstract: Methods of using detection of PD-L1 expression by circulating cancer cells in the screening, monitoring, treatment and diagnosis of cancer in subjects are disclosed. The methods are based on assaying one or more of circulating tumor cells (CTCs), epithelial to mesenchymal transition CTCs (EMTCTCs), cancer associated macrophage-like cells (CAMLs), and cancer associated vascular endothelial cells (CAVEs) isolated from a subject having cancer for PD-L1 expression.

Abstract: Autologous anti-cancer vaccines and methods of manufacture and treatment are provided, including expansion of individual patient-derived tumor cells in an immune-compromised animal(s) to attain, quantitatively and qualitatively, sufficient material for efficacious vaccine production and utilization, to elicit an immune response against micrometastases and/or recurrence in the individual patient following tumor excision.

Abstract: Described herein are methods of identifying immunologically protective neo-epitopes from the cancer tissue DNA of cancer patients using biophysical principles as well as bioinformatics techniques. The identification of immunologically protective neo-epitopes provides pharmaceutical compositions with a limited number of tumor-specific peptides suitable for personalized genomics-driven immunotherapy of human cancer. Specifically disclosed herein is a method of using the conformational stability of an epitope in an MHC protein-binding groove to predict immunogenicity of peptides in a putative neo-peptide set from a tumor from a cancer patient. Pharmaceutical compositions and methods of administration are also included.

Abstract: Disclosed herein are nucleic acid molecules comprising one or more nucleic acid sequences that encode a mutated consensus PRAME antigen. Vectors, compositions, and vaccines comprising one or more nucleic acid sequences that encode a mutated consensus PRAME antigen are disclosed. Methods of treating a subject with a PRAME-expressing tumor and methods of preventing a PRAME-expressing tumor are disclosed. Mutated consensus PRAME antigen is disclosed.