Methods of determining suitability of a subject suffering from cancer or at risk of cancer relapse to receive treatment comprising an agent that reduces sCD28 levels are provided. Methods of treating a subject suffering from cancer or at risk of cancer relapse comprising administering an anti-PD-1/PD-L1 immunotherapy, measuring soluble CD28 levels in a subject, and administering an agent that reduces sCD28 levels to a subject whose sCD28 levels increased are also provided.

The present disclosure provides antibody sequences found in antibodies that bind to human CD25, in particular an anti CD25-a-674 antibody which do not block the binding of CD25 to IL-2 or IL-2 signalling. The claimed antibody binds to the epitopes: QCVQGYRA and RWTQPQLICTG on CD25 Antibodies and antigen-binding portions thereof including such sequences can be used in pharmaceutical compositions and methods of treatment, in particular for treating cancer.

The invention provides compositions and methods for treating diseases associated with expression of CD123. The invention also relates to chimeric antigen receptor (CAR) specific to CD123, vectors encoding the same, and recombinant cells comprising the CD123 CAR. The invention also includes methods of administering a genetically modified cell expressing a CAR that comprises a CD123 binding domain.

The present invention relates to trispecific antibodies binding to HER2 and a blood-brain barrier receptor (BBB-R), methods for their production, pharmaceutical compositions containing said antibodies, and uses thereof.

Methods of treating cancer with antibodies that bind colony stimulating factor 1 receptor (CSF1R) in combination with PD-1/PD-L1 inhibitors are provided.

The invention relates generally to polypeptides that include at least a first cleavable moiety (CM1) that is a substrate for at least one matrix metalloprotease (MMP) and at least a second cleavable moiety (CM2) that is a substrate for at least one serine protease (SP), to activatable antibodies and other larger molecules that include these polypeptides that include at least a CM1 that is a substrate for at least one MMP protease and at least a CM2 that is a substrate for at least one SP protease, and to methods of making and using these polypeptides that include at least a CM1 that is a substrate for at least one MMP protease and at least a CM2 that is a substrate for at least one SP protease in a variety of therapeutic, diagnostic and prophylactic indications.

The present invention relates to a conditioning regimen for the transplant of a cell, tissue or organ, optionally hematopoietic stem / progenitor cells, to a subject. The invention also relates to methods for the induction of hematopoietic chimerism in a subject. The invention also relates to methods for the prevention or treatment of a disease or condition in a subject, in which hematopoietic chimerism is induced in order to improve the benefit to the subject of a subsequent therapy. The subsequent therapy may be a cell, tissue or organ transplant or may a gene therapy administered using genetically modified hematopoietic stem cells/progenitor cells.

The invention relates to a composition comprising a multivalent antibody comprising a first variable domain that binds a first tumor antigen (TA1), a second variable domain that binds a second tumor antigen (TA2) and a third variable domain that binds an immune cell engaging antigen (IEA); and wherein the composition further comprises a second binding molecule that binds TA1 or TA2. The invention also relates to a kit of parts comprising the multivalent antibody and second binding molecule, and to means and methods for the treatment of cancer comprising administering to the subject in need thereof the multivalent antibody and second binding molecule.

Provided are methods of treating cancer or increasing, enhancing, or stimulating an immune response with non-competitive, agonist anti-OX40 antibodies and antigen-binding fragments thereof that bind to human OX40 (ACT35, CD 134, or TNFRSF4), in combination with an anti-PD 1 or with an anti-PDL 1 antibody.

The present invention relates to compositions and methods for using a minibody. Minibodies described herein comprise a secretion signal, a variable heavy chain fragment, a variable light chain fragment, a constant chain fragment, and a hinge domain between the variable light chain fragment and the constant chain fragment. One aspect includes a nucleic acid encoding a minibody. Other aspects include compositions comprising a minibody and a modified T cell comprising a nucleic acid encoding a minibody. Also included are methods and pharmaceutical compositions comprising the modified T cells for adoptive therapy and treating a condition, such as cancer.