The present disclosure provides pharmaceutical compositions comprising fibronectin based scaffold domain proteins that bind, for example, proprotein convertase subtilisin kexin-9 (PCSK9).

The present disclosure provides binding proteins specific for human Wilms tumor protein 1 (WT-1) epitopes, as well as host cells that express the binding proteins. Also provided are polynucleotides that encode a binding protein and vectors that comprise a polynucleotide. Related methods and uses of the presently disclosed compositions are provided for treating diseases or disorders associated with WT-1 expression, such as various cancers.

The present invention provides binder directed to and binding to a DPP3 protein or functional derivative thereof and its use in a method of prevention or treatment of diseases or acute conditions in a patient, wherein said disease or acute condition is associated with oxidative stress. With this context, specifically the present invention provides a binder being directed to and binding to an epitope according to SEQ ID NO.: 2, wherein said epitope is comprised in a DPP3 protein or a functional derivative thereof, and wherein said DPP3 binder recognizes and binds to at least three amino acids of SEQ ID NO.: 2.

Provided herein are generalized extracellular molecule sensors (GEMSs) and polynucleotides encoding the GEMSs. Also provided herein are methods of making and using the GEMSs, such as therapeutic and diagnostic methods.

The present invention is directed to a peptide for the delivery of anionic materials, such as anionic therapeutic agents, across a biological barrier, and methods of use thereof. The invention relates to a peptide comprising, or consisting of: X-(Xaa1)a-(Xaa2)b-Y-(Xaa3)c-(Xaa4)d-Z, in which each of X and Z is independently selected from Asn, Cys, Gln, Gly, Ser, Thr and Tyr; in which one of Xaa1 and Xaa2 is His and the other of Xaa1 and Xaa2 is Arg; in which one of Xaa3 and Xaa4 is His and the other of Xaa3 and Xaa4 is Arg; in which the amino functional group of X is, optionally, acylated; in which the carboxylate functional group of Z is, optionally, amidated; in which Y is selected from Ala and Trp; in which each of a and d is independently 2 to 4; and each of b and c is independently 2 to 4, or a salt or amide thereof. The invention also relates to a peptide for use in inducing an immune response in a subject in need thereof or a method for inducing an immune response in a subject comprising the administration of the peptide to a subject in need thereof. The invention also relates to a peptide for use in the treatment and/or prophylaxis of an infection, cancer, wounds in a subject in need thereof or a method for the treatment and/or prophylaxis of an infection, cancer, wounds comprising the administration of the peptide of the first aspect of the invention to a subject in need thereof.

Provided herein are cell surface conjugates containing a cell surface molecule and at least one agent, such as at least one affinity tag, and engineered cells expressing such cell surface conjugates. In some embodiments, the cell surface molecule does not contain an intracellular signaling domain or is not capable of mediating intracellular signaling. In some embodiments, the cells engineered to contain the cell surface conjugate, such as T cells, further contain a genetically engineered recombinant receptor that specifically binds to antigens, such as a chimeric antigen receptor (CAR). Also provided are methods of detecting, identifying, selecting or targeting cells expressing the cell surface conjugates, such as in connection with methods of manufacturing engineered cells or in connection with administration of such cells to subjects, including methods of adoptive cell therapy.

The disclosure provides compositions and methods that make use of a target protein that is capable of binding to a small molecule in order to form a complex, and a binding member that specifically binds to the complex, wherein the target protein is derived from a non-human protein and the small molecule is an inhibitor of the non-human protein. The non-human protein may be derived from a viral, bacterial, fungal or protozoal protein. These compositions and methods permit the controlled interaction of polypeptides that are individually fused to the target protein and binding member, respectively, and can be used to control the activity of dimerization-inducible proteins such as split transcription factors and split chimeric antigen receptors through the addition of the small molecule. The disclosure provides expression vectors, binding members, dimerization-inducible proteins, nucleic acids, cells, viral particles, kits, systems and methods that involve these components.

The present invention relates to recombinant multi-specific proteins comprising binding agents with binding specificity for different targets, such as, e.g. CD3, CD33, CD123 and CD70. In addition, the invention relates to nucleic acids encoding such multi-specific proteins, pharmaceutical compositions comprising such proteins or nucleic acids, and the use of such binding proteins, nucleic acids or pharmaceutical compositions in methods for treating or diagnosing diseases, such as cancer, e.g. acute myeloid leukaemia (AML), in a mammal, including a human.

Libraries of immunoglobulins which each have one or more amino acid modifications in at least one structural loop region of such immunoglobulins, where the modified loop region specifically binds to an epitope of an antigen to which an unmodified immunoglobulin does not significantly bind.

Provided herein are glucocorticoid receptor agonist immunoconjugates, glucocorticoid receptor agonists, and methods of using the same, e.g., to treat autoimmune or inflammatory diseases.