The present invention relates to a prostate-specific membrane antigen (PSMA)-specific binding protein, wherein the PSMA-specific binding protein is a lipocalin 2 (Lcn2)-derived binding protein and binds to PSMA with a K.sub.D of 10 nM or lower. The present invention also relates to a nucleic acid molecule encoding the PSMA-specific binding protein of the invention, a vector comprising said nucleic acid molecule of the invention and a host cell transformed with the vector. Furthermore, the invention relates to a method of producing the PSMA-specific binding protein of the invention, the method comprising culturing the host cell of the invention under suitable conditions and isolating the PSMA-specific binding protein produced. The present invention further relates to a protein conjugate comprising the PSMA-specific binding protein of the invention, or the PSMA-specific binding protein produced by the method of the invention. In addition, the present invention relates to a pharmaceutical or diagnostic composition; to the PSMA-specific binding protein of the invention, the nucleic acid molecule of the invention, the vector of the invention, the host cell of the invention or the PSMA-specific binding protein produced by the method of the invention, for use in therapy and/or diagnosis, and in particular for use in the therapy and/or diagnosis of tumors, Crohn's disease and/or neurological diseases.

The present invention relates to pharmaceutical formulations comprising a therapeutically effective amount of an Annexin A1 (AnxA1) N-terminal-peptide having improved solubility and/or stability, while retaining agonistic activity at one or more of the formyl peptide receptors, including FPR1, FPR2 and FPR3.5

The present invention provides a process for the recovery and/or purification of a recombinantly expressed intracellular protein comprising the sequence of Annexin A5 (AnxA5) from an endotoxin-producing host cell with a cell wall, wherein the process comprises releasing the intracellular protein from the host cell, characterised in that the step of releasing the intracellular AnxA5 protein is conducted in the presence of a homogenisation buffer comprising non-ionic detergent, and preferably wherein the process does not include any centrifugation steps for the recovery and/or purification of the AnxA5 protein after its release from the host cell and/or in which the AnxA5 protein remains in solution throughout the process except when temporarily bound to any chromatographic resins.

The present invention relates to a prostate-specific membrane antigen (PSMA)-specific binding protein, wherein the PSMA-specific binding protein is a lipocalin 2 (Lcn2)-derived binding protein and binds to PSMA with a K.sub.D of 10 nM or lower. The present invention also relates to a nucleic acid molecule encoding the PSMA-specific binding protein of the invention, a vector comprising said nucleic acid molecule of the invention and a host cell transformed with the vector. Furthermore, the invention relates to a method of producing the PSMA-specific binding protein of the invention, the method comprising culturing the host cell of the invention under suitable conditions and isolating the PSMA-specific binding protein produced. The present invention further relates to a protein conjugate comprising the PSMA-specific binding protein of the invention, or the PSMA-specific binding protein produced by the method of the invention. In addition, the present invention relates to a pharmaceutical or diagnostic composition; to the PSMA-specific binding protein of the invention, the nucleic acid molecule of the invention, the vector of the invention, the host cell of the invention or the PSMA-specific binding protein produced by the method of the invention, for use in therapy and/or diagnosis, and in particular for use in the therapy and/or diagnosis of tumors, Crohn's disease and/or neurological diseases.

The disclosure features compounds comprising an antigen portion, a soluble Major Histocompatibility Complex (MHC) molecule portion (e.g., all or an antigen-binding portion of a soluble MHC class I molecule), and a dynamic anchor portion (e.g., an agent, such as Annexin V, that binds to phosphatidylserine). The featured compounds are useful for a variety of therapeutic applications, including, e.g., enhancing a T cell response to an antigen of interest or enhancing a T cell-driven immune response by a subject to an antigen of interest (e.g., a cancer antigen or a microbial antigen).

A membrane targeted binding protein that binds to at least one blood coagulation factor, wherein the binding protein has pro-coagulant activity.

The present invention provides a peptide comprising the amino acid sequence of any of the formulas (I-(III) below: (I) an amino acid sequence of (X1)[D]P[D](X2)[D] wherein X1 is W or F, X2 is S or T, and each amino acid symbol immediately followed by symbol [D] is a D form of the amino acid, (II) an amino acid sequence of P[D]T[D](X).sub.n F[D] wherein (X).sub.n is any amino acid in the number of n selected independently of each other, n is an integer of 0-4, and the symbol [D] is as defined above, (III) an amino acid sequence that is a Retro-inverso of the amino acid sequence of any of the aforementioned (I) and the aforementioned (II);
and a conjugate containing the peptide and a functional part.

Provided herein are multifunctional heteromer proteins. In specific embodiments is a heteromultimer that comprises: at least two monomeric proteins, wherein each monomeric protein comprises at least one cargo polypeptide, attached to a transporter polypeptide, such that said monomeric proteins associate to form the heteromultimer. These therapeutically novel molecules comprise monomers that function as scaffolds for the conjugation or fusion of therapeutic molecular entities resulting in the creation of bispecific or multivalent molecular species.

The present invention provides compositions and methods for targeting an extracellular matrix derived (EMD) peptide predominantly to an injured tissue, as opposed to an uninjured tissue in vivo. The targeted EMD peptide facilitates the repair and/or regeneration of the injured tissue by providing a surface for cells to attach and grow, thereby facilitating the repair and/or regeneration of the injured tissue.

The invention provides to PKN1 gene fusions, PKN1 fusion proteins, and fragments of those genes and polypeptides. The invention further provides methods of diagnosing and treating diseases or disorders associated with PKN1 fusions, such as conditions mediated by aberrant PKN1 expression or activity, or over expression of PKN1.