The present invention relates to new immunocytokines which are useful for the treatment of cancer. These fusion proteins comprise (i) an antibody or antigen-binding fragment thereof fused to (ii) a cleavable peptide linker, and (iii) cytokine, or functional fragments thereof. Methods of treatment using these immunocytokines are also disclosed.

The disclosure provides methods for treating lung cancer (e.g., non-small cell lung cancer) with an anti-PD-L1 antibody in a patient identified using a polynucleotide or polypeptide marker of the disclosure: CXCL9, KRT8, TRIM29, and/or IFNgamma.

The present invention relates to a novel epitope of IP-10 (IFN-γ-inducible protein 10), to an antibody to the epitope or an antigen-binding fragment thereof, to a composition comprising the epitope as an active ingredient for inducing an antibody to IP-10, and to a pharmaceutical composition comprising the antibody or the antigen-binding fragment thereof for preventing or treating diseases relating to IP-10. The anti-IP-10 antibody of the present invention can be effectively used in preventing or treating various diseases relating to IP-10 such as multiple sclerosis, rheumatoid arthritis and systemic lupus erythematosus.

The present invention provides new compositions and methods for preventing and treating pathogen infection. In particular, the present invention provides compounds having an anchoring domain that anchors the compound to the surface of a target cell, and a therapeutic domain that can act extracellularly to prevent infection of a target cell by a pathogen, such as a virus. The present invention also comprises therapeutic compositions having sialidase activity, including protein-based compounds having sialidase catalytic domains. Compounds of the invention can be used for treating or preventing pathogen infection, and for treating and reducing allergic and inflammatory responses. The invention also provides compositions and methods for enhancing transduction of target cells by recombinant viruses. Such compositions and methods can be used in gene therapy.

Described are expression cassettes encoding CD3-half-BiTE, CXCL9 and CTLA-4 scFv. The described expression cassettes can be used to treat cancer in a subject. Methods of delivering the expression cassettes to a tumor by direct intratumoral injection and electroporation are also described.

Recombinant C—X—C motif chemokine ligand (CXCL) peptides modified to introduce a cleavage site for a protease, such as a protease activated during an inflammatory response, are described. The CXCL peptides have the capacity to activate CXCR3 until being cleaved by the protease. Proteolytic cleavage of the CXCL peptide minimizes the pro-inflammatory response and inhibits the development of fibrosis.

The present disclosure provides compositions and methods for treating an infection by EV-D68. In particular, the present disclosure provides methods that entail administering agents having an anchoring domain that anchors the compound to the surface of a target cell, and a sialidase domain that can act extracellularly to inhibit infection of a target cell by EV-D68.

Described herein are human transgenic beta cells expressing fugetactic levels of CXCL12 to a subject in need thereof. Also described herein are beta cells comprising a transgene comprising a nucleic acid sequence encoding CXCL12.

The present invention provides a fusion protein, comprising a chemokine polypeptide, which is a chemokine or a receptor binding domain thereof; and a cytokine polypeptide connected to said chemokine polypeptide, which is an interleukin, a TNF-superfamily cytokine or a receptor-binding domain thereof; wherein the chemokine polypeptide and the cytokine polypeptide have a common target cell, and the fusion protein has an improved chemokine activity as compared to the chemokine polypeptide, and an improved cytokine activity as compared to the cytokine polypeptide.

A method for detection or monitoring status of silent brain ischemia (SBI) and cerebrovascular health. The assay reagents and methods described herein provide a specific indicator of cerebral microvascular disease, enabling clinicians to identify patients at risk for the development of SBI. A method of treating a subject having silent brain ischemia and/or metabolic syndrome comprises administering to the subject aspirin therapy, blood pressure therapy, body weight management, and/or a program of diet and exercise when levels of two or more SBI markers are elevated. Described herein are molecules that are produced by cerebral endothelial cells exposed to chronic vascular risk factors including obesity, hyperlipidemia, hypertension, and glucose intolerance. These stress molecules produced by cerebral endothelial cells are detectable in the serum and serve as diagnostic indicators of brain-specific endothelial cell damage and correlate with MRI indicators of silent stroke and impaired cognitive function.