The present invention provides a combination therapy which relies on a small molecule immune stimulator—cyclic-di-nucleotide (CDN)—that activates DCs via a recently discovered cytoplasmic receptor known as STING (Stimulator of Interferon Genes) formulated with allogeneic human tumor cell lines engineered to secrete high amounts of GM-CSF. This combination therapy can provide an ideal synergy of multiple tumor associated antigens, DC recruitment and proliferation, coupled with a potent DC activation stimulus.

The present disclosure describes a method of treating immunological disorders, for example alloimmune and autoimmune diseases, using a pharmaceutical composition comprising at least one mesenchymal stromal cell-derived protein Further disclosed herein is the use of the pharmaceutical composition for immunomodulation.

The present disclosure describes a method of treating immunological disorders, for example alloimmune and autoimmune diseases, using a pharmaceutical composition comprising at least one mesenchymal stromal cell-derived protein Further disclosed herein is the use of the pharmaceutical composition for immunomodulation.

The invention relates to the use of IL-22 in prevention and therapy of infections in particular related to viral infections in individuals who are unable to respond to viral exposure with enhanced IL-22 gene expression or protein production.

Diagnostic, prognostic, and treatment methods, compositions, and kits for enhancing insulin secretion and beta cell numbers and functions, and controlling glycemia associated with diabetes, obesity, atherosclerosis, stroke, myocardial infarction, and other cardiovascular diseases, by modulating FKN/CX3CR1 expression levels or activities, and its downstream signaling pathways in a subject in need or at risk.

The present disclosure provides a composition comprising a bioactive fraction derived from a platelet concentrate, methods of making the bioactive fraction, and culture medium supplemented with the bioactive fraction. Preferred bioactive fractions have relatively low fibrinogen concentrations while retaining native growth factors in beneficial amounts and ratios.

Methods for increasing the patency of biodegradable, synthetic vascular grafts are provided. The methods include administering one or more cytokines and/or chemokines that promote outward tissue remodeling of the vascular grafts and vascular neotissue formation. The disclosed methods do not require cell seeding of the vascular grafts, thus avoiding many problems associated with cell seeding. Biodegradable, polymeric vascular grafts which provide controlled release of cytokines and/or chemokines at the site of vascular graft implantation are also provided.

The invention provides a pharmaceutical composition including a peptide comprising at least a portion of a chemokine receptor or a G-protein coupled receptor and optionally a cytokine. The pharmaceutical composition of the invention may be used for altering immune system functioning, for example, to treat an immune system disorder, such as an autoimmune disease, multiple sclerosis, transplant rejection, psoriasis and asthma. The invention also provides peptides that may be used in the pharmaceutical composition and a method for preparing the pharmaceutical composition of the invention. The invention further provides a method for to treating an immune system disorder, such as an autoimmune disease, multiple sclerosis, transplant rejection, and psoriasis asthma.

Provided is a complex composition, of which positional isomers are minimized by using a N-terminus of an immunoglobulin Fc region as a binding site when the immunoglobulin Fc region is used as a carrier. Also provided are a protein complex which is prepared by N-terminal-specific binding of immunoglobulin Fc region, thereby prolonging blood half-life of the physiologically active polypeptide, maintaining in vivo potency at a high level, and having no risk of immune responses, a preparation method thereof, and a pharmaceutical composition including the same for improving in vivo duration and stability of the physiologically active polypeptide. The protein complex may be usefully applied to the development of long-acting formulations of various physiologically active polypeptide drugs.

Cell-free compositions for promoting restoration of tissue function or enhancement of tissue function and methods of stimulating or promoting restoration or enhancement of tissue function using the cell-free compositions. The compositions herein help stimulate endogenous pathways via a subject's own cells effectively for improving tissue function, enhancing tissue function, enhancing cell proliferation, etc. The compositions comprise one or a plurality of therapeutic components such as growth factors, extracellular matrix, DNA, RNA, hormones, drugs, cell surface receptors, enzymes, cytokines, angiogenesis modulating factors, etc., e.g., any material that can effectively activation endogenous pathways in the subject's own cell to a desired effect. The cell-free composition comprises a carrier or is attached to or integrated into and/or within a carrier. The carrier may help provide for containment of the therapeutic components and/or provide for time-release of the therapeutic components of the cell-free composition.