Embodiments of the disclosure include methods and compositions for inhibiting the immune suppressive tumor microenvironment using cell therapy wherein the cells express a chimeric protein having an extracellular domain that binds TRAIL-R2 and an intracellular domain that in specific embodiments comprises one or more costimulatory domains that enhance activity of the cells upon activation. In specific embodiments, the chimeric protein comprises an scFv that targets TRAIL-R2 and an intracellular region that comprises a costimulatory domain from 4-1BB. In particular embodiments, the cells also express a therapeutic protein, such as a chimeric antigen receptor.

Provided herein is a method for treating and/or preventing various diseases including a decrease in glucose tolerance and a decrease in cognitive ability associated with aging with adipocytes over-expressing FFAR4 and a transplant composition including the adipocytes.

The present invention relates to a CD24 protein for treating immune-related adverse events (irAEs) associated with cancer immunotherapy. Provided herein is a method of treating, mitigating, minimizing, or preventing immunerelated adverse events (irAEs) associated with a cancer immunotherapy by administering a CD24 protein to a subject in need thereof. The irAE may be diarrhea or another gastrointestinal disorder, pure red cell aplasia, microcytic anemia, lupus, autoimmune nephritism, autoimmune hepatitis, pneumonitis, myocarditis, pericarditis, endocrinopathy, Addison's disease, hypogonadism, Sjogren's syndrome, or type I diabetes. The CCD24 protein may comprise a mature human CD24 or a variant thereof.

The present invention provides a method for determining whether a patient will respond to treatment with a myostatin pathway inhibitor, the method comprising: (a) determining a level of myostatin and/or activin type II receptor (ActRII) and/or follistatin in at least one muscle biopsy obtained from a treatment target muscle in a subject having or suspected of having muscle atrophy or a muscle wasting condition; and (b) determining a level of myostatin and/or follistatin in a systemic sample obtained from the patient, wherein if: (i) the level of myostatin in the systemic sample is higher than a threshold and/or if the level of follistatin in the sample is lower than a threshold; and (ii) the level of myostatin and/or ActRII receptor in the at least one biopsy sample is higher than a threshold level and/or if the level of follistatin in the at least one biopsy sample is lower than a threshold level, the patient will respond to treatment.

The present application provides methods and processes for making and using a fibronectin composition, as well as methods for treating ocular conditions and/or disorders with the cellular fibronectin composition described herein.

The present invention relates to methods of treating ovarian cancer in a subject by administering to the subject by evaluating the subject's expression levels of specific biomarkers or angiogenic an anti-activin-A compound, such as an anti-activin-A antibody or an activin-A-binding receptor. In some embodiments, at least two compounds are administered to the subject, where the first compound is an anti-activin A compound, and the second compound is a chemotherapeutic compound, for example capecitabine. The invention further relates to methods of identifying subjects for treatment factors.

The present invention relates to methods of treating ovarian cancer in a subject by administering to the subject by evaluating the subject's expression levels of specific biomarkers or angiogenic an anti-activin-A compound, such as an anti-activin-A antibody or an activin-A-binding receptor. In some embodiments, at least two compounds are administered to the subject, where the first compound is an anti-activin A compound, and the second compound is a chemotherapeutic compound, for example capecitabine. The invention further relates to methods of identifying subjects for treatment factors.

A method of inhibiting hypercoagulation and/or thrombosis in a subject having or at risk of hypercoagulation or thrombosis includes administering to the subject an amount of a composition effective to inhibit MRP-8/14 and/or MRP-14 binding to platelet CD36 and inhibit hypercoagulation and/or thrombosis in the subject.

Provided are methods of treating cancer (e.g., a hematological cancer such as myelodysplastic syndrome) that comprise administering a polypeptide (e.g. a fusion polypeptide) that comprises a SIRPα D1 domain variant and an Fc domain variant in combination with a hypomethylating agent (e.g., azacitidine). Also provided are related kits.

The present invention relates to RNA, particularly an immunostimulatory RNA (isRNA), a coding RNA or a combination thereof, for use in the treatment or prophylaxis of a disease, in particular a tumor and/or cancer disease. The present invention also provides pharmaceutical compositions, and a kit comprising the RNA(s). Further, the invention also comprises medical uses of the RNA(s) and compositions comprising the RNA(s).