The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders.

Provided herein are engineered proteases of the S1A family that are specific for, and capable of, cleaving Factor B. Also provided herein are methods of making and using such engineered proteases. The engineered proteases provided herein may be useful for treating a disease or condition associated with dysregulation of the complement system by reducing complement activation through cleavage and inactivation of Factor B.

A method of reducing an effect of stroke in a subject, the method comprising administering to the subject a compound that inhibits VEGF-B signaling.

Methods and composition for delivery of enzymes to a subject's airway. In some aspects, nebulized composition of enzymes, such as plasminogen activators are provided. In further aspects perfluorocarbon compositions comprising enzymes, such as plasminogen activators are provided. Compositions may, in some aspects, be used for the treatment of lung infections or acute lung injury, such as inhalational smoke induced acute lung injury (ISALI).

This disclosure relates to nanoparticles comprising a surface molecule that binds or blocks PD-L1. In certain embodiments, the disclosure relates to methods of using peptides or nanoparticles disclosed herein for the treatment of cancer. In certain embodiments, the disclosure relates to methods of using nanoparticles disclosed herein for therapeutic and diagnostic applications.

A method of reducing an effect of stroke in a subject, the method comprising administering to the subject a compound that inhibits VEGF-B signaling.

The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders. The present disclosure relates to a non-toxic mutant form of the Vibrio cholera Cholix gene (ntCholix), a variant of Cholix truncated at amino acid A.sup.386 (Cholix.sup.386) and the use of other various Cholix-derived polypeptide sequences to enhance intestinal delivery of biologically-active therapeutics. The systems and methods described herein provide for: the ability to deliver macromolecule doses without injections; the ability to deliver cargo such as siRNA or antisense molecules into intracellular compartments where their activity is required; and the delivery of nanoparticles and dendrimer-based carriers across biological membranes.

Disclosed are compositions, methods, uses, kits and articles of manufacture, which are based on the use of a hyaluronidase and a collagen-reducing agent, for reducing or inhibiting the development of fibrosis in a tissue, or for treating collagen-mediated disorders. In specific embodiments, the collagen-mediated disorders are fibroproliferative disorders involving alterations of collagen, including fibromatoses such as Dupuytren's disease. Peyronie's disease and Ledderhose's disease.

The present invention relates to the use of plasminogen in the treatment and/or elimination of hepatic injury, thereby providing a new therapeutic strategy for treating different types of hepatic injuries.

The present disclosure relates to pharmaceutical compositions comprising a non-naturally occurring fusion molecule and one or more pharmaceutically acceptable carriers, formulated for oral delivery to a subject, and designed to provide for improved, effective therapies for treatment of, e.g., inflammatory diseases, autoimmune diseases, cancer, metabolic disorders, and growth deficiency disorders.