A method for producing ACE Inhibitor peptides from a protein source or plasma is disclosed. The method utilizes proteolysis by intestinal, blood-circulating, or membrane-bound proteases. The initial synthesis step could require obtaining a protein source either from a human or animal. A protease is added to either a given plasma protein or plasma and incubated. Following incubation, the protease activity must be quenched using a protease inhibitor to inactivate the protease. After incubation with protease inhibitor, the solution will contain a mixture of bioactive ACE inhibitory peptides and inert peptides. This mixture may be purified to select for the ACE inhibitory peptides through centrifugation. The mixture may also be sterilized to remove any microbial contaminants. The ACE inhibitory peptides can be mixed with protein powders, incorporated into baked good and put into other food products to provide food products with the added benefit of lowering blood pressure.

Disclosed is a method for treating a subject having a neurological disorder characterized by the presence of dipeptide repeat proteins comprising contacting the cerebrospinal fluid (CSF) of the subject with an agent capable of removing or degrading the toxic protein.

Compositions and methods for therapeutic delivery are disclosed. More particularly, the present disclosure relates to nanoparticle compositions that sequester the activity of a target molecule while leaving other domains accessible to bind targeted tissues of interest. Methods for thrombus dissolution include administering a nanoparticle reversibly coupled to a target molecule that can dissolve a blood clot. Compositions and methods for inducing blood clotting are also disclosed. Methods for inducing blood clotting include administering a nanoparticle reversibly coupled to a target molecule that can induce the formation of a blood clot. Methods for sequestering a target molecule are also disclosed. The method includes reversibly coupling a target molecule to a nanoparticle having an affinity ligand that reversibly couples the target molecule, and thus, sequesters the target molecule activity until the target molecule interacts with its substrate resulting in the release of the target molecule.

A method for producing ACE Inhibitor peptides from a protein source or plasma is disclosed. The method utilizes proteolysis by intestinal, blood-circulating, or membrane-bound proteases. The initial synthesis step could require obtaining a protein source either from a human or animal. A protease is added to either a given plasma protein or plasma and incubated. Following incubation, the protease activity must be quenched using a protease inhibitor to inactivate the protease. After incubation with protease inhibitor, the solution will contain a mixture of bioactive ACE inhibitory peptides and inert peptides. This mixture may be purified to select for the ACE inhibitory peptides through centrifugation. The mixture may also be sterilized to remove any microbial contaminants. The ACE inhibitory peptides can be mixed with protein powders, incorporated into baked good and put into other food products to provide food products with the added benefit of lowering blood pressure.

Embodiments of the current invention provide a solution to the problems associated with balancing patient toxicity with broad efficacy of cancer therapy. In particular, embodiments are directed to anti-cancer peptides that demonstrate a broad anti-cancer efficacy with a limited toxicity to normal or non-cancer cells.

Disclosed is a method for treating a subject having a neurological disorder characterized by the presence of toxic proteins comprising contacting the cerebrospinal fluid (CSF) of the subject with an agent capable of removing or degrading the toxic protein.

This invention relates to therapeutic compounds which are inhibitors of serine proteases, to pharmaceutical compositions thereof and to their use in the treatment of the human or animal body. More specifically, the present invention relates to a method for the treatment, diagnosis or prognosis of skin diseases comprising the administration to a subject in need thereof of a therapeutically effective amount of a Serine protease inhibitor.

Disclosed is a method for treating a subject having a neurological disorder characterized by the presence of dipeptide repeat proteins comprising contacting the cerebrospinal fluid (CSF) of the subject with an agent capable of removing or degrading the toxic protein.

Compositions and methods for therapeutic delivery are disclosed. More particularly, the present disclosure relates to nanoparticle compositions that sequester the activity of a target molecule while leaving other domains accessible to bind targeted tissues of interest. Methods for thrombus dissolution include administering a nanoparticle reversibly coupled to a target molecule that can dissolve a blood clot. Compositions and methods for inducing blood clotting are also disclosed. Methods for inducing blood clotting include administering a nanoparticle reversibly coupled to a target molecule that can induce the formation of a blood clot. Methods for sequestering a target molecule are also disclosed. The method includes reversibly coupling a target molecule to a nanoparticle having an affinity ligand that reversibly couples the target molecule, and thus, sequesters the target molecule activity until the target molecule interacts with its substrate resulting in the release of the target molecule.

Disclosed is the use of isothiocyanate compounds. In particular, disclosed is the use of a compound as shown by Formula (I) or a derivative as shown by Formula (II) in the manufacture of a composition or preparation for preventing and/or treating hyperlipidemia. The compound of the present invention can reduce the levels of triglycerides and low density lipoproteins in the serum of mammals (such as rats and humans), increase the level of high density lipoproteins in the serum, and reduce the level of total bilirubin in the serum of mammals (such as rats and humans).