Provided is a unit dose of recombinant adeno-associated virus (AAV) particles for expression of matrix metalloproteinase 3 (MMP-3). Further provided is a unit dose of recombinant MMP-3. Also provided are methods of use thereof, e.g., in transducing the corneal endothelium of a subject; reducing intraocular pressure in an eye of a subject; treating and/or preventing elevated intraocular pressure in a subject; and treating and/or preventing glaucoma in a subject. Subjects include primates.

A method of evaluating disease activity of rheumatoid arthritis with good sensitivity by a simple method, and a kit for use in the method. It provides a Jacalin-binding O-linked oligosaccharide epitope as a negative marker for diagnosing rheumatoid arthritis, and enables more accurate assessment of disease condition by more objectively determining disease activity of rheumatoid arthritis using the amount of variation of a value obtained by multiplying the amount of MMP-3 in the blood or the amount of bound MMP-3 and ABA, ACA, or ACG in the blood by the reciprocal of the amount of bound MMP-3 and Jacalin in the blood. Through the discovery that an LEL or STL-reactive sugar chain on MMP-3 in the blood is a sugar chain marker for diagnosing polymyalgia rheumatica and relapsing polychondritis, the present invention also provides a method for accurate diagnosis of polymyalgia rheumatica and relapsing polychondritis.

Disclosed herein is a method of “reprogramming” highly motile cells found in tumors, such as these highly motile GSC and/or MDSC clones, into “auto-destructive” cell “missiles” (referred to herein as therapeutic stealth cells) that can seek and destroy new foci of recurrence within the body, such as the brain. Cells with enhanced motility can be sorted out from heterogeneous populations and then be rendered “auto-destructive” by deterministic delivery of an anti-cancer agent, such as an oncolytic virus plasmid cocktail.

The disclosure provides compositions and methods useful for treating glaucoma. In particular, the invention provides an adeno-associated viral (AAV)-mediated gene therapy for glaucoma in which transduced cells of the eye secrete a therapeutic protein (for example, a matrix metalloproteinase) resulting in remodeling of the extracellular matrix of the trabecular meshwork of said eye.

The invention provides compounds, compositions, and methods for the treatment of diseases, disorders, or conditions that are modulated by matrix metalloproteinases (MMPs). The disease, disorder, or condition can include, for example, stroke, neurological disorders, or ophthalmological disorders. The treatment can include administering a compound or composition described herein, thereby providing a prodrug compound that metabolizes to an active MMP inhibitor in vivo. The MMP inhibition can be selective inhibition, for example, selective inhibition of MMP-2, MMP-9, and/or MMP-14. Thus, the invention provides non-mutagenic prodrug compounds of the formulas described herein that result in the inhibition of MMPs upon in vivo administration.

Disclosed herein is a method of reprogramming highly motile cells found in tumors, such as these highly motile GSC and/or MDSC clones, into auto-destructive cell missiles (referred to herein as therapeutic stealth cells) that can seek and destroy new foci of recurrence within the body, such as the brain. Cells with enhanced motility can be sorted out from heterogeneous populations and then be rendered auto-destructive by deterministic delivery of an anti-cancer agent, such as an oncolytic virus plasmid cocktail.

Disclosed herein is a method of reprogramming highly motile cells found in tumors, such as these highly motile GSC and/or MDSC clones, into auto-destructive cell missiles (referred to herein as therapeutic stealth cells) that can seek and destroy new foci of recurrence within the body, such as the brain. Cells with enhanced motility can be sorted out from heterogeneous populations and then be rendered auto-destructive by deterministic delivery of an anti-cancer agent, such as an oncolytic virus plasmid cocktail.