Described herein are oncolytic viruses comprising one or more nucleic acids encoding an engager molecule. In some embodiments, the oncolytic viruses comprise one or more nucleic acids encoding an engager molecule and one or more therapeutic molecules. Pharmaceutical compositions containing the oncolytic virus and methods of treating cancer using the oncolytic viruses are further provided herein.

The present disclosure provides compositions and methods of use involving binding proteins, e.g., antibodies and antigen-binding fragments thereof, that bind to the matrix metalloproteinase-9 (MMP9) protein (MMP9 is also known as gelatinase-B), such as where the binding proteins comprise an immunoglobulin (Ig) heavy chain (or functional fragment thereof) and an l=g light chain (or functional fragment thereof).

Proteases regulate a wide range of normal cellular functions where dysregulated activity is observed in various diseases. Compositions and methods use protease activity multiplexed bead-based immunoassays to profile protease activity. This platform technology integrates protease activity measurements with total protein quantification techniques. It represents a significant improvement over existing detection techniques by allowing for multiplexed, sensitive active protease measurements in complex biological samples. Exemplary multiplexed detections are realized in a single assay using a minute sample amount (e.g., 5 l) for active recombinant MMP-1, -2, -3, -7, 9, and 12 and those same MMPs in cell culture supernatant, menstrual fluid effluent, and peritoneal aspirates. This multiplexed platform achieves high level of sensitivities equal to or better than existing leading single-plex detection strategies. It also allows for high throughput screening to identify inhibitors of proteases in complex, donor-derived samples.

The present invention relates to a method for quantifying a therapeutic antibody in a sample of a human individual comprising a step of adding to a test sample which may contain therapeutic antibodies to be quantified a known amount of two or more labeled forms of said therapeutic antibodies.

Methods are provided for treating a subject with prostate cancer and/or diagnosing a subject at risk for prostate cancer, which can include measuring increased expression of at least two prostate cancer-related molecules in a sample obtained from a subject, including the prostate cancer-related molecules AGR2, AGR3, CRISP3, CCL3, CEACAM5, CEACAM6, IL24, MMP9, CXCL14, CD90, POSTN, and SFRP4. The methods can include administering at therapy to a subject with prostate cancer. Methods are provided for treating a subject with intermediate- or high-risk prostate cancer, which can include measuring increased expression of MMP9 in a sample obtained from a subject compared to a control representing expression of MMP9 expected in a sample from a subject who has low-risk prostate cancer.

Disclosed herein is a composition comprising a crosslinked hydrogel; where the hydrogel comprises a polymer having a cleavable bond along a backbone of the polymer, along a substituent that undergoes crosslinking, or along the backbone of the polymer and along the substituent that undergoes crosslinking; where the cleavable bond is operative to be cleaved by an enzyme released in the body of a living being; and a semiconducting quantum dot that emits light in the visible portion of the electromagnetic spectrum.

The invention relates to an aptamer that has a G-quadruplex structure and is able to inhibit the enzymatic activity of the MMP-9 protein, as well as to the dermatological and cosmetic uses thereof.

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.

Provided are methods for therapy or prophylaxis of genotoxic stress. The methods include administering to an individual in need an effective amount of Matrix Metalloproteinase (MMP)-9. The individual in need may have or be at risk of developing Acute Radiation Syndrome (ARS), or may have received or is receiving chemotherapy, or has insufficient hematopoietic function. The present disclosure provides results from a mouse model of lethal ARS induced by TBI to demonstrate that neutrophils (N) are essential mediators of the radiomitigative but not radioprotective abilities of entolimod, express functional TLR5 butundergo minimal transcriptional changes post-entolimod suggesting that N mitigate 30 ARS through a transcriptional-independent mechanism; and increase the number of active hematopoietic B pluripotent precursors (HPPs) in bone marrow.

Disclosed are pharmaceutical compositions and methods for digesting atherosclerotic plaques in a patient in need thereof. The compositions include and the methods utilize a mixture of collagenases for digesting plaques and optionally may include or utilize additional agents such as cyclodextrins, chelating agents, and tissue plasminogen activator.