A solid supported branched linker assay system, including an alpha compound and a beta compounds reversibly tethered to a solid support; a branched linker coupled to the solid support that tethers the alpha and beta compounds to the solid support; the branched linker having two cleavable linkers that are chemically distinct from one another, wherein a first chemically distinct linker tethers the β compound to the branched linker and a second chemically distinct linker tethers the α compound to the branched linker; and at least two means for cleaving the chemically distinct linkers, wherein a first cleavage means is configured to selectively cleave a first chemically distinct linker and a second cleavage means is configured to selectively cleave a second chemically distinct linker.

Peptide-based compounds including heteroatom-containing, three-membered rings efficiently and selectively inhibit specific activities of N-terminal nucleophile (Ntn) hydrolases associated with the proteasome. The peptide-based compounds include an epoxide or aziridine, and functionalization at the N-terminus. Among other therapeutic utilities, the peptide-based compounds are expected to display anti-inflammatory properties and inhibition of cell proliferation. Oral administration of these peptide-based proteasome inhibitors is possible due to their bioavailability profiles.

Provided herein are pharmaceutical formulations comprising KZR-616 or a salt thereof, and a sugar, wherein the formulations are lyophilized, methods of preparing said formulations, methods of treating immune-related diseases, and methods of treating inflammation.

The present invention relates to a metal phase transformation compound and a method for preparing the same.

Compounds, compositions and methods for preventing, treating or curing a coronavirus, picornavirus, and/or hepeviridae virus infection in human subjects or other animal hosts. Specific viruses that can be treated include enteroviruses. In one embodiment, the compounds can be used to treat an infection with a severe acute respiratory syndrome virus, such as human coronavirus 229E, SARS, MERS, SARS-CoV-1 (OC43), and SARS-CoV-2. In another embodiment, the methods are used to treat a patient co-infected with two or more of these viruses, or a combination of one or more of these viruses and norovirus.

The invention relates to methods, compounds, compositions and vehicles for delivering 3-amino-1-propanesulfonic acid (3APS) in a subject, preferably a human subject. The invention encompasses compound that will yield or generate 3APS, either in vitro or in vivo. Preferred compounds include amino acid prodrugs of 3APS for use, including but not limited to the prevention and treatment of Alzheimer's disease

Disclosed are proteasome inhibitors, fibroblast activation protein (FAP)-activated prodrugs of proteasome inhibitors, and pharmaceutically acceptable salts of the inhibitors and prodrugs. Also disclosed are related pharmaceutical compositions, and methods of using the inhibitors and prodrugs and compositions thereof, for example, in treating cancer or other cell proliferative diseases. In vitro and in vivo methods of quantifying the expression of FAP in a biopsy sample and a mammal, respectively, are also disclosed.

The present technology is directed to compounds, compositions, and methods related to treatment of cancers and viral infections mediated by IAPs. In particular the present compounds and compositions may be used to treat IAP-mediated ovarian cancer and hepatitis B infection.

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The present disclosure relates to metal di-amino acid chelates and metal tri-amino acid chelates.

There is provided a composition for improving memory, learning ability, and cognitive ability and a method of enhancing a brain or cognitive function by administering the composition to a subject in need thereof. It has been confirmed that a peptide having a C-terminal region ended to GAG had an effect of improving the memory. In order for the peptide to have the effect, it has been confirmed that the peptide should be a peptide of which the length consists of at least 4 amino acids. Further, it has been confirmed that a peptide of which the length of the peptide having the C-terminal region ended to GAG consists of 5 to 9 amino acids has the same effect. As a result, the peptide of the present invention can be used as the composition for improving memory, learning ability, and cognitive ability, and the method of enhancing a brain or cognitive function.