Provided herein are small molecules comprising a first domain that binds to ASH1L and a second domain that facilitates ASH1L degradation. In particular, ASH1L-targeting proteolysis targeting chimeras (PROTACs) and methods of use thereof for the treatment of disease (e.g., acute leukemia, solid cancers and other diseases dependent on activity of ASH1L) are provided.

An optical probe is presented comprising at least one fluorophore connected to at least one quencher by an enzyme cleavable peptide sequence; the or each fluorophore being substantially fluorescently quenched by the at least one quencher when connected to the enzyme cleavable peptide sequence; the or each fluorophore is separated from the at least one quencher when the enzyme cleavable peptide sequence of the at least one probe element is cleaved; and the enzyme cleavable peptide sequence is selectively cleavable by one or more matrix metalloproteinase (MMP). Methods of use of the optical probe are also presented.

The presently described technology provides methods of treating a patient having moderate to severe pain, narcotic or opioid abuse or narcotic or opioid withdrawal. The presently described methods are carried out by comprising administering to the patient a pharmaceutically effective amount of a composition comprising acetaminophen and benzoate-hydrocodone hydrochloride. The composition has reduced side effects when compared with unconjugated hydrocodone.

The presently described technology provides compositions comprising aryl carboxylic acids chemically conjugated to hydrocodone (morphinan-6-one, 4,5-alpha-epoxy-3-methoxy-17-methyl) to form novel prodrugs/compositions of hydrocodone, including benzoates and heteroaryl carboxylic acids, which have a decreased potential for abuse of hydrocodone. The present technology also provides methods of treating patients, pharmaceutical kits and methods of synthesizing conjugates of the present technology.

The present invention concerns methods and compositions for delivery of therapeutic agents to target cells, tissues or organisms. In preferred embodiments, the therapeutic agents are delivered in the form of therapeutic-loaded polymers that may comprise many copies of one or more therapeutic agents. In more preferred embodiments, the polymer may be conjugated to a peptide moiety that contains one or more haptens, such as HSG. The agent-polymer-peptide complex may be delivered to target cells by, for example, a pre-targeting technique utilizing bispecific or multispecific antibodies or fragments, having at least one binding arm that recognizes the hapten and at least a second binding arm that binds specifically to a disease or pathogen associated antigen, such as a tumor associated antigen. Methods for synthesizing and using such therapeutic-loaded polymers and their conjugates are provided.

The presently described technology provides compositions comprising aryl carboxylic acids chemically conjugated to hydrocodone (morphinan-6-one, 4,5-alpha-epoxy-3-methoxy-17-methyl) to form novel prodrugs/compositions of hydrocodone, including benzoates and heteroaryl carboxylic acids, which have a decreased potential for abuse of hydrocodone. The present technology also provides methods of treating patients, pharmaceutical kits and methods of synthesizing conjugates of the present technology.

The presently described technology provides compositions comprising aryl carboxylic acids chemically conjugated to hydrocodone (morphinan-6-one, 4,5-alpha-epoxy-3-methoxy-17-methyl) to form novel prodrugs/compositions of hydrocodone, including benzoates and heteroaryl carboxylic acids, which have a decreased potential for abuse of hydrocodone. The present technology also provides methods of treating patients, pharmaceutical kits and methods of synthesizing conjugates of the present technology.

Described are combination therapies and metabolically-activated drug conjugates and their use in treating cancer in subjects.

The presently described technology provides compositions comprising aryl carboxylic acids chemically conjugated to hydrocodone (morphinan-6-one, 4,5-alpha-epoxy-3-methoxy-17-methyl) to form novel prodrugs/compositions of hydrocodone, including benzoates and heteroaryl carboxylic acids, which have a decreased potential for abuse of hydrocodone. The present technology also provides methods of treating patients, pharmaceutical kits and methods of synthesizing conjugates of the present technology.

Provided herein are small molecules comprising a first domain that binds to ASH1L and a second domain that facilitates ASH1L degradation. In particular, ASH1L-targeting proteolysis targeting chimeras (PROTACs) and methods of use thereof for the treatment of disease (e.g., acute leukemia, solid cancers and other diseases dependent on activity of ASH1L) are provided.