The present disclosure provides GLP-1R agonists, and compositions, methods, and kits thereof. Such compounds are generally useful for treating a GLP-1R mediated disease or condition in a human.

This invention relates to inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient. The present invention relates also to an inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient for use in a method of treating an infection in a subject. In addition, the present invention relates to a method of treating an infection in a subject by administering an inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient to the subject. The inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient is suitable for the treatment of pulmonary or systemic infections caused by Gram-positive or Gram-negative bacteria.

This invention relates to inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient. The present invention relates also to an inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient for use in a method of treating an infection in a subject. In addition, the present invention relates to a method of treating an infection in a subject by administering an inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient to the subject. The inhalable formulation comprising a macrocyclic, cavity-containing compound as a biologically active ingredient is suitable for the treatment of pulmonary or systemic infections caused by Gram-positive or Gram-negative bacteria.

Described herein are protein-payload conjugates and compositions thereof that are useful, for example, for target-specific delivery of therapeutic and/or imaging agent moieties. In certain embodiments, provided are specific and efficient methods for producing protein-payload constructs (e.g., antibody-drug conjugates) utilizing a combination of transglutaminase and Diels-Alder techniques. Antibody-drug conjugates and compositions which comprise glutaminyl-modified antibodies, Diels-Alder adducts, and reactive payloads and are provided.

Described herein are protein-payload conjugates and compositions thereof that are useful, for example, for target-specific delivery of therapeutic and/or imaging agent moieties. In certain embodiments, provided are specific and efficient methods for producing protein-payload constructs (e.g., antibody-drug conjugates) utilizing a combination of transglutaminase and Diels-Alder techniques. Antibody-drug conjugates and compositions which comprise glutaminyl-modified antibodies, Diels-Alder adducts, and reactive payloads and are provided.

A method of treating a subject for reducing the risk of QT space prolongation associated with the intake of a drug known to prolong QT space includes administering to the subject at least one specific inhibitor of mitochondrial ROS production selected from among anethole trithione (ATT), 4-OH-anethole trithione (ATX), and an ATX ester, and administering to the subject the drug known to prolong QT space.

A method of treating a subject for reducing the risk of QT space prolongation associated with the intake of a drug known to prolong QT space includes administering to the subject at least one specific inhibitor of mitochondrial ROS production selected from among anethole trithione (ATT), 4-OH-anethole trithione (ATX), and an ATX ester, and administering to the subject the drug known to prolong QT space.

The present invention relates to ultrasound mediated delivery of antimicrobial agents to sites of infection, and particularly for treatment of infections. Thus, the invention provides a cluster composition and a pharmaceutical composition, for use in delivery and preparation for administration of antimicrobial agents and treatment of infections.

A method for treating an influenza virus infection is described. The disclosed method generally involves administering an effective amount of a compound (A), for example baloxavir marboxil, and a compound (B), for example a neuraminidase inhibor, to a subject that (1) has an influenza virus infection, (2) has been symptomatic of the influenza virus infection for no more than 96 hours, and (3) further has at least one severe influenza condition selected from the following: (a) being hospitalized due to severe influenza virus infection, (b) requiring an extension of hospitalization because of the influenza virus infection during the hospitalization, (c) having a National Early Warning Score 2 of four or more, (d) being on support for respiration, and (e) having at least one complication attributable to the influenza virus infection that necessitates hospitalization.

A method for treating an influenza virus infection is described. The disclosed method generally involves administering an effective amount of a compound (A), for example baloxavir marboxil, and a compound (B), for example a neuraminidase inhibor, to a subject that (1) has an influenza virus infection, (2) has been symptomatic of the influenza virus infection for no more than 96 hours, and (3) further has at least one severe influenza condition selected from the following: (a) being hospitalized due to severe influenza virus infection, (b) requiring an extension of hospitalization because of the influenza virus infection during the hospitalization, (c) having a National Early Warning Score 2 of four or more, (d) being on support for respiration, and (e) having at least one complication attributable to the influenza virus infection that necessitates hospitalization.