The present disclosure relates to novel methods for preparing antibacterial aminoglycoside compounds and the compounds used in such preparations.

The present disclosure relates to novel methods for preparing antibacterial aminoglycoside compounds and the compounds used in such preparations.

The present invention relates to seco (opened ring) macrolide compounds, to the process for preparation thereof, to the use of said seco macrolide compounds as intermediates for preparation of macrolide based macrocycles, to macrolide based macrocycles obtained from said seco macrolide compounds, to the process for preparation of macrolide based macrocycles, to the pharmaceutical compositions comprising macrolide based macrocycles, and to the use of macrolide based macrocycles as therapeutic agents.

The invention discloses a substituted pyrazole compound of formula (I), preparation method therefor, a pharmaceutical composition and a medical use thereof. The said compound features excellent stability, solubility, and low cytotoxicity, which is significantly beneficial for neurological protection, effectively preventing and treating nerve cell injuries. It is an ideal pharmaceutical compound for preventing or treating stroke, cerebral embolism, stroke sequelae, stroke-related motor dysfunction, mitochondrial encephalomyopathy, and amyotrophic lateral sclerosis.

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The invention discloses a substituted pyrazole compound of formula (I), preparation method therefor, a pharmaceutical composition and a medical use thereof. The said compound features excellent stability, solubility, and low cytotoxicity, which is significantly beneficial for neurological protection, effectively preventing and treating nerve cell injuries. It is an ideal pharmaceutical compound for preventing or treating stroke, cerebral embolism, stroke sequelae, stroke-related motor dysfunction, mitochondrial encephalomyopathy, and amyotrophic lateral sclerosis.

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The present disclosure relates to the field of pharmaceutical chemistry, and particularly to a compound represented by Formula (I), a preparation method and medical use thereof. In the compound represented by Formula (I), a lactulosyl group is connected to a heteroatom of genin (G) via a glycosidic bond, wherein the genin (G) is a group formed by removing one hydrogen atom from a heteroatom of an active pharmaceutical molecule, and “” indicates that the lactulosyl group is connected to the heteroatom of the genin (G) via an α-glycosidic bond or a β-glycosidic bond. Pharmacokinetic experiments prove that the lactuloside compound according to the present disclosure can pass through the gastrointestinal tract of a mammal without being absorbed significantly by the gastrointestinal tract and hydrolyzed significantly by endogenous enzymes of a mammal host. Therefore, the lactuloside compound can arrive at the colon site of the mammal, and release an active drug in the colon under the action of colon flora. The lactuloside compound has a function of colon-localized drug release, and can be used for preventing or treating an intestinal disease. ##STR00001##

Compounds and compositions that have an asialoglycoprotein receptor (ASGPR) binding ligand bound to an extracellular protein binding ligand for the selective degradation of the target extracellular protein in vivo to treat disorders mediated by the extracellular protein are described.

Compounds and compositions that have an asialoglycoprotein receptor (ASGPR) binding ligand bound to an extracellular protein binding ligand for the selective degradation of the target extracellular protein in vivo to treat disorders mediated by the extracellular protein are described.

The present invention is the use of purine nucleotide phosphoramidates or pharmaceutically acceptable salts thereof administered in an effective amount for the treatment or prevention of COVID-19, an infection caused by the SARS CoV-2 virus in a host, for example a human, in need thereof.

Disclosed are novel glycosylated psilocybin derivative compounds and pharmaceutical and recreational drug formulations containing the same. The compounds may be produced by reacting a hydroxylated psilocybin derivative with a glycosyl compound.