The present invention is directed to a compound represented by Structural Formula (I): ##STR00001##
or a pharmaceutically acceptable salt thereof. The variables for Structural Formula (I) are defined herein. Also described is a pharmaceutical composition comprising the compound of Structural Formula (I), or a pharmaceutically acceptable salt thereof, and its therapeutic use.

The described invention relates to sarecycline, related compounds, intermediates and salts thereof and processes for preparing the same.

The described invention relates to sarecycline, related compounds, intermediates and salts thereof and processes for preparing the same.

The present invention relates to the application of biosynthetic engineering for the heterologous expression of a gene cluster for the biosynthesis of tetracycline compounds, notably chelocardin and its analogues. More particularly, the present invention pertains to a gene cluster encoding polypeptides involved in tetracycline biosynthesis, which gene cluster is suitable for heterologous expression of the biosynthetic pathway in a host cell. The present invention further pertains to DNA construct s comprising the gene cluster, to recombinant heterologous host cell s comprising the gene cluster or the DNA construct, to processes for the biosynthetic production of a tetracycline compound employing such recombinant host cells, and to tetracycline compounds thereby produced. The present invention also pertains to fusion proteins which are useful in the production of tetracycline compounds.

The present invention relates to the application of biosynthetic engineering for the heterologous expression of a gene cluster for the biosynthesis of tetracycline compounds, notably chelocardin and its analogues. More particularly, the present invention pertains to a gene cluster encoding polypeptides involved in tetracycline biosynthesis, which gene cluster is suitable for heterologous expression of the biosynthetic pathway in a host cell. The present invention further pertains to DNA construct s comprising the gene cluster, to recombinant heterologous host cell s comprising the gene cluster or the DNA construct, to processes for the biosynthetic production of a tetracycline compound employing such recombinant host cells, and to tetracycline compounds thereby produced. The present invention also pertains to fusion proteins which are useful in the production of tetracycline compounds.

Methods of treating at least one condition associated with envenomation, pharmaceutical compositions, and kits comprising a first compound having formula (I): and a second compound chosen from N-acetyl-L-cysteine, sodium aurothiomalate, silibinin, sodium copper chlorophyllin, and pharmaceutically acceptable salts and solvates thereof.

##STR00001##

The tetracycline class of antibiotics has played a major role in the treatment of infectious diseases for the past 50 years. However, the increased use of the tetracyclines in human and veterinary medicine has led to resistance among many organisms previously susceptible to tetracycline antibiotics. The modular synthesis of tetracyclines and tetracycline analogs described provides an efficient and enantioselective route to a variety of tetracycline analogs and polycyclines previously inaccessible via earlier tetracycline syntheses and semi-synthetic methods. These analogs may be used as anti-microbial agents or anti-proliferative agents in the treatment of diseases of humans or other animals.

The tetracycline class of antibiotics has played a major role in the treatment of infectious diseases for the past 50 years. However, the increased use of the tetracyclines in human and veterinary medicine has led to resistance among many organisms previously susceptible to tetracycline antibiotics. The modular synthesis of tetracyclines and tetracycline analogs described provides an efficient and enantioselective route to a variety of tetracycline analogs and polycyclines previously inaccessible via earlier tetracycline syntheses and semi-synthetic methods. These analogs may be used as anti-microbial agents or anti-proliferative agents in the treatment of diseases of humans or other animals.

Provided herein are improved processes for converting C7-amino-substituted tetracyclines to C7-fluoro-substituted tetracyclines, as well as intermediates produced by or used in these processes. In one embodiment, a thermal fluorination method is provided in which a suspension comprising a non-polar organic solvent and a C7-diazo-substituted tetracycline hexafluorophosphate, hexafluoroarsenate or hexafluorosilicate salt, or a salt, solvate or combination thereof, is heated to provide a C7-fluoro-substituted tetracycline, or salt, solvate or combination thereof. In another embodiment, a photolytic fluorination is provided in which a solution comprising an ionic liquid and a C7-diazo-substituted tetracycline tetrafluoroborate, hexafluorophosphate, hexafluoroarsenate or hexafluorosilicate salt, or a salt, solvate or combination thereof, is irradiated to provide a C7-fluoro-substituted tetracycline, or salt, solvate or combination thereof.

Provided herein are improved processes for converting C7-amino-substituted tetracyclines to C7-fluoro-substituted tetracyclines, as well as intermediates produced by or used in these processes. In one embodiment, a thermal fluorination method is provided in which a suspension comprising a non-polar organic solvent and a C7-diazo-substituted tetracycline hexafluorophosphate, hexafluoroarsenate or hexafluorosilicate salt, or a salt, solvate or combination thereof, is heated to provide a C7-fluoro-substituted tetracycline, or salt, solvate or combination thereof. In another embodiment, a photolytic fluorination is provided in which a solution comprising an ionic liquid and a C7-diazo-substituted tetracycline tetrafluoroborate, hexafluorophosphate, hexafluoroarsenate or hexafluorosilicate salt, or a salt, solvate or combination thereof, is irradiated to provide a C7-fluoro-substituted tetracycline, or salt, solvate or combination thereof.