98-75-9Relevant articles and documents
Structural Basis of Nanomolar Inhibition of Tumor-Associated Carbonic Anhydrase IX: X-Ray Crystallographic and Inhibition Study of Lipophilic Inhibitors with Acetazolamide Backbone
Andring, Jacob T.,Fouch, Mallorie,Akocak, Suleyman,Angeli, Andrea,Supuran, Claudiu T.,Ilies, Marc A.,McKenna, Robert
, p. 13064 - 13075 (2020/11/20)
This study provides a structure-Activity relationship study of a series of lipophilic carbonic anhydrase (CA) inhibitors with an acetazolamide backbone. The inhibitors were tested against the tumor-expressed CA isozyme IX (CA IX), and the cytosolic CA I, CA II, and membrane-bound CA IV. The study identified several low nanomolar potent inhibitors against CA IX, with lipophilicities spanning two log units. Very potent pan-inhibitors with nanomolar potency against CA IX and sub-nanomolar potency against CA II and CA IV, and with potency against CA I one order of magnitude better than the parent acetazolamide 1 were also identified in this study, together with compounds that displayed selectivity against membrane-bound CA IV. A comprehensive X-ray crystallographic study (12 crystal structures), involving both CA II and a soluble CA IX mimetic (CA IX-mimic), revealed the structural basis of this particular inhibition profile and laid the foundation for further developments toward more potent and selective inhibitors for the tumor-expressed CA IX.
CARBONIC ANHYDRASE INHIBITORS AND ANTIBIOTICS AGAINST MULTIDRUG RESISTANT BACTERIA
-
Paragraph 0085-0086; 0097, (2020/07/14)
The invention described herein generally relates to novel therapeutic compounds, and in particular to carbonic anhydrase inhibitors as a narrow spectrum antibiotics against drug resistant bacteria and methods for treating those infection diseases in mammals using the described carbonic anhydrase inhibitors or a pharmaceutical formulation thereof.
Combination of two active substances
-
, (2008/06/13)
The invention concerns the use of a compound with diuretic properties and of a magnesium supplementation in the form of magnesium monoaspartate hydrochloride, magnesium oxide, magnesium hydroxide or magnesium carbonate, and optionally of a potassium supplementation, and pharmaceutical preparations comprising a compound with diuretic properties and a magnesium supplementation in the form of magnesium monoasparate hydrochloride, magnesium oxide, magnesium hydroxide, or magnesium carbonate and optionally a potassium supplementation.