4892-02-8Relevant articles and documents
Novel syntheses of dithiosalicylide
Mitra, Kaushik,Gates, Kent S.
, p. 1391 - 1394 (1995)
Treatment of 3H-1,2-benzodithiol-3-one or 3H-1,2-benzodithiol-3-one 1-oxide with triphenylphosphine affords a good yield of dithiosalicylide. These reactions provide practical methods for the preparation of interesting cleft-shaped molecules.
Benzothiophene-2-carboxamide derivatives as SENPs inhibitors with selectivity within SENPs family
Wang, Zhongli,Liu, Yunqi,Zhang, Jianchen,Ullah, Shafi,Kang, Ning,Zhao, Yaxue,Zhou, Huchen
, (2020/07/27)
The SUMO (small ubiquitin-related modifier)-specific proteases (SENPs) are responsible for the cleavage of SUMO from its target proteins, thus play important roles in the dynamic SUMOylation and deSUMOylation processes. SENPs are related to a variety of human diseases including cancer and represent a new class of potential therapeutic targets with mechanism of action that is likely to be different from that of current clinically used drugs. However, potent inhibitors that are selective within the SENPs family members still remain a challenge due to their high homology. In order to demonstrate the feasibility of developing selective inhibitors within the SENPs family, we chose SENP1/2/5 as representatives, aiming to identify inhibitors with selectivity among the members. Starting from a hit compound ZCL951 from virtual screening, a series of benzothiophene-2-carboxamide inhibitors were designed based on the protein structures of SENP1, 2, and 5. First, an unoccupied hydrophobic pocket was first identified which led to IC50 as low as 0.56 μM. Furthermore, the ethylacetate 77 gave both submicromolar inhibitory activity and 33-fold selectivity for SENP2 versus SENP5. They are the most potent and selective nonpeptidic inhibitor reported so far for the SENPs family, as far as we are aware. Their structure-activity relationship was also discussed.
Synthesis and anti-bacterial activity of a library of 1,2-benzisothiazol-3(2H)-one (BIT) derivatives amenable of crosslinking to polysaccharides
Viani, Fiorenza,Rossi, Bianca,Panzeri, Walter,Merlini, Luca,Martorana, Alessandra M.,Polissi, Alessandra,Galante, Yves M.
, p. 1745 - 1761 (2017/03/08)
1,2-Benzisothiazol-3(2H)-one (BIT) is one of the most common chemical biocides in industrial products, with a heterocyclic structure and a wide range of antimicrobial activity. A library of BIT derivatives was synthesized and characterized, from which 18 compounds were selected, tested for anti-bacterial activity relative to the parent molecule and amenable of coupling to plant polysaccharides in general and to galactomannans (GM) in particular, widely used as rheology modifiers, but with limited “biostability”. Four sites on the BIT core were targeted: the nitrogen and the oxygen atoms on the heterocyclic ring, the C5 and the C6 positions on the aromatic ring, where functional groups were introduced. The ultimate aim of this work is to establish whether by covalently linking a biocide to GM polymers, their “biostability” can be improved.