<i>N</i>‐acylsulfonamides: Synthetic routes and biological potential in medicinal chemistry

Ammazzalorso, Alessandra; Filippis, Barbara De; Giampietro, Letizia; Amoroso, Rosa

doi:10.1111/cbdd.13043

Cited by 69 publications

(95 citation statements)

References 52 publications

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“…[28][29][30][31][32][33][34][35][36][37][38] Both N-heterocycles and sulfonamides are ubiquitous in biologically active molecules owing to their hydrogen bond forming abilities and favorable drug-like properties. [39][40][41][42][43] Considering their dual pharmacological effects, switching the selectivity of the C-H functionalization of aryl sulfonamides containing strongly coordinating N-heterocycles would be invaluable in the late-stage modication of potential drug molecules ( Fig. 2A).…”

Section: Introductionmentioning

confidence: 99%

Switching the site-selectivity of C–H activation in aryl sulfonamides containing strongly coordinating N-heterocycles

et al. 2019

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Section: Introductionmentioning

confidence: 99%

Switching the site-selectivity of C–H activation in aryl sulfonamides containing strongly coordinating N-heterocycles

et al. 2019

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“…1 has a structure consisting of three aromatic rings, which line up via sulfonamide and amide linkers, and had modest activity and in vivo efficacy. 11,20) In the present study, we employed acylsulfonamide structure, which has been used in various enzyme inhibitors, 36) to synthesize novel compounds and to find a novel allosteric PTP1B inhibitor with good bioavailability and in vivo efficacy. The chemical structures, molecular weights, calculated log P (c log P), calculated log D 7.4 (c log D 7.4 ), and PTP1B inhibitory activities of the compounds synthesized were shown in Tables 1-3. We synthesized compound 5a, the structure of which may resemble compound IV, an allosteric inhibitor (Table 1).…”

Section: Resultsmentioning

confidence: 99%

Novel Non-carboxylate Benzoylsulfonamide-Based Protein Tyrosine Phosphatase 1B Inhibitors with Non-competitive Actions

Morishita

Shoji

Tanaka

et al. 2017

CHEMICAL & PHARMACEUTICAL BULLETIN

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A novel series of benzoylsulfonamide derivatives were synthesized and biologically evaluated. Among them, 4-(biphenyl-4-ylmethylsulfanylmethyl)-N-(hexane-1-sulfonyl)benzamide (compound 18K) was identified as a protein tyrosine phosphatase 1B (PTP1B) inhibitor with potent and selective inhibitory activity against PTP1B (IC 50 0.25 µM). Compound 18K functioned as a non-competitive inhibitor and bound to the allosteric site of PTP1B. It also showed high oral absorption in mice (the maximum drug concentration (C max ) 45.5 µM at 30 mg/kg), rats (C max 53.6 µM at 30 mg/kg), and beagles (C max 37.8 µM at 10 mg/kg), and significantly reduced plasma glucose levels at 30 mg/kg/d (per os (p.o.)) for one week with no side effects in db/db mice. In conclusion, the substituted benzoylsulfonamide was shown to be a novel scaffold of a noncompetitive and allosteric PTP1B inhibitor, and compound 18K has potential as an efficacious and safe antidiabetic drug as well as a useful tool for investigations of the physiological and pathophysiological effects of allosteric PTP1B inhibition.Key words benzoylsulfonamide; protein tyrosine phosphatase 1B; allosteric inhibitor; non-competitive inhibitor; db/db mouse; Sprague-Dawley rat In various cellular signaling pathways, protein tyrosine kinases (PTKs) mediate the phosphorylation of tyrosine residues in a number of proteins, while protein tyrosine phosphatases (PTPs) de-phosphorylate phosphorylated tyrosine.

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“…23 Acyl sulfonamides and acyl sulfamides are used in medicinal chemistry as anionic pharmacophores. 24,25 Amides 2-5 were prepared in three simple steps from commercially available 6-TAMRA ( Fig. 1c).…”

Section: Designing Cell-permeable and Fluorogenic Rhodamine Derivativesmentioning

confidence: 99%

A general strategy to develop cell permeable and fluorogenic probes for multi-colour nanoscopy

Wang

Tran

D’Este

et al. 2019

Preprint

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Live-cell fluorescence nanoscopy is a powerful tool to study cellular biology on a molecular scale, yet its use is held back by the paucity of suitable fluorescent probes. Fluorescent probes based on regular fluorophores usually suffer from low cell permeability and unspecific background signal. We report a general strategy to transform regular fluorophores into fluorogenic probes with excellent cell permeability and low unspecific background signal. The strategy is based on the conversion of a carboxyl group found in rhodamines and related fluorophores into an electron-deficient amide. This conversion does not affect the spectroscopic properties of the fluorophore but permits it to exist in a dynamic equilibrium between two different forms: a fluorescent zwitterion and a non-fluorescent, cell permeable spirolactam. Probes based on such fluorophores generally are fluorogenic as the equilibrium shifts towards the fluorescent form when the probe binds to its cellular targets. The resulting increase in fluorescence can be up to 1000-fold. Using this simple design principle we created fluorogenic probes in various colours for different cellular targets for wash-free, multicolour, live-cell nanoscopy. The work establishes a general strategy to develop fluorogenic probes for live-cell bioimaging.

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N‐acylsulfonamides: Synthetic routes and biological potential in medicinal chemistry

Cited by 69 publications

References 52 publications

Switching the site-selectivity of C–H activation in aryl sulfonamides containing strongly coordinating N-heterocycles

Switching the site-selectivity of C–H activation in aryl sulfonamides containing strongly coordinating N-heterocycles

Novel Non-carboxylate Benzoylsulfonamide-Based Protein Tyrosine Phosphatase 1B Inhibitors with Non-competitive Actions

A general strategy to develop cell permeable and fluorogenic probes for multi-colour nanoscopy

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