121-60-8Relevant academic research and scientific papers
Synthesis, characterization, crystal structures and biological screening of 4-amino quinazoline sulfonamide derivatives
Sunil Kumar,Kudva, Jyothi,Lahtinen, Manu,Peuronen, Anssi,Sadashiva, Rajitha,Naral, Damodara
, p. 29 - 36 (2019)
Three quinazolin-4-ylamino derivatives containing phenylbenzenesulfonamides (7a-7c)were synthesized by reacting (E)-N'-(2-cyanophenyl)-N,N-dimethyl formamidine (6)with different 4-amino-N-(phenyl)benzenesulfonamides (4a-4c)and characterized by different techniques such as HRMS, IR, 1H NMR and 13C NMR spectroscopy. The structural properties were further examined by single crystal X-ray diffraction method. The X-ray data shows that compounds 7a and 7c contain two molecules and 7b contains one molecule in the asymmetric unit. Comparison of conformation of two distinct molecules, “A” and “B”, in the asymmetric unit of 7a and 7c were studied with the aid of reported literature. The in vitro antiproliferative activity of the compounds was tested against two breast cancer cell lines (MDA-MB-231 and MCF7). Compound 7b observed as a highest potent candidate against MDA-MB-231with IC50 of 5.44 μg/mL. Antimicrobial activity was also screened against bacterial and fungal strains. Compound 7a with chloro substitution was observed as the most potent candidate against the Gram-negative bacterial strains, whereas the compounds showed no significant activity against the fungal strain.
Synthesis and in vitro antimicrobial activity of some newer quinazolinone-sulfonamide linked hybrid heterocyclic entities derived from glycine
Vanparia, Satish F.,Patel, Tarosh S.,Dixit, Ritu B.,Dixit, Bharat C.
, p. 5184 - 5196 (2013)
A novel series of 4-(amino or acetamido)-N-{[3-(substituted aryl)-4-oxo-3,4-dihydroquinazolin-2-yl]-methyl}benzenesulfonamide derivatives (1-19) were designed to assimilate 4-quinazolone and sulfonamide moieties in a single molecular framework. To derive entitled hybrid entities with structural diversity, an efficient multi-step synthetic approach initiated from glycine was developed, which involves milder conditions for emphasizing steps viz., reaction in aqueous-media, phosphazo-method of condensation, base mediated selective ester-cleavage, along with key-step, rapid and improved Grimmel's hetero-cyclization method. The structure of the synthesized compounds was confirmed by physico-chemical characteristics and spectroscopic investigations. All these compounds were screened for their in vitro antimicrobial activity. The minimum inhibitory concentrations of the synthesized compounds against various bacteria (S. aureus, B. cereus, E. coli, K. pneumonia, P. aeruginosa) and fungus (A. niger, C. albicans) was measured by broth microdilution assay. Further, results on the preliminary biological activity indicated that most of the screened compounds have displayed varied degree of inhibitory actions.
Design, synthesis and antimicrobial evaluation of novel benzimidazole-incorporated sulfonamide analogues
Zhang, Hui-Zhen,He, Shi-Chao,Peng, Yan-Jun,Zhang, Hai-Juan,Gopala, Lavanya,Tangadanchu, Vijai Kumar Reddy,Gan, Lin-Ling,Zhou, Cheng-He
, p. 165 - 183 (2017)
A novel series of benzimidazole-incorporated sulfonamide analogues were designed and synthesized with an effort to overcome the increasing antibiotic resistance. Compound 5c gave potent activities against Gram-positive bacteria and fungi, and 2,4-dichlorobenzyl derivative 5g showed good activities against Gram-negative bacteria. Both of these two active molecules 5c and 5g could effectively intercalate into calf thymus DNA to form compound?DNA complex respectively, which might block DNA replication to exert their powerful antimicrobial activity. Molecular docking experiments suggested that compounds 5c and 5g could insert into base-pairs of DNA hexamer duplex by the formation of hydrogen bonds with guanine of DNA. The transportation behavior of these highly active compounds by human serum albumin (HSA) demonstrated that the electrostatic interactions played major roles in the strong association of active compounds with HSA, and which was also confirmed by the full geometry calculation optimizations.
An alternative synthetic process of p-acetaminobenzenesulfonyl chloride through combined chlorosulfonation by HClSO3 and PCl5
Tan, Shiyu,Yang, Yang,Luo, Ziping,Zhao, Shuo,Huang, Dafu,Zhang, Jun,Dong, Lichun,Wang, Gang
, p. 510 - 518 (2011)
P-Aminobenzene sulfonamide (sulfanilamide, SN) is the simplest and most-used sulfonamide medicine. The key step of SN production via the commonly used chlorosulfonic acid routine is the synthesis of p-acetaminobenzenesulfonyl chloride (P-ASC). A large amount of HSO3Cl has to be used in the traditional process, which results in serious environmental problems. In this study, an alternative chlorosulfonic acid process to synthesize P-ASC was investigated by partially substituting HSO3Cl by PCl5 as the chlorination agent. Compared with the traditional process, the molar ratio of HSO3Cl to acetanilide (the main raw material) can be decreased from 4.96 to 2.1 using CCl4 as the diluent; also, addition of a small amount of NH4Cl was found to significantly increase the P-ASC yield. Operating conditions of the reaction were studied first by single-factor experiments and later by orthogonal experiments to obtain optimum operating conditions under which the P-ASC yield can reach as high as 86.3 %.
A new, mild preparation of sulfonyl chlorides
Blotny, Grzegorz
, p. 1499 - 1501 (2003)
A new method was developed for the preparation of sulfonyl chlorides from sulfonic acids under neutral conditions using 2,4,6-trichloro-1,3,5-triazine as chlorinating agent.
Fluorescence sensing and binding behavior of aminobenzenesulfonamidoquinolino-β-cyclodextrin to Zn2+
Liu, Yu,Zhang, Ning,Chen, Yong,Wang, Li-Hua
, p. 315 - 318 (2007)
(Chemical Equation Presented) A water-soluble fluorescent zinc sensor which binds strongly to Zn2+ (log K = 12.4) was successfully synthesized under physiological conditions. This sensor exhibits a good fluorescence response to Zn2+ over a wide pH range in water. Under the same conditions, several metal ions commonly present in a physiological environment, such as Na+, K+, Ca2+, Mg2+, Mn 2+, Fe2+, and Co2+, showed little interference to the fluorescence response to Zn2+.
Unique para-aminobenzenesulfonyl oxadiazoles as novel structural potential membrane active antibacterial agents towards drug-resistant methicillin resistant Staphylococcus aureus
Wang, Juan,Ansari, Mohammad Fawad,Zhou, Cheng-He
, (2021)
A class of structurally unique para-aminobenzenesulfonyl oxadiazoles as new potential antimicrobial agents was designed and synthesized from acetanilide. Some target para-aminobenzenesulfonyl oxadiazoles showed antibacterial potency. Noticeably, hexyl derivative 8b (MIC = 1 μg/mL) was more active than norfloxacin against drug resistant MRSA. Compound 8b was able to disturb the membrane effectively and intercalate into deoxyribonucleic acid (DNA) to form a steady 8b-DNA complex, which might be responsible for bacterial metabolic inactivation. Molecular docking indicated that 8b could interact with DNA topoisomerase IV through noncovalent interactions to form a supramolecular complex and hinder the function of this enzyme. These results indicated that hexyl derivative 8b deserved further investigation as a new lead compound.
A facile reaction to access novel structural sulfonyl-hybridized imidazolyl ethanols as potential DNA-targeting antibacterial agents
Bheemanaboina, Rammohan R. Yadav,Guan, Zhi,Hu, Yuan-Yuan,Meng, Jiang-Ping,Wang, Juan,Zhou, Cheng-He
, (2021)
A novel type of sulfonyl-hybridized imidazolyl ethanols as potential DNA-targeting antibacterial agents was constructed via the unique ring-opened reaction of oxiranes by imidazoles for the first time. Some developed target hybrids showed potential antimicrobial potency against the tested microbes. Especially, imidazole derivative 5f could strongly suppressed the growth of MRSA (MIC = 4 μg/mL), which was 2-fold and 16-fold more potent than the positive control sulfathiazole and norfloxacin. This compound exhibited quite low propensity to induce bacterial resistance. Antibacterial mechanism exploration indicated that compound 5f could embed in MRSA DNA to form steady 5f-DNA complex, which possibly hinder DNA replication to exert antimicrobial behavior. Molecular docking showed that molecule 5f could bind with dihydrofolate synthetase through hydrogen bonds. These results implied that imidazole derivative 5f could be served as a promising molecule for the exploration of novel antibacterial candidates.
Novel Schiff base-bridged multi-component sulfonamide imidazole hybrids as potentially highly selective DNA-targeting membrane active repressors against methicillin-resistant Staphylococcus aureus
Hu, Yuanyuan,Pan, Guangxing,Yang, Zhixiong,Li, Tiejun,Wang, Juan,Ansari, Mohammad Fawad,Hu, Chunfang,Yadav Bheemanaboina, Rammohan R.,Cheng, Yu,Zhou, Chenghe,Zhang, Jiaheng
, (2021)
A new type of Schiff base-bridged multi-component sulfonamide imidazole hybrids with antimicrobial potential was developed. Some target compounds showed significant antibacterial potency. Observably, butylene hybrids 4h exhibited remarkable inhibitory efficacy against clinical MRSA (MIC = 1 μg/mL), but had no significant toxic effect on normal mammalian cells (RAW 264.7). The highly active molecule 4h was revealed by molecular modeling study that it could insert into the base-pairs of DNA hexamer duplex and bind with the ASN-62 residue of human carbonic anhydrase isozyme II through hydrogen bonding. Furthermore, further preliminary antibacterial mechanism experiments confirmed that compound 4h could effectively interfere with MRSA membrane and insert into bacterial DNA isolated from clinical MRSA strains through non-covalent bonding to produce a supramolecular complex, thus exerting its strong antibacterial efficacy by impeding DNA replication. These findings strongly implied that the highly active hybrid 4h could be used as a potential DNA-targeting template for the development of valuable antimicrobial agent.
Novel 2,3-disubstituted quinazoline-4(3H)-one molecules derived from amino acid linked sulphonamide as a potent malarial antifolates for DHFR inhibition
Patel, Tarosh S.,Vanparia, Satish F.,Patel, Urmila H.,Dixit, Ritu B.,Chudasama, Chaitanya J.,Patel, Bhavesh D.,Dixit, Bharat C.
, p. 251 - 265 (2017)
An optimization of a modified Grimmel's method for N-heterocyclization of Leucine linked sulphonamide leading to 2,3-disustituted-4-quinazolin-(3H)-ones was accomplished. Further, nineteen hybrid quinazolinone motifs (5a-5s) were synthesized by N-heterocyclization reaction under microwave irradiation using TEAA (IL) as green solvent as well as catalyst. The in vitro screening of the hybrid entities against the plasmodium species P. falciparum yielded five antimalarial potent molecules 5g, 5l, 5m, 5n & 5p owing comparable activity to the reference drugs. The active scaffolds were further evaluated for enzyme inhibition efficacy against alleged receptor Pf-DHFR computationally as well as in vitro, proving their candidature as lead dihydrofolate reductase inhibitors. The prediction of the ADMET properties of the potent molecules also indicated their good oral bioavailability.
