3934-86-9Relevant articles and documents
Asymmetric total synthesis of four bioactive lignans using donor-acceptor cyclopropanes and bioassay of (?)- and (+)-niranthin against hepatitis B and influenza viruses
Karasawa, Daichi,Nishii, Yoshinori,Oshima, Mizuki,Ota, Ryotaro,Shimasaki, Noriko,Watashi, Koichi
, p. 4635 - 4639 (2022/02/19)
The asymmetric total synthesis of four lignans, dimethylmatairesinol, matairesinol, (?)-niranthin, and (+)-niranthin has been achieved using reductive ring-opening of cyclopropanes. Moreover, we performed bioassays of the synthesized (+)- and (?)-niranthins using hepatitis B and influenza viruses, which revealed the relationship between the enantiomeric structure and the anti-viral activity of niranthin.
Synthesis method of 2-bromo-3, 4-methylenedioxy-5-methoxybenzoic acid methyl ester
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Paragraph 0024; 0026, (2020/05/01)
The invention belongs to the field of chemical pharmacy, and specifically discloses a preparation method of 2-bromo-3, 4-methylenedioxy-5-methoxybenzoic acid methyl ester. The preparation method comprises the following steps: by taking gallic acid as a ra
Design and synthesis of novel parabanic acid derivatives as anticonvulsants
Aboutabl, Mona Elsayed,Hassan, Rasha Mohamed,El-Azzouny, Aida Abdel-Sattar,Aboul-Enein, Mohamed Nabil,Abd-Allah, Walaa Hamada
, (2019/12/24)
In this work a set of novel derivatives of parabanic acid 9a-d, 12a-d and 13a-d was synthesized and their anticonvulsant potential was evaluated. All the compounds under investigation exhibited anticonvulsant activity in both scPTZ and MES tests. In phase II anticonvulsant study, the trimethoxy phenyl derivative 9a evoked the highest potency among the tested compounds in scPTZ test. It displayed 1.72- and 17.05-folds activity more than the standard drugs phenobarbital and ethosuximide, respectively. In addition, the margin of safety for compound 9a is better than that of the reference antiepileptic drug ethosuximide. Also, compound 9a was devoid of hepatotoxicity indicated by measurements of serum level of ALT, AST, ALP, albumin and total protein. Furthermore, treatment with compound 9a significantly increased the GABA brain level by 2.56-folds compared to the control value. Additionally, molecular docking was performed on the active site of GABA-AT to clarify the interactions of the most potent compound 9a with the enzyme. In MES test, compound 12a exhibited the most potent activity against electric stimuli-induced seizures with the lowest ED50 = 13.7 mg/kg and protective index >36.5. Both candidates 9a and 12a could be a good starting point to develop new molecules as novel antiepileptic drugs.