• Title/Summary/Keyword: secalonic acid D

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Secalonic acid D; A Cytotoxic Constituent from Marine Lichen-derived Fungus Gliocladium sp. T31

  • Ren, Hong;Tian, Li;Gu, Qianqun;Zhu, Weiming
    • Archives of Pharmacal Research
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    • v.29 no.1
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    • pp.59-63
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    • 2006
  • Secalonic acid D(SAD) was isolated as the major secondary metabolite of the marine lichen-derived fungus Gliocladium sp. T31. Its structure was established on the basic of physicochemical and spectroscopic data. This is the first report on the isolation of SAD from this fungus, as well as its inhibitory effect on K562 cell cycle and its cytotoxicity against several tumor cell lines in vitro.

Screening of Anti-Biofilm Compounds from Marine-Derived Fungi and the Effects of Secalonic Acid D on Staphylococcus aureus Biofilm

  • Wang, Jie;Nong, Xu-Hua;Zhang, Xiao-Yong;Xu, Xin-Ya;Amin, Muhammad;Qi, Shu-Hua
    • Journal of Microbiology and Biotechnology
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    • v.27 no.6
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    • pp.1078-1089
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    • 2017
  • Biofilm formation of Staphylococcus aureus is one of its mechanisms of drug resistance. Anti-biofilm screening of 106 compounds from marine-derived fungi displayed that 12 compounds inhibited S. aureus biofilm formation by >50% at the concentration of $100{\mu}g/ml$, and only secalonic acid D (SAD) and B inhibited by >90% at $6.25{\mu}g/ml$ without inhibiting cell growth after 24-h incubation. Meanwhile, it was found that the double bond between C-1 and C-10 of citrinin derivatives and the C-C connection position of two chromone monomers may be important for their anti-biofilm activities. Moreover, SAD slightly facilitated biofilm eradication and influenced its architecture. Furthermore, SAD slowed the cell growth rate in the preceding 18-h incubation and differentially regulated transcriptional expression of several genes, such as agr, isaA, icaA, and icaD, associated with biofilm formation in planktonic and biofilm cells, which may be the reason for the anti-biofilm activity of SAD. Finally, SAD acted synergistically against S. aureus growth and biofilm formation with other antibiotics. These findings indicated that various natural products from marine-derived fungi, such as SAD, could be used as a potential biofilm inhibitor against S. aureus.

Teratogenicity of phenytoin in ICR mouse and antiteratogenic effect of dimethyl sulfoxide (ICR마우스에서 phenytoin의 최기형성 및 dimethyl sulfoxide의 항최기형 효과)

  • Lee, Jae-kwon;Lee, Chang-eop;Lee, Mun-han;Ryu, Pan-dong;Cho, Myung-haing;Sung, Ha-jung;Park, Jin-bong
    • Korean Journal of Veterinary Research
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    • v.34 no.4
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    • pp.821-831
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    • 1994
  • Phenytoin(PHT), a commonly prescribed anticonvulsant, has been known as a teratogen in experimental animals and human. However, PHT has strain-specific teratogenic effects for mice and human. Dimethyl sulfoxids(DMSO) has been known to antagonize the teratogenic effects of secalonic acid D, a toxic mold metabolite that has similar teratogenic effects to PHT. Therefore, this study was performed to examine the embryopathic effects of PHT in terms of treatment period and the antiteratogenic effect of DMSO in ICR mice. PHT(75mg/kg, BW) was administered intrapetitoneally on day 10, 10-11 and 10-12 of gestation with or without DMSO(2ml/kg, BW), and the fetal malformation was observed on day 18. Major malformation of fetuses treated with PHT on day 10, 10-11 and 10-12 of gestation was cleft palate, and the percentages of fetus with cleft palate were 14.5%, 31.7% and 51.7%, respectively. Also, there was a significant decrease of cleft palate from 51.7% in PHT alone group to 30.8% in PHT plus DMSO group. Our findings suggest that cleft palate is one of major malformation by PHT treatment in ICR mouse and DMSO has strong antiteratogenic effect.

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