[
J Photochem Photobiol B,
2021]
Tripterygium wilfordii Hook. f. is a traditional medicinal plant and has long been used in East Asia to treat many diseases. However, the extract and active components have never been investigated as potential photosensitizers for photodynamic treatment to kill pathogenic microorganisms. Here, the antimicrobial photodynamic treatment (APDT) effects of the extract, fractions, and compounds of T. wilfordii were evaluated in vitro and in vivo. Ethanolic extract (TWE) and the photosensitizer-enriched fraction (TW-F5) were prepared from dried T. wilfordii. Six active compounds were isolated from TW-F5 by semipreparative high-performance liquid chromatography, and their chemical structures were characterized through spectroscopic and spectrometric analysis. The singlet oxygen from extracts, fractions, and compounds was measured by using the imidazole-N,N-dimethyl-4-nitrosoaniline method. These extracts, fractions, and compounds were used as photosensitizers for the inactivation of bacteria and fungi by red light at 660nm. The in vitro APDT effects were also evaluated in the model animal Caenorhabditis elegans. APDT with TWE showed effective antimicrobial activity against Staphylococcus aureus, methicillin-resistant Staphylococcus aureus (MRSA), and Candida albicans. TW-F5, consisting of six pheophorbide compounds, also showed strong APDT activity. The photosensitizers were taken up into the bacterial cells and induced intracellular ROS production by APDT. TWE and TW-F5 also induced a strong APDT effect in vitro against skin pathogens, including Staphylococcus epidermidis and Streptococcus pyogenes. We evaluated the APDT effects of TWE and TW-F5 in C. elegans infected with various pathogens and found that PDT effectively controlled pathogenic bacteria without strong side effects. APDT reversed the growth retardation of worms induced by pathogen infection and decreased the viable pathogenic bacterial numbers associated with C. elegans. Finally, APDT with TWE increased the survivability of C. elegans infected with S. pyogenes. In summary, TWE and TW-F5 were found to be effective antimicrobial photosensitizers in PDT.
Matz M, Ermakova G, Siebert P, Kim SK, Lukyanov S, Kajava AV, Weissman I, Zaraisky A, Terskikh A, Tan PBO, Fradkov A, Zhao X
[
Science,
2000]
We generated a mutant of the red fluorescent protein drFP583. The mutant (E5) changes its fluorescence from green to red over time. The rate of color conversion is independent of protein concentration and therefore can be used to trace time-dependent expression. We used in vivo labeling with E5 to measure expression from the heat shock-dependent promoter in Caenorhabditis elegans and from the Otx-2 promoter in developing Xenopus embryos. Thus, E5 is a "fluorescent timer" that can be used to monitor both activation and down-regulation of target promoters on the whole-organism scale.AD - School of Medicine, Stanford University, Stanford, CA 94305, USA. Alexey.Terskikh@Stanford.eduFAU - Terskikh, AAU - Terskikh AFAU - Fradkov, AAU - Fradkov AFAU - Ermakova, GAU - Ermakova GFAU - Zaraisky, AAU - Zaraisky AFAU - Tan, PAU - Tan PFAU - Kajava, A VAU - Kajava AVFAU - Zhao, XAU - Zhao XFAU - Lukyanov, SAU - Lukyanov SFAU - Matz, MAU - Matz MFAU - Kim, SAU - Kim SFAU - Weissman, IAU - Weissman IFAU - Siebert, PAU - Siebert PLA - engID - 1 RO3 TW01362-01/TW/FICPT - Journal ArticleCY - UNITED STATESTA - ScienceJID - 0404511RN - 0 (Heat-Shock Proteins)RN - 0 (Luminescent Proteins)RN - 0 (Nerve Tissue Proteins)RN - 0 (Otx2 protein)RN - 0 (Trans-Activators)RN - 0 (red fluorescent protein)SB - IM