http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
김해송,이주현,김해니,박호원,Haesong Kim,Juhyun Lee,Haeni Kim,Howon Park Korean Academy of Pediatric Dentistry 2023 大韓小兒齒科學會誌 Vol.50 No.1
This study compared the surface roughness and microbial adhesion characteristics of Omnichroma, a novel composite resin developed using "smart chromatic technology", with those of two other conventional composite resins with different filler compositions. A total of 144 specimens were fabricated using 3 types of composite resins: Omnichroma (nano-spherical), Filtek Z350XT (nanofill), and Tetric N-Ceram (nanohybrid) and, divided into 3 groups of 48. Finishing was performed using tungsten carbide burs. Specimens were then divided into 3 subgroups using different polishing methods: Control, SofLex, and PoGo. Surface roughness was analyzed quantitatively and qualitatively using an atomic force microscope and a scanning electron microscope. Microbial adhesion was assessed by culturing Streptococcus mutans on the specimens for 24 hours and then measuring colony-forming units attached to the upper surface. The surface roughness (Ra) of Omnichroma was 0.123 ㎛ after finishing, and it exhibited a smooth surface compared to the other resins. However, after polishing, there were no significant differences in the surface roughness between the three composite groups, regardless of the polishing methods. The surfaces of the Control subgroups were significantly rougher than those of the SofLex subgroups in all 3 composite groups. However, except for Tetric N-Ceram, there were no significant differences between the Control and PoGo subgroups in the other composite groups. Microbial adhesion assessment showed no significant differences between any of the 3 composite resin subgroups; however, Omnichroma exhibited higher microbial adhesion than the other two composites. No significant correlation was observed between surface roughness and microbial adhesion.
Kim, Somi,Cho, Chang Yun,Lee, Doohyung,Song, Dae-Geun,Kim, Hye-Jin,Jung, Jae Woo,Kim, Ji Eon,Park, Dasomi,Lee, Haesong,Um, Hyejin,Park, Jinsoo,Choi, Yoonjeong,Kim, Yoomin,Nam, Seo Hee,Lee, Jung Weon Elsevier 2018 Cancer letters Vol.438 No.-
<P><B>Abstract</B></P> <P>CD133 is a surface marker of liver cancer stem cells. Transmembrane 4 L six family member 5 (TM4SF5) promotes sphere growth and circulation. However, it is unknown how CD133 and TM4SF5 cross-talk with each other for cancer stem cell properties. Here, we investigated the significance of inter-relationships between CD133, TM4SF5, CD44, and protein tyrosine phosphatase receptor type F (PTPRF) in a three-dimensional (3D) sphere growth system. We found that CD133 upregulated TM4SF5 and CD44, whereas TM4SF5 and CD44 did not affect CD133 expression. Signaling activity following CD133 phosphorylation caused TM4SF5 expression and sphere growth. TM4SF5 bound to CD133 and promoted c-Src activity for CD133 phosphorylation as a positive feedback loop, leading to CD133-mediated sphere growth that was inhibited by TM4SF5 inhibition or suppression. TM4SF5 also bound PTPRF and promoted paxillin phosphorylation. Decreased sphere growth upon CD133 suppression was recovered by TM4SF5 expression and partially by PTPRF suppression. TM4SF5 inhibition enhanced PTPRF levels and abolished PTPRF suppression-mediated sphere growth. Altogether, CD133-induced TM4SF5 expression and function were important for liver cancer sphere growth and may be a promising target to block metastasis.</P> <P><B>Highlights</B></P> <P> <UL> <LI> The role of TM4SF5 and CD133 cross-talk in the CSC properties of HCC is unknown. </LI> <LI> CD133-induced c-Src, Akt, and β-catenin signaling mediates TM4SF5 induction. </LI> <LI> TM4SF5 drives CD133 phosphorylation via a bidirectional positive feedback loop. </LI> <LI> TM4SF5 binds PTPRF to regulate cellular signaling for anchorage-independent growth. </LI> <LI> CD133/TM4SF5/PTPRF and CD44 are potential biomarkers for HCC metastasis. </LI> </UL> </P>