<div>Abstract<p>Because the p300/CBP-mediated hyperacetylation of RelA (p65) is critical for nuclear factor-κB (NF-κB) activation, the attenuation of p65 acetylation is a potential molecular target for the prevention of chronic inflammation. During our ongoing screening study to identify natural compounds with histone acetyltransferase inhibitor (HATi) activity, we identified epigallocatechin-3-gallate (EGCG) as a novel HATi with global specificity for the majority of HAT enzymes but with no activity toward epigenetic enzymes including HDAC, SIRT1, and HMTase. At a dose of 100 μmol/L, EGCG abrogates p300-induced p65 acetylation <i>in vitro</i> and <i>in vivo</i>, increases the level of cytosolic IκBα, and suppresses tumor necrosis factor α (TNFα)–induced NF-κB activation. We also showed that EGCG prevents TNFα-induced p65 translocation to the nucleus, confirming that hyperacetylation is critical for NF-κB translocation as well as activity. Furthermore, EGCG treatment inhibited the acetylation of p65 and the expression of NF-κB target genes in response to diverse stimuli. Finally, EGCG reduced the binding of p300 to the promoter region of <i>interleukin-6</i> gene with an increased recruitment of HDAC3, which highlights the importance of the balance between HATs and histone deacetylases in the NF-κB–mediated inflammatory signaling pathway. Importantly, EGCG at 50 μmol/L dose completely blocks EBV infection-induced cytokine expression and subsequently the EBV-induced B lymphocyte transformation. These results show the crucial role of acetylation in the development of inflammatory-related diseases. [Cancer Res 2009;69(2):583–92]</p></div>
Integrated sensors based on zinc oxide thin-film sensor technology have been fabricated in a 2- mu m n-well CMOS process. Diagnostic surface-microsensor structures for detecting temperature change (such as that due to infrared radiation) and force (such as that due to acceleration) have been integrated with on-chip analog CMOS signal processing electronics. These structures are formed of thin films of pyroelectric and piezoelectric zinc oxide deposited on phosphorus-doped polysilicon membranes supported 1.2 mu m above the silicon substrate. The ability to fabricate these surface microstructures in a planar process through a combination of wet chemical etching of a sacrificial oxide spacer and dry etching of a polysilicon support membrane may represent a significant improvement in ease of fabrication, yield, and reliability over previous sensor fabrication techniques based on anisotropic etching of silicon. The ability to fabricate these microsensors in a CMOS process may lead to direct integration of ZnO-based microsensors with standard analog and digital building blocks.< >
<div>Abstract<p>Although multiple studies have revealed that gallic acid plays an important role in the inhibition of malignant transformation, cancer development, and inflammation, the molecular mechanism of gallic acid in inflammatory diseases is still unclear. In this study, we identified gallic acid from <i>Rosa rugosa</i> as a histone acetyltransferase (HAT) inhibitor with global specificity for the majority of HAT enzymes, but with no activity toward epigenetic enzymes including sirtuin (silent mating type information regulation 2 homologue) 1 (<i>S. cerevisiae</i>), histone deacetylase, and histone methyltransferase. Enzyme kinetic studies indicated that gallic acid uncompetitively inhibits p300/CBP-dependent HAT activities. We found that gallic acid inhibits p300-induced p65 acetylation, both <i>in vitro</i> and <i>in vivo</i>, increases the level of cytosolic IκBα, prevents lipopolysaccharide (LPS)-induced p65 translocation to the nucleus, and suppresses LPS-induced nuclear factor-κB activation in A549 lung cancer cells. We have also shown that gallic acid treatment inhibits the acetylation of p65 and the LPS-induced serum levels of interleukin-6 <i>in vivo</i>. Importantly, gallic acid generally inhibited inflammatory responses caused by other stimuli, including LPS, IFN-γ, and interleukin-1β, and further downregulated the expression of nuclear factor-κB–regulated antiapoptotic genes. These results show the crucial role of acetylation in the development of inflammatory diseases. (Mol Cancer Res 2009;7(12):2011–21)</p></div>
Diagnose und Behandlung in einem: Multifunktionelle magnetisch-polymere Nanohybride (MMPNs) für die spezifische MRI-Detektion und Behandlung von Brustkrebs wurden aus hoch empfindlichen MnFe2O4-Nanokristallen, chemotherapeutischen Wirkstoffen und amphiphilen Blockcopolymer-Kapseln hergestellt. Gezeigt sind das TEM-Bild (links) eines MMPN sowie T2-gewichtete MR-Bilder (obere Reihe) und die Farbkarte (untere Reihe) der Relaxivität R2 für NIH3T6.7- und MDA-MB-231-Zellen.
본 연구에서는 유자가 선천성 면역력에 미치는 효과를 알아보기 위하여 유자 30% 주정추출물(CJE)을 사용하였으며 선천성 면역에 중요한 역할을 하는 대식세포를 이용해 실험하였다. CJE는 마우스 대식세포인 RAW264.7에서 1,000 μg/mL의 최고 농도까지 세포독성을 보이지 않았고, 전사인자 NF-κB와 염증성 매개물질인 COX-2, PGE2의 활성 및 발현 증강에 영향을 미치며, 특히 300 μg/mL의 농도에서부터 유의적 차이를 보이는 것으로 확인되었다. 산화질소 생성능과 대식세포에서 분비되는 사이토카인인 TNF-α, IL-1β의 발현을 대조군에 비해 농도 의존적으로 증가시킨다는 결과를 얻었으나, IL-6에서는 통계적으로 약간의 유의성이 있는 증가를 보였고 IL-10은 정상대조군에 비해 거의 유의적인 차이를 보이지 않았다. CJE는 또한 NK 세포의 활성을 농도의존적으로 증가시키고 비장세포의 증식능도 농도 의존적으로 증가시킨다는 것을 확인하였다. 이러한 결과로 미루어보아 CJE는 인체의 대식세포 활성의 증가를 통해 선천성 면역력을 증가시킬 것으로 판단된다.
The purpose of this study was to determine the effect of isothiocyanates (ITCs) in delaying the progression of the murine immunodeficiency virus to murine AIDS, resulting in increased life span. Furthermore, we investigated the role of ITCs in modulating immune dysfunction caused by LP-BM5 retrovirus infection. Among the tested ITCs, oral administration of sulforaphane (SUL), benzyl isothiocyante (BITC), and phenethyl isothiocyanate (PEITC) showed the inhibition of premature death caused by LP-BM5 retrovirus infection, while indolo[3,2-b] carbazole (ICZ) and indole-3-carbinol (I3C) did not delay the progress of the LP-BM5 retrovirus to murine AIDS. Inhibition of premature death by BITC, PEITC, and SUL could be explained by restoration of the immune system and down regulation of free radicals. Dysfunction of T and B cell mitogenesis caused by retrovirus infection in primary cultured splenocytes has been partially recovered with administration of BITC, PEITC, and SUL. There was a shift from imbalanced cytokine production (increased Th2 and decreased Th1 cell cytokine production) into balanced Th1/Th2 cell secretion of cytokines under administration of these ITCs during the development of murine AIDS. Hepatic vitamin E level was significantly restored by administration of these ITCs, in accordance with reduced hepatic lipid peroxidation levels. This study suggests that certain types of ITCs have beneficial effects in preventing premature death during progression to murine AIDS by restoration of immune dysfunction and removal of excessive free radicals, implying that selective usage of ITCs would be helpful in retarding the progression from HIV infection to AIDS.
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