璧勮涓績 > 浜у搧鏂囩尞闆?> Herbal Medicine (26)

  鉁旀湰綃囪鏂囦嬌鐢ㄥ崕鑱斾駭鍝侊細Human OneArray  
 Pharmacological Research. 2007, 56(6):474-82. doi:10.1016/j.phrs.2007.09.009.
 Microarray analysis of vanillin-regulated gene expression profile in human hepatocarcinoma cells.  
 Cheng Wy, Hsiang Cy, Bau Dt, Chen Jc, Shen Ws, Li Cc, Lo Hy, Wu Sl, Chiang Sy, Tin-yun Ho
  Abstract
Vanillin is one of the most widely used flavor compounds in food and personal products. It has been reported that vanillin is able to inhibit mutagenesis induced by chemical and physical mutagens, and to suppress the invasion and migration of cancer cells. Herein we used the oligonucleotide microarray approach to study gene expression profile of vanillin-treated human hepatocarcinoma cells. Microarray data followed by gene ontology (GO) investigation displayed that vanillin-affected clusters of genes involved in cell cycle and apoptosis. Genes down-regulated by vanillin were grouped into three GO categories, regulation of cellular process, cell cycle, and death. Furthermore, most of the down-regulated genes were associated with cancer progression. Knowledge-based analysis further indicated that Fos may play a central role in the regulation of gene expression network. Analysis of Fos-related transcription factor, activator protein 1 (AP-1), showed that vanillin inhibited AP-1 activity in a dose-dependent manner. Furthermore, the phosphorylation of extracellular signal-regulated protein kinase (ERK) was diminished with increasing concentrations of vanillin, indicating that vanillin-regulated AP-1 activity via ERK pathway. In conclusion, our data suggested that vanillin exhibited the anticancer potential by the regulations of cell cycle and apoptosis. Moreover, its regulation may involve the suppression of a central molecule, AP-1.
   

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  鉁旀湰綃囪鏂囦嬌鐢ㄥ崕鑱斾駭鍝侊細Human OneArray  
 Phytomedicine. 2015, 22(7-8):768-77. doi: 10.1016/j.phymed.2015.05.053.
 Glycyrrhizin, silymarin, and ursodeoxycholic acid regulate a common hepatoprotective pathway in HepG2 cells
 
 
 Chien-yun Hsiang, Li-jenlin, Shung-te Kao, Hsin-yi Lo, Shun-ting Chou, Tin-yunho
  Abstract
BACKGROUND: Glycyrrhizin, silymarin, and ursodeoxycholic acid are widely used hepatoprotectants for the treatment of liver disorders, such as hepatitis C virus infection, primary biliary cirrhosis, and hepatocellular carcinoma. PURPOSE: The gene expression profiles of HepG2 cells responsive to glycyrrhizin, silymarin, and ursodeoxycholic acid were analyzed in this study. METHODS: HepG2 cells were treated with 25 µM hepatoprotectants for 24 h. Gene expression profiles of hepatoprotectants-treated cells were analyzed by oligonucleotide microarray in triplicates. Nuclear factor-魏B (NF-魏B) activities were assessed by luciferase assay. RESULTS: Among a total of 30,968 genes, 252 genes were commonly regulated by glycyrrhizin, silymarin, and ursodeoxycholic acid. These compounds affected the expression of genes relevant various biological pathways, such as neurotransmission, and glucose and lipid metabolism. Genes involved in hepatocarcinogenesis, apoptosis, and anti-oxidative pathways were differentially regulated by all compounds. Moreover, interaction networks showed that NF-魏B might play a central role in the regulation of gene expression. Further analysis revealed that these hepatoprotectants inhibited NF-魏B activities in a dose-dependent manner. CONCLUSION: Our data suggested that glycyrrhizin, silymarin, and ursodeoxycholic acid regulated the expression of genes relevant to apoptosis and oxidative stress in HepG2 cells. Moreover, the regulation by these hepatoprotectants might be relevant to the suppression of NF-魏B activities.
   

  鉁旀湰綃囪鏂囦嬌鐢ㄥ崕鑱斾駭鍝侊細Human OneArray  
 Evidence-based Complementary And Alternative Medicine. 2015:425760. doi: 10.1155/2015/425760.
 Molecular Signatures in the Prevention of Radiation Damage by the Synergistic Effect of N-Acetyl Cysteine and Qingre Liyan Decoction, a Traditional Chinese Medicine, Using a 3-Dimensional Cell Culture Model of Oral Mucositis
 
 
 Lavanya Kondapalli, Cyrus Parsa, Hari Chandana Mulamalla, Robert Orlando, Doreen Pon, Ying Huang, Moses S. S. Chow, Maria P. Lambros
  Abstract
Qingre Liyan decoction (QYD), a Traditional Chinese medicine, and N-acetyl cysteine (NAC) have been used to prevent radiation induced mucositis. This work evaluates the protective mechanisms of QYD, NAC, and their combination (NAC-QYD) at the cellular and transcriptional level. A validated organotypic model of oral mucosal consisting of a three-dimensional (3D) cell tissue-culture of primary human keratinocytes exposed to X-ray irradiation was used. Six hours after the irradiation, the tissues were evaluated by hematoxylin and eosin (H and E) and a TUNEL assay to assess histopathology and apoptosis, respectively. Total RNA was extracted and used for microarray gene expression profiling. The tissue-cultures treated with NAC-QYD preserved their integrity and showed no apoptosis. Microarray results revealed that the NAC-QYD caused the upregulation of genes encoding metallothioneins, HMOX1, and other components of the Nrf2 pathway, which protects against oxidative stress. DNA repair genes (XCP, GADD45G, RAD9, and XRCC1), protective genes (EGFR and PPARD), and genes of the NF魏B pathway were upregulated. Finally, tissue-cultures treated prophylactically with NAC-QYD showed significant downregulation of apoptosis, cytokines and chemokines genes, and constrained damage-associated molecular patterns (DAMPs). NAC-QYD treatment involves the protective effect of Nrf2, NF魏B, and DNA repair factors.
   

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  鉁旀湰綃囪鏂囦嬌鐢ㄥ崕鑱斾駭鍝侊細Human OneArray  
 Bmc Cancer. DOI 10.1186/s12885-015-1671-5.
 Upregulation of MicroRNA-19b predicts good prognosis in patients with hepatocellular carcinoma presenting with vascular invasion or multifocal disease
 
 
 
  Abstract
Background After surgical resection of hepatocellular carcinoma (HCC), recurrence is common, especially in patients presenting with vascular invasion or multifocal disease after curative surgery. Consequently, we examined the expression pattern and prognostic value of miR-19b in samples from these patients. Methods We performed a miRNA microarray to detect differential expression of microRNAs (miRNAs) in 5 paired samples of HCC and non-tumoral adjacent liver tissue and a quantitative real-time polymerase chain reaction (PCR) analysis to validate the results in 81 paired samples of HCC and adjacent non-tumoral liver tissues. We examined the associations of miR-19b expression with clinicopathological parameters and survival. MiR-19b was knocked down in Hep3B and an mRNA microarray was performed to detect the affected genes. Results In both the miRNA microarray and real-time PCR, miR-19b was significantly overexpressed in the HCC tumor compared with adjacent non-tumor liver tissues (P < 0.001). The expression of miR-19b was significantly higher in patients who were disease-free 2 years after surgery (P < 0.001). High miR-19b expression levels were associated with higher 偽-fetoprotein levels (P = 0.017). In the log-rank test, high miR-19b was associated with better disease-free survival (median survival 37.107 vs. 11.357; P = 0.022). In Cox multivariate analysis, high miR-19b predicted better disease-free survival and overall survival (hazards ratio [HR] = 0.453, 95 % confidence interval [CI] = 0.245鈥?.845, P = 0.013; HR = 0.318, CI = 0.120鈥?.846, P = 0.022, respectively). N-myc downstream regulated 1 (NDRG1) was downregulated, while epithelial cell adhesion molecule (EPCAM), hypoxia-inducible factor 1-alpha (HIF1A), high-mobility group protein B2 (HMGB2), and mitogen activated protein kinase 14 (MAPK14) were upregulated when miR-19b was knocked down in Hep3B. Conclusions The overexpression of miR-19b was significantly correlated with better disease-free and overall survival in patients with HCC presenting with vascular invasion or multifocal disease after curative surgery. MiR-19b may influence the expression of NDRG1, EPCAM, HMGB2, HIF1A, and MAPK14.
   

  鉁旀湰綃囪鏂囦嬌鐢ㄥ崕鑱斾駭鍝侊細Human OneArray  
 Amino Acids. doi: 10.1007/s00726-015-1956-7. Epub 2015 Mar 24..
 Homocysteine thiolactone and N-homocysteinylated protein induce pro-atherogenic changes in gene expression in human vascular endothelial cells
 
 
 
  Abstract
Genetic or nutritional deficiencies in homocysteine (Hcy) metabolism lead to hyperhomocysteinemia (HHcy) and cause endothelial dysfunction, a hallmark of atherosclerosis. In addition to Hcy, related metabolites accumulate in HHcy but their role in endothelial dysfunction is unknown. Here, we examine how Hcy-thiolactone, N-Hcy-protein, and Hcy affect gene expression and molecular pathways in human umbilical vein endothelial cells. We used microarray technology, real-time quantitative polymerase chain reaction, and bioinformatic analysis with PANTHER, DAVID, and Ingenuity Pathway Analysis (IPA) resources. We identified 47, 113, and 30 mRNAs regulated by N-Hcy-protein, Hcy-thiolactone, and Hcy, respectively, and found that each metabolite induced a unique pattern of gene expression. Top molecular pathways affected by Hcy-thiolactone were chromatin organization, one-carbon metabolism, and lipid-related processes [−log(P value) = 20鈥?1]. Top pathways affected by N-Hcy-protein and Hcy were blood coagulation, sulfur amino acid metabolism, and lipid metabolism [−log(P value)] = 4鈥?1; also affected by Hcy-thiolactone, [−log(P value) = 8鈥?4]. Top disease related to Hcy-thiolactone, N-Hcy-protein, and Hcy was 鈥榓therosclerosis, coronary heart disease鈥?[−log(P value) = 9鈥?6]. Top-scored biological networks affected by Hcy-thiolactone (score = 34鈥?0) were cardiovascular disease and function; those affected by N-Hcy-protein (score = 24鈥?5) were 鈥榮mall molecule biochemistry, neurological disease,鈥?and 鈥榗ardiovascular system development and function鈥? and those affected by Hcy (score = 25鈥?7) were 鈥榓mino acid metabolism, lipid metabolism,鈥?鈥榗ellular movement, and cardiovascular and nervous system development and function.鈥?These results indicate that each Hcy metabolite uniquely modulates gene expression in pathways important for vascular homeostasis and identify new genes and pathways that are linked to HHcy-induced endothelial dysfunction and vascular disease.
   

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