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155. Triptolide induces p53-dependent cardiotoxicity through mitochondrial membrane permeabilization in cardiomyocytes.

Author

Xi, Yue, Wang, Wenwen, Wang, Li, Pan, Ji, Cheng, Yisen, Shen, Feihai, and Huang, Zhiying

Subjects
*TRIPTOLIDE, *CARDIOTOXICITY, *MITOCHONDRIAL membranes, *MEMBRANE permeability (Biology), *HEART cells
Abstract

Triptolide (TP), a major active component of Tripterygium wilfordii Hook f. , is widely used in the treatment of inflammation and autoimmune disorders. Its clinical application is limited by severe adverse effects, especially cardiotoxicity. Accumulative evidences indicate that TP induces DNA damage by inhibiting RNA polymerase. Considering the relationship among DNA damage, p53, and the role of p53 in mitochondria-dependent apoptosis, we speculate that TP-induced cardiotoxicity results from p53 activation. In this study, the role of p53 in TP-induced cardiotoxicity was investigated in H9c2 cells, primary cardiomyocytes, and C57BL/6 genetic background p53 −/− mice. p53 protein level was elevated by TP in vitro and in acute heart injury models. With TP administration (1.2 mg/kg), p53 deficiency prevented heart histology injury and decreased serum cardiac troponin I (cTn-I) and apoptotic proteins. Mechanistically, immunoblotting and immunofluorescence staining identified that TP-induced toxicity is dependent on p53 nuclear translocation and transactivation of Bcl2 family genes, leading to mitochondrial outer membrane permeabilization (MOMP) and mitochondria dysfunction. Consistently, p53 antagonist PFTα counteracted TP-induced p53 overexpression and regulation of Bcl2 family transcription, which improved mitochondrial membrane integrity and prevented apoptosis. Moreover, Bax antagonist Bax inhibitor peptide (BIP) V5 ameliorated TP-induced apoptosis through suppressing membrane depolarization and ROS accumulation. These results suggest that TP-induced cardiotoxicity is p53-dependent by promoting Bax-induced mitochondria-mediated apoptosis. [ABSTRACT FROM AUTHOR]

Published
2018
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158. MitoQ alleviates triptolide-induced cardiotoxicity via activation of p62/Nrf2 axis in H9c2 cells.

Author

Tan, Guoyao, Qin, Zhiyan, Jiang, Shiqin, Zhang, Lei, Zhang, Gengyi, Huang, Min, Huang, Zhiying, and Jin, Jing

Subjects
*CARDIOTOXICITY, *CHINESE medicine, *OXIDATIVE stress, *CELLULAR signal transduction, *NUCLEAR factor E2 related factor
Abstract

Triptolide (TP) is one of the major components of Tripterygium wilfordii , which is a traditional Chinese medicine widely used in the treatment of various autoimmune and inflammatory diseases. However, the cardiotoxicity induced by TP greatly limits its widespread clinical application. In view of the role of ROS-mediated oxidative stress in TP-induced cardiotoxicity, mitoQ, a mitochondria-targeted ROS scavenger, was used in this study to investigate its protective effect against TP-induced cardiomyocyte toxicity and its possible underlying mechanism. Here we demonstrated that mitoQ could significantly attenuate TP-induced cardiotoxicity in cardiomyocyte H9c2 cells, with a remarkable improvement in cell viability and reduction in ROS levels. P62-Nrf2 signaling pathway has been reported to play a critical role in regulating oxidative stress and protecting cells from harmful stimuli. In this study, we found that mitoQ significantly activated p62-Nrf2 signaling pathway in H9c2 cells with or without TP treatment. Moreover, knockdown of p62 or Nrf2 could block the protective effect of mitoQ against TP in H9c2 cells. Taken together, our study demonstrates that mitoQ can alleviate TP-induced cardiotoxicity via the activation of p62-Nrf2 signaling pathway, which provides new potential strategies to combat TP-induced cardiomyocyte toxicity. • MitoQ alleviated triptolide-induced toxicity in cardiomyocyte H9c2 cells. • MitoQ reduced ROS accumulation induced by triptolide in H9c2 cells. • MitoQ activated p62-Nrf2 axis in H9c2 cells. • Knockdown of p62 or Nrf2 blocked the protective effects of mitoQ. [ABSTRACT FROM AUTHOR]

Published
2023
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159. Activation of SIRT3 attenuates triptolide-induced toxicity through closing mitochondrial permeability transition pore in cardiomyocytes.

Author

Yang, Yanqin, Wang, Wenwen, Xiong, Zhewen, Kong, Jiamin, Qiu, Yuwen, Shen, Feihai, and Huang, Zhiying

Subjects
*CARDIOTOXICITY, *TRIPTOLIDE, *MITOCHONDRIAL pathology, *APOPTOSIS, *OXIDATIVE stress, *SIRTUINS
Abstract

Triptolide (TP), an active component of the traditional Chinese herb Tripterygium wilfordii Hook f. (TWHF), has multiple pharmacological effects. However, the severe toxicity of TP greatly restricts its clinical applications. Although TP exposure causes serious heart injury, the mechanism underlying TP-induced cardiotoxicity has rarely been investigated. In previous studies, we found that TP-induced oxidative stress was involved in the mitochondria-dependent apoptosis of cardiomyocytes. Opening of the mitochondrial permeability transition pore (mPTP) is the key to the mitochondrial dysfunction in cardiac toxicity. The aim of this study was to investigate the potential cardioprotective effects of sirtuin 3 (SIRT3) on the mPTP. In the present study, the cytotoxicity of TP was accompanied by the up-regulation of the SIRT3 protein level and its rapid aggregation in nuclei and mitochondria. The SIRT3-FOXO3 signaling pathway was activated simultaneously, resulting in increased transcription of manganese superoxide dismutase (MnSOD) and catalase (CAT) for the elimination of reactive oxygen species (ROS). In addition, augmentation of the SIRT3 level via the overexpression plasmid SIRT3-Flag provided resistance to TP-induced cellular damage, whereas knocking down the SIRT3 level via siRNA accelerated the damage. Because it is an activator of SIRT3, the protective effect of resveratrol was also evaluated in H9c2 cells. In conclusion, the current results suggest that activation of SIRT3 substantially ameliorates the detrimental effects of TP by closing the mPTP. [ABSTRACT FROM AUTHOR]

Published
2016
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160. Microstructure and microhardness of hot extruded 7075 aluminum alloy micro-gear.

Author

Dong, Xuehua, Chen, Fei, Chen, Shan, Liu, Yang, Huang, Zhiying, Chen, Hui, Feng, Shanfei, Zhao, Lei, Wu, Zhilin, and Zhang, Xinping

Subjects
*MICROSTRUCTURE, *MICROHARDNESS, *ALUMINUM alloys, *GEARING machinery, *FINITE element method, *METAL extrusion
Abstract

Micro-gear is an important actuating component used widely in micro-electromechanical-systems. It is important to develop microforming techniques for micro-gears manufactured from high-strength commercial alloys. In this work, micro-gear extrusion of the high-strength commercial 7075 aluminum alloy (yield stress > 460 MPa) was successfully performed. The effects of extrusion temperature, extrusion velocity, and lubrication conditions on the formability, microstructure, and micro-hardness of the 7075 aluminum alloy were studied. The experimental extrusion load was larger than that predicted by finite element (FE) analysis, because of the temperature drop and friction conditions. Better lubrication and elevated temperatures caused a marked decline in the extrusion pressure, and improved the gear surface quality. The microstructural differences depended on the location within the sample as well as extrusion conditions. Higher microhardness was observed at a lower extrusion temperature or in the central region or under lubrication extrusion, which can be explained by the differences of microstructure, dislocation density, strains distribution, and second-phase particles in these specimens. The microhardness distribution in the gears was contrary to that in micropart extruded at room temperature. [ABSTRACT FROM AUTHOR]

Published
2015
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161. Role of Nrf2 activation and NF-κB inhibition in valproic acid induced hepatotoxicity and in diammonium glycyrrhizinate induced protection in mice.

Author

Jin, Jing, Xiong, Tianqin, Hou, Xiangyu, Sun, Xiaozhe, Liao, Jiayi, Huang, Zhiying, Huang, Min, and Zhao, Zhongxiang

Subjects
*CHINESE medicine, *GENETIC regulation, *ANTIOXIDANTS, *HEPATOTOXICOLOGY, *VALPROIC acid, *DRUG administration, *LABORATORY mice
Abstract

Diammonium glycyrrhizinate (DG), an active compound extracted and purified from liquorices root, has been reported to exhibit antioxidant and anti-inflammatory properties. The aim of this study was to investigate the effect and underlying mechanisms of DG on the hepatotoxicity induced by valproic acid (VPA). DG at the dose of 60 mg/kg was orally administered with VPA (100 mg/kg) to mice once daily for 14 consecutive days. DG treatment attenuated VPA-induced liver dysfunction, structural damage, glutathione depletion and decrease in antioxidant enzymes in BALB/C mice. DG prevented VPA-induced depletion of cytosolic nuclear factor E2-related factor 2 (Nrf2) and suppression of nuclear translocation of Nrf2, which, in turn, up-regulated phase II/antioxidant enzyme activities. The effects of VPA and DG on Nrf2 expression in HepG2 cells were in consistent with that of mice. Furthermore, an increase in the nuclear levels of nuclear factor-kappaB (NF-κB) was observed in the livers of VPA-treated mice that coincided with induction of inflammatory cytokines. In contrast, DG inhibited NF-κB translocation and that subsequently decreased inflammatory cytokines. Taken together, these results demonstrate that DG attenuates VPA-induced liver injury through increasing the expression of Nrf2 mediated phase II/antioxidant enzymes and simultaneously decreasing the expression of inflammatory mediators. [ABSTRACT FROM AUTHOR]

Published
2014
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162. Role of Nrf2 in protection against triptolide-induced toxicity in rat kidney cells

Author

Li, Jia, Jin, Jing, Li, Mei, Guan, Cuiwen, Wang, Wenwen, Zhu, Shaohua, Qiu, Yuwen, Huang, Min, and Huang, Zhiying

Subjects
*OXIDATIVE stress, *TRIPTOLIDE, *LABORATORY rats, *REACTIVE oxygen species, *GLUTATHIONE, *ANTIOXIDANTS, *TRANSCRIPTION factors, *CELL lines
Abstract

Abstract: Triptolide is a major active ingredient of the Chinese herb Tripterygium wilfordii Hook f. (TWHF) and has been shown to possess multiple biological activities, such as anti-inflammatory, anti-fertility, anti-neoplastic and immunosuppressive activities. However, severe adverse effects, especially nephrotoxicity, limit its clinical use. Oxidative stress has been reported to be involved in triptolide-induced renal injury, but the existence of other mechanisms remains unclear. This study aimed to investigate whether NF-E2-related factor 2 (Nrf2), which is an antioxidant nuclear transcription factor, plays a protective role in defense against triptolide-induced toxicity in a normal rat kidney cell line (NRK-52E). Triptolide induced oxidative stress in NRK-52E cells by induction of reactive oxygen species (ROS) and depletion of glutathione (GSH), which resulted in a rapid increase in Nrf2 nuclear accumulation, as well as an induction of antioxidant response element (ARE)-driven genes. In addition, overexpression of Nrf2 protected against triptolide-induced cell death, whereas knockdown of Nrf2 by its specific small interfering RNA resulted in increased cytotoxicity. We also found that Nrf2 knockdown enhanced both the production of ROS and the depletion of GSH. Taken together, these results indicate that activation of Nrf2 plays a protective role against triptolide-induced cytotoxicity in NRK-52E cells through the counteraction of oxidative stress. [Copyright &y& Elsevier]

Published
2012
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163. The endoplasmic reticulum stress response is involved in apoptosis induced by aloe-emodin in HK-2 cells

Author

Zhu, Shaohua, Jin, Jing, Wang, Yan, Ouyang, Zizhang, Xi, Chen, Li, Jia, Qiu, Yuwen, Wan, Jinzhi, Huang, Min, and Huang, Zhiying

Subjects
*ENDOPLASMIC reticulum, *APOPTOSIS, *ANTHRAQUINONES, *NEPHROTOXICOLOGY, *EPITHELIUM, *LABORATORY rats, *CYTOCHEMICAL bioassay, *CELL lines, *TRANSMISSION electron microscopy, *NF-kappa B
Abstract

Abstract: Aloe-emodin (AE; 1,8-dihydroxy-3-hydroxymethyl-9,10-anthracenedione) is one of the primary active compounds in total rhubarb anthraquinones (TRAs), which induce nephrotoxicity in rats. However, it is still not known whether AE has a similar effect on human kidney cells. In this study, 3-(4,5,-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assays showed that AE decreases the viability of HK-2 cells (a human proximal tubular epithelial cell line) in a dose- and time-dependent manner. AE induced G2/M arrest of cell cycle in HK-2 cells, which was detected with propidium iodide (PI) staining. This apoptosis was further investigated by Hoechst staining, transmission electron microscopy (TEM), DNA fragmentation, and Annexin V/PI staining. Apoptosis of the cells was associated with caspase 3 activation, which was detected by Western blot analysis and a caspase activity assay. In addition, changes in the endoplasmic reticulum (ER) ultrastructure as observed by TEM showed the effects of AE on ER. Treatment with AE also resulted in an increase in eukaryotic initiation factor-2α (eIF-2α) phosphorylation, X-box binding protein 1 (XBP1) mRNA splicing, c-Jun N-terminal kinase (JNK) phosphorylation, glucose-regulated protein (GRP) 78 and CAAT/enhancer-binding protein-homologous protein (CHOP) accumulation. These results suggest that AE induces ER stress in HK-2 cells, which is involved in AE-induced apoptosis. In conclusion, AE induces apoptosis in HK-2 cells, and the ER stress is involved in AE-induced apoptosis in vitro. The implications of the toxic effects of AE for clinical use are unclear and these findings should be taken into account in the risk assessment for human exposure. [Copyright &y& Elsevier]

Published
2012
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164. Serum PCSK9 levels, but not PCSK9 polymorphisms, are associated with CAD risk and lipid profiles in southern Chinese Han population.

Author

Cai, Gaojun, Yu, Lei, Li, Li, Huang, Zhiying, and Fu, Xingli

Subjects
*GENETIC polymorphisms, *DYSLIPIDEMIA, *PROPROTEIN convertases, *POLYMERASE chain reaction, CORONARY artery abnormalities
Abstract

Background: Genetic and environment factors affect the occurrence and development of coronary artery disease (CAD). Proprotein convertase subtilisin/kexin type 9 (PCSK9), has been investigated extensively in the field of lipid metabolism and CAD. We performed this case-control study to investigate the relationship between serum PCSK9 levels and PCSK9 polymorphisms and lipid levels and CAD risk in a southern Chinese population. Methods: A hospital-based case-control study with 1, 096 subjects, including 626 CAD patients and 470 controls, were conducted. Genotyping of PCSK9 polymorphisms was performed using polymerase chain reaction-ligase detection reaction (PCR-LDR) method. Results: The frequencies of the AA, AG and GG genotypes of PCSK9 E670G polymorphism were 90.58, 9.27, and 0.16% in the CAD patients, compared with 88.72, 10.85 and 0.43% in the controls, respectively. No R46L variant was detected in this population. There were no significant differences in genotype and allele frequencies of PCSK9E670G polymorphism between the CAD group and the controls. Serum lipid levels were not significantly different in carriers with the G allele and those with the AA genotype. The median (QR) of PCSK9 concentration was 1205.00 ng/l (577.28–1694.13 ng/l) in cases and 565.87 ng/l (357.17–967.50 ng/l) in controls, respectively. Compared with controls, CAD patients had significantly higher PCSK9 levels (z = 4.559, P < 0.001). After adjusting for age, gender, essential hypertension, diabetic mellitus, smoking and lipid profiles, PCSK9 levels remain significantly associated with increased CAD susceptibility (OR = 1.002, 95% CI = 1.001–1.002, P < 0.001). The correlation analyses showed that serum PCSK9 levels were positively associated with triglyceride (TG), Apo B and atherogenic index of plasma (AIP) levels in controls. No significant association between the PCSK9 E670G polymorphism and serum PCSK9 levels was observed in the CAD group and the controls. Conclusions: The present study shows that serum PCSK9 levels, but not PCSK9 polymorphisms, are associated with CAD risk in Southern Chinese Han population, and that serum PCSK9 levels are positively associated with AIP. [ABSTRACT FROM AUTHOR]

Published
2018
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165. Bile Acid Composition and Transcriptome Analysis of the Liver and Small Intestine in Different Species.

Author

Qi D, Zheng T, Yang M, Huang Z, Wang T, Wang Q, and Chen B

Abstract

Bile, a crucial fluid produced continuously by the liver, plays an essential role in digestion within the small intestine. Beyond its primary function in lipid digestion, bile also acts as a pathway for the elimination of various endogenous and exogenous substances. There have been limited studies focusing on interspecies differences. This study offers a comprehensive analysis of bile acid (BA) composition and its correlation with gene expression patterns across six different species, including mammals and poultry, through combining Liquid Chromatography-Mass Spectrometry (LC-MS) and transcriptome sequencing. The BA profiles revealed distinct metabolite clusters: D-glucuronic acid (GLCA) and glycochenodeoxycholic acid (GCDCA) were predominant in mammals, while taurolithocholic acid (TLCA) and T-alpha-MCA were prevalent in poultry, highlighting species-specific BA compositions. Differentially abundant metabolites, particularly GDCA, glycohyodeoxycholic acid (GHDCA) and taurodeoxycholic acid (TDCA) showed significant variations across species, with pigs showing the highest BA content. Transcriptome analysis of the liver and small intestine tissues of 56 cDNA libraries across the six species revealed distinct mRNA expression patterns. These patterns clustered samples into broad categories based on tissue type and phylogenetic relationships. Furthermore, the correlation between gene expression and BA content was examined, identifying the top 20 genes with significant associations. These genes potentially serve as biomarkers for BA regulation.

Published
2024
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166. Rosmarinic acid alleviates toosendanin-induced liver injury through restoration of autophagic flux and lysosomal function by activating JAK2/STAT3/CTSC pathway.

Author

Luo L, Lin J, Chen S, Ni J, Peng H, Shen F, and Huang Z

Subjects
Animals, Humans, Male, Mice, Drugs, Chinese Herbal pharmacology, Liver drug effects, Liver metabolism, Liver pathology, Mice, Inbred BALB C, Autophagy drug effects, Chemical and Drug Induced Liver Injury drug therapy, Chemical and Drug Induced Liver Injury metabolism, Chemical and Drug Induced Liver Injury pathology, Chemical and Drug Induced Liver Injury prevention & control, Cinnamates pharmacology, Depsides pharmacology, Janus Kinase 2 metabolism, Lysosomes drug effects, Lysosomes metabolism, Rosmarinic Acid, Signal Transduction drug effects, STAT3 Transcription Factor metabolism
Abstract

Ethnopharmacological Relevance: Rosmarinic acid (RA), a natural polyphenol abundant in numerous herbal remedies, has been attracting growing interest owing to its exceptional ability to protect the liver. Toosendanin (TSN), a prominent bioactive compound derived from Melia toosendan Siebold & Zucc., boasts diverse pharmacological properties. Nevertheless, TSN possesses remarkable hepatotoxicity. Intriguingly, the potential of RA to counteract TSN-induced liver damage and its probable mechanisms remain unexplored., Aim of the Study: This study is aimed at exploring whether RA can alleviate TSN-induced liver injury and the potential mechanisms involved autophagy., Materials and Methods: CCK-8 and LDH leakage rate assay were used to evaluate cytotoxicity. Balb/c mice were intraperitoneally administered TSN (20 mg/kg) for 24 h after pretreatment with RA (0, 40, 80 mg/kg) by gavage for 5 days. The autophagic proteins P62 and LC3B expressions were detected using western blot and immunohistochemistry. RFP-GFP-LC3B and transmission electron microscopy were applied to observe the accumulation levels of autophagosomes and autolysosomes. LysoTracker Red and DQ-BSA staining were used to evaluate the lysosomal acidity and degradation ability respectively. Western blot, immunohistochemistry and immunofluorescence staining were employed to measure the expressions of JAK2/STAT3/CTSC pathway proteins. Dual-luciferase reporter gene was used to measure the transcriptional activity of CTSC and RT-PCR was used to detect its mRNA level. H&E staining and serum biochemical assay were employed to determine the degree of damage to the liver., Results: TSN-induced damage to hepatocytes and livers was significantly alleviated by RA. RA markedly diminished the autophagic flux blockade and lysosomal dysfunction caused by TSN. Mechanically, RA alleviated TSN-induced down-regulation of CTSC by activating JAK2/STAT3 signaling pathway., Conclusion: RA could protect against TSN-induced liver injury by activating the JAK2/STAT3/CTSC pathway-mediated autophagy and lysosomal function., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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167. Is catheterization via distal transradial access feasible in children? From vessel diameter perspective.

Author

Zhao Y, Chen T, Yang L, Mao W, Wan Y, Zhang L, Ding H, Cai G, and Huang Z

Abstract

Background: Distal radial artery (DRA) access is an infrequent alternative access for pediatric catheterization. The feasibility of using the DRA for arterial catheterization in children depends on the vessel's size., Objectives: This study aims to provide a reference for pediatric catheterization via DRA access by evaluating the diameter of the DRA in the anatomic snuffbox (AS)., Methods: We conducted a retrospective review of clinical and vascular ultrasound data of 412 children (ages 3-12) who were scheduled for arterial blood gas analysis via the DRA due to serious respiratory diseases between June 2023 and October 2023., Results: The corrected DRA diameter in the AS was 1.97 ± 0.37 mm overall, with no significant difference between males (1.98 ± 0.38 mm) and females (1.95 ± 0.35 mm) ( p  = 0.457). The anteroposterior, transverse, and corrected DRA diameters increased significantly with age ( p  < 0.05). The DRA diameter was significantly smaller than the proximal radial artery (PRA) diameter (1.97 ± 0.37 mm vs. 2.05 ± 0.33 mm, p  < 0.001) but larger than the ulnar artery (UA) diameter (1.97 ± 0.37 mm vs. 1.88 ± 0.33 mm, p  < 0.001). The proportions of patients with a DRA diameter greater than 2.0 mm and 1.5 mm were 38.83% and 86.89%, respectively. The proportions of patients with DRA diameters >2.0 mm and >1.5 mm increased significantly with age ( p  < 0.01). The percentages of individuals with a DRA/PRA ratio ≥1.0 were 55.10% overall, 52.12% in males, and 58.60% in females. DRA diameter showed significant correlations with age (r = 0.275, p  < 0.01), height (r = 0.319, p  < 0.01), weight (r = 0.319, p  < 0.01), BMI (r = 0.241, p  < 0.01), wrist circumference (r = 0.354, p  < 0.01), PRA diameter (r = 0.521, p  < 0.01), and UA diameter (r = 0.272, p  < 0.01)., Conclusion: The DRA diameter in children increases with age and size, making cardiac catheterization is theoretically feasible. Preoperative evaluation of the vessel diameter and intraoperative ultrasound-guided intervention are recommended for paediatric catheterization via the DRA access., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2024 Zhao, Chen, Yang, Mao, Wan, Zhang, Ding, Cai and Huang.)

Published
2024
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168. Efficient signal sequence of mRNA vaccines enhances the antigen expression to expand the immune protection against viral infection.

Author

Zhang Y, Zhai S, Huang H, Qin S, Sun M, Chen Y, Lan X, Li G, Huang Z, Wang D, Luo Y, Xiao W, Li H, He X, Chen M, Peng X, and Song X

Subjects
Animals, Mice, COVID-19 prevention & control, COVID-19 immunology, Mice, Inbred BALB C, RNA, Messenger genetics, COVID-19 Vaccines immunology, Female, Humans, Antigens, Viral immunology, Antigens, Viral genetics, Antigens, Viral chemistry, Antibodies, Viral immunology, Immunity, Humoral, Vaccines, Synthetic immunology, Immunity, Cellular, mRNA Vaccines, SARS-CoV-2 immunology, Protein Sorting Signals
Abstract

The signal sequence played a crucial role in the efficacy of mRNA vaccines against virus pandemic by influencing antigen translation. However, limited research had been conducted to compare and analyze the specific mechanisms involved. In this study, a novel approach was introduced by substituting the signal sequence of the mRNA antigen to enhance its immune response. Computational simulations demonstrated that various signal peptides differed in their binding capacities with the signal recognition particle (SRP) 54 M subunit, which positively correlated with antigen translation efficiency. Our data revealed that the signal sequences of tPA and IL-6-modified receptor binding domain (RBD) mRNA vaccines sequentially led to higher antigen expression and elicited more robust humoral and cellular immune protection against the SARS-CoV-2 compared to the original signal sequence. By highlighting the importance of the signal sequence, this research provided a foundational and safe approach for ongoing modifications in signal sequence-antigen design, aiming to optimize the efficacy of mRNA vaccines., (© 2024. The Author(s).)

Published
2024
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169. Toosendanin induces hepatotoxicity via disrupting LXRα/Lipin1/SREBP1 mediated lipid metabolism.

Author

Chen S, Ni J, Luo L, Lin J, Peng H, Shen F, and Huang Z

Subjects
Mice, Animals, Male, Lipid Metabolism, Lipids, Drugs, Chinese Herbal pharmacology, Chemical and Drug Induced Liver Injury etiology, Lipid Metabolism Disorders, Triterpenes
Abstract

Toosendanin (TSN) is the main active compound derived from Melia toosendan Sieb et Zucc with various bioactivities. However, liver injury was observed in TSN limiting its clinical application. Lipid metabolism plays a crucial role in maintaining cellular homeostasis, and its disruption is also essential in TSN-induced hepatotoxicity. This study explored the hepatotoxicity caused by TSN in vitro and in vivo. The lipid droplets were significantly decreased, accompanied by a decrease in fatty acid transporter CD36 and crucial enzymes in the lipogenesis including ACC and FAS after the treatment of TSN. It was suggested that TSN caused lipid metabolism disorder in hepatocytes. TOFA, an allosteric inhibitor of ACC, could partially restore cell survival via blocking malonyl-CoA accumulation. Notably, TSN downregulated the LXRα/Lipin1/SREBP1 signaling pathway. LXRα activation improved cell survival and intracellular neutral lipid levels, while SREBP1 inhibition aggravated the cell damage and caused a further decline in lipid levels. Male Balb/c mice were treated with TSN (5, 10, 20 mg/kg/d) for 7 days. TSN exposure led to serum lipid levels aberrantly decreased. Moreover, the western blotting results showed that LXRα/Lipin1/SREBP1 inhibition contributed to TSN-induced liver injury. In conclusion, TSN caused lipid metabolism disorder in liver via inhibiting LXRα/Lipin1/SREBP1 signaling pathway., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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170. Toosendanin induces hepatotoxicity by restraining autophagy and lysosomal function through inhibiting STAT3/CTSC axis.

Author

Luo L, Ni J, Zhang J, Lin J, Chen S, Shen F, and Huang Z

Subjects
Animals, Mice, STAT3 Transcription Factor metabolism, Cathepsin C metabolism, Mice, Inbred C57BL, Autophagy, Drugs, Chinese Herbal pharmacology, Chemical and Drug Induced Liver Injury, Triterpenes
Abstract

Toosendanin (TSN) is the main active component in the traditional herb Melia toosendan Siebold & Zucc, which exhibits promising potential for development due to its diverse pharmacological properties. However, the hepatotoxicity associated with TSN needs further investigation. Previous research has implicated autophagy dysregulation in TSN-induced hepatotoxicity, yet the underlying mechanisms remain elusive. In this study, the mechanisms of signal transducer and activator of transcription 3 (STAT3) in TSN-induced autophagy inhibition and liver injury were explored using Stat3 knockout C57BL/6 mice and HepG2 cells. TSN decreased cell viability, increased lactate dehydrogenase (LDH) production in vitro, and elevated serum aspartate transaminase (AST) and alanine aminotransferase (ALT) levels as well as liver lesions in vivo, suggesting TSN had significant hepatotoxicity. TSN inhibited Janus kinase 2 (JAK2)/STAT3 pathway and the expression of cathepsin C (CTSC). Inhibition of STAT3 exacerbated TSN-induced autophagy inhibition and hepatic injury, whereas activation of STAT3 attenuated these effects of TSN. Mechanistically, STAT3 transcriptionally regulated the level of CTSC gene, which in turn affected autophagy and the process of liver injury. TSN-administered Stat3 knockout mice showed more severe hepatotoxicity, CTSC downregulation, and autophagy blockade than wildtype mice. In summary, TSN caused hepatotoxicity by inhibiting STAT3/CTSC axis-dependent autophagy and lysosomal function., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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171. HRMS analysis of pesticides in vegetables from Shanghai and risk assessment.

Author

Si W, Huo K, Wu N, Yang H, Liu H, Jin X, Chen L, Huang Z, Wang S, and Bai B

Subjects
Vegetables chemistry, Food Contamination analysis, China, Risk Assessment, Fruit chemistry, Pesticides analysis, Pesticide Residues analysis
Abstract

A rapid analytical method for the simultaneous determination of 550 pesticide residues in vegetable samples was developed based on ultra-high performance liquid chromatography-tandem Q/Orbitrap high-resolution mass spectrometry (UPLC-Q/Orbitrap-HRMS). To investigate the risk of exposure to pesticide residues through vegetable consumption, 704 leafy vegetable samples from Shanghai were analysed for multiple residues using this method. A total of 54 pesticide residues were identified in these vegetable samples and 302 samples contained one or more pesticide residue. The levels of the detected pesticides did not pose a health risk in the long term and were acceptable according to the results of the chronic dietary risk assessment. Risk rankings displayed that most of the pesticides were low to medium risk. The findings of this study provide a reference for future pesticide monitoring programmes.

Published
2024
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172. Mitigation of triptolide-induced testicular Sertoli cell damage by melatonin via regulating the crosstalk between SIRT1 and NRF2.

Author

Qin Z, Song J, Huang J, Jiang S, Zhang G, Huang M, Huang Z, and Jin J

Subjects
Male, Humans, Sertoli Cells, NF-E2-Related Factor 2 metabolism, Sirtuin 1 metabolism, Oxidative Stress, Melatonin pharmacology, Melatonin metabolism, Phenanthrenes pharmacology
Abstract

Background: Triptolide (TP) is an important active compound from Tripterygium wilfordii Hook F (TwHF), however, it is greatly limited in clinical practice due to its severe toxicity, especially testicular injury. Melatonin is an endogenous hormone and has beneficial effects on the reproductive system. However, whether triptolide-induced testicular injury can be alleviated by melatonin and the underlying mechanism are not clear., Purpose: In this study, we aimed to explore whether triptolide-induced testicular Sertoli cells toxicity can be mitigated by melatonin and the underlying mechanisms involved., Methods: Cell apoptosis was assessed by flow cytometry, western blot, immunofluorescence and immunohistochemistry. Fluorescent probe Mito-Tracker Red CMXRos was used to observe the mitochondria morphology. Mitochondrial membrane potential and Ca 2+ levels were used to investigate mitochondrial function by confocal microscope and flow cytometry. The expression levels of SIRT1/Nrf2 pathway were detected by western blot, immunofluorescence and immunohistochemistry. Small interfering RNA of NRF2 and SIRT1 inhibitor EX527 was used to confirm the role of SIRT1/NRF2 pathway in the mitigation of triptolide-induced Sertoli cell damage by melatonin. Co-Immunoprecipitation assay was used to determine the interaction between SIRT1 and NRF2., Results: Triptolide-induced dysfunction of testicular Sertoli cells was significantly improved by melatonin treatment. Specifically, triptolide-induced oxidative stress damage and changes of mitochondrial morphology, mitochondrial membrane potential, and BTB integrity were alleviated by melatonin. Mechanistically, triptolide inhibited SIRT1 and then reduced the activation of NRF2 pathway via regulating the interaction between SIRT1 and NRF2, thereby downregulating the downstream antioxidant genes, which was reversed by melatonin. Nevertheless, knockdown of NRF2 or inhibition of SIRT1 abolished the protective effect of melatonin., Conclusion: Triptolide-induced testicular Sertoli cell damage could be alleviated by melatonin via regulating the crosstalk between SIRT1 and NRF2, which is helpful for developing a new strategy to alleviate triptolide-induced toxicity., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier GmbH. All rights reserved.)

Published
2023
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173. POU Class 2 Associating Factor 1 Exerts a Protective Effect on the Respiratory Syncytial Virus-Induced Acute Bronchiolitis by the NF- κ B Pathway.

Author

Zhang L, Huang Z, Wang F, Xue M, Zhang X, Wan Y, and Ma L

Abstract

Background: Respiratory syncytial virus (RSV) is the main pathogen causing acute bronchiolitis, which is common in infants and young children. A previous study revealed the possible involvement of POU class 2 associating factor 1 (POU2AF1) in RSV-triggered acute bronchiolitis. We attempted to clarify the specific action mechanism of POU2AF1 underlying RSV-triggered inflammation., Methods: RT-qPCR measured POU2AF1 levels in RSV-infected children, mice, and airway epithelial cell lines (HBECs). HE staining showed histopathological features in the lung tissue of RSV-infected mice. ELISA examined the contents of proinflammatory cytokines in RSV-infected mice. Western blotting evaluated the protein abundance of proinflammatory cytokines in RSV-infected HBECs and assessed NF- κ B pathway-associated protein expression in RSV-infected mice and RSV-treated HBECs., Results: POU2AF1 presented depletion in RSV-infected children, mice, and HBECs. RSV-infected triggered lung injury and inflammatory cell infiltration in the mouse lung tissue, while POU2AF1 overexpression rescued these changes. RSV-infected induced inflammatory impairment in HBECs, whereas POU2AF1 reversed this effect. POU2AF1 suppressed the upregulated NF- κ B pathway-associated protein expression in mice and HBECs under RSV infection., Conclusion: POU2AF1 exerts a protective impact on RSV-induced acute bronchiolitis in vitro and in vivo through the NF- κ B pathway. Our research may provide a novel direction for better therapy of RSV-triggered acute bronchiolitis., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2023 Liwen Zhang et al.)

Published
2023
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174. A cascade-responsive nanoplatform with tumor cell-specific drug burst release for chemotherapy.

Author

He X, Xu B, Fang A, Li X, Huang Z, Qin S, Xiao W, Li G, Tian M, Fan N, and Song X

Subjects
Humans, Matrix Metalloproteinase 2, Pharmaceutical Preparations, Paclitaxel, Polymers chemistry, Tumor Microenvironment, Antineoplastic Agents therapeutic use, Neoplasms drug therapy, Neoplasms pathology
Abstract

Most of the nanomedicines can reduce the side effects of anti-tumor chemical drugs but do not have good enough therapeutic efficacy, largely due to the sustained drug release profile. It might be a promising alternative strategy to develop a cascade-responsive nanoplatform against tumor with the burst release of chemotherapeutics based on the highly efficient tumor cell targeting delivery. In this work, we constructed innovative nanoparticles (PMP/WPH-NPs) consisting of two functional polymers. PMP contained the MMP-2 enzyme sensitive linker and disulfide bond, which could respond to the tumor-overexpressing enzyme MMP-2 and high-level glutathione. While WPH promoted tumor penetration and acid-responsive drug release by modifying cellular penetrating peptides and polymerizing L-histidine. PMP/WPH-NPs exhibited outstanding features including longer blood circulation time, promoted tumor-specific accumulation, enhanced tumor penetration and efficient escape from lysosomes. Subsequently, the model drug paclitaxel (PTX), widely used in the tumor chemotherapy, was encapsulated into PMP/WPH-NPs via an emulsion solvent evaporation method. Within a short period of time, PTX-PMP/WPH-NP in simulated tumor cellular microenvironment could release 8 times more PTX than that in the physiological environment, demonstrating a good potential in tumor cell-specific burst drug release. In addition, PTX-PMP/WPH-NPs exhibited stronger anti-tumor activity than PTX in vitro and in vivo, which also had good biocompatibility according to the hemolysis assay and H&E staining. In summary, our work has succeeded in designing an original polymeric nanoplatform for programmed burst drug release based on the tailored tumor targeting delivery system. This new approach would facilitate the clinical translation of more anti-tumor nanomedicines. STATEMENT OF SIGNIFICANCE: Biomaterials responsive to the tumor-specific stimulus has conventionally used in the targeted-delivery of anti-tumor drugs. However, the levels of common stimulus are not uniformly distributed and not high enough to effectively trigger drug release. In an effort to achieve a better specific drug release and promote the chemotherapeutic efficacy, we constructed a cascade responsive nanoplatform with tumor cell-specific drug burst release profile. The tailored biomaterial could overcome the bio-barriers in vivo and succeeded in the programmed burst drug release based on the tumor cell-specific delivery of chemotherapeutics., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest., (Copyright © 2023. Published by Elsevier Ltd.)

Published
2023
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175. Dynamic evolution of urban infrastructure resilience and its spatial spillover effects: An empirical study from China.

Author

Wang H, Huang Z, Liang Y, Zhang Q, Hu S, Cui L, and An X

Subjects
Cities, China, Spatial Analysis, Urbanization, Economic Development
Abstract

Urban infrastructure resilience is an important perspective for measuring the development quality of resilient cities and an important way to measure the level of infrastructure development. This paper uses the kernel density estimation, exploratory spatial data analysis, and spatial econometric models to analyze the characteristics of dynamic evolution and the spillover effects of the infrastructure resilience levels in 283 prefecture-level and above cities in China from 2010 to 2019. Our results are as follows. (1) The overall level of urban infrastructure resilience increased. The eastern region had a higher level than the national average. In contrast, the central, western and north-eastern regions had a slightly lower level than the national average. (2) The areas with high and higher resilience levels were mostly cities with more developed economic and social conditions in Eastern China. The areas below moderate resilience levels show a certain degree of clustering and mainly include some cities in Central, Western, and Northeast China. (3) The national level of urban infrastructure resilience shows significant spatial clustering characteristics, and the spatial pattern from coastal to inland regions presents a hotspot-subhotspot-subcoldspot-coldspot distribution. (4) There is a differential spatial spillover effect of national urban infrastructure resilience, which is gradually strengthened under the role of the economy, financial development, population agglomeration and government funding and weakened under the role of urbanization, market consumption and infrastructure investment. By exploring the dynamic evolution of infrastructure resilience in cities at the prefecture level and above and its spatial spillover effects, we provide a scientific basis for avoiding the siphoning effect among cities, improving the level of infrastructure resilience, and guiding the construction and development of resilient cities., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Wang et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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176. Toosendanin induced hepatotoxicity via triggering PERK-eIF2α-ATF4 mediated ferroptosis.

Author

Liang Y, Chen S, Han S, Luo L, Shen F, and Huang Z

Subjects
Animals, Mice, Male, Eukaryotic Initiation Factor-2 metabolism, Reactive Oxygen Species metabolism, Transcription Factor 4, Activating Transcription Factor 4 genetics, Activating Transcription Factor 4 metabolism, Ferroptosis, Drugs, Chinese Herbal, Chemical and Drug Induced Liver Injury
Abstract

Toosendanin (TSN) is the main active compound of Melia toosendan Sieb et Zucc with various bioactivities. In this study, we investigated the role of ferroptosis in TSN-induced hepatotoxicity. The characteristic indicators of ferroptosis were detected including reactive oxygen species (ROS), lipid-ROS, glutathione (GSH), ferrous ion and the expression of glutathione peroxidase 4 (GPX4), which showed that TSN caused ferroptosis in hepatocytes. The results of qPCR analysis and western blotting assay showed that TSN-induced activation of protein kinase R-like endoplasmic reticulum kinase (PERK)- eukaryotic initiation factor 2 α subunit (eIF2α)- activation transcription factor 4 (ATF4) signaling pathway resulted in increasing activation transcription factor 3 (ATF3) expression, which upregulated the expression of transferrin receptor 1 (TFRC). Furthermore, TFRC mediated iron accumulation leading to ferroptosis in hepatocytes. To clarify whether TSN triggered ferroptosis in vivo, male Balb/c mice were treated with the different doses of TSN. The results of hematoxylin-eosin (H&E) staining, 4-hydroxynonenal (4-HNE) staining, malondialdehyde (MDA) content and the protein expression of GPX4 showed that ferroptosis contributed to TSN-induced hepatotoxicity. Iron homeostasis relative protein and PERK- eIF2α- ATF4 signaling pathway also involved in hepatotoxicity of TSN in vivo., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
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177. Does vertical supervision promote regional green transformation? Evidence from Central Environmental Protection Inspection.

Author

Zeng M, Zheng L, Huang Z, Cheng X, and Zeng H

Subjects
Policy, Environmental Pollution, Investments, Conservation of Natural Resources, Environmental Policy
Abstract

Vertical supervision is an important institutional arrangement designed to overcome the challenges of environmental governance and promotion of green development in the region. Based on the panel data of 278 cities in China from 2010 to 2018, we use Central Environmental Protection Inspection (CEPI) as an exogenous policy and the multi-period Difference-in-Differences method to test the role of vertical supervision in promoting regional green transformation. Our findings indicate that CEPI, a typical vertical supervision policy, effectively promotes green transformation regionally by reducing local pollution emissions and improving total factor productivity. The analysis of mechanism shows that local governments mainly promote regional green transformation by increasing the investment in pollutant governance, research and development in green technologies, and updating fixed assets. Our study provides a valuable reference for the implementation of vertical supervision policies and effective governance of local governments by the central government., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2023
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178. A novel heterologous receptor-binding domain dodecamer universal mRNA vaccine against SARS-CoV-2 variants.

Author

Qin S, Huang H, Xiao W, Chen K, He X, Tang X, Huang Z, Zhang Y, Duan X, Fan N, Zheng Q, Wu M, Lu G, Wei Y, Wei X, and Song X

Abstract

There are currently approximately 4,000 mutations in the SARS-CoV-2 S protein gene and emerging SARS-CoV-2 variants continue to spread rapidly worldwide. Universal vaccines with high efficacy and safety urgently need to be developed to prevent SARS-CoV-2 variants pandemic. Here, we described a novel self-assembling universal mRNA vaccine containing a heterologous receptor-binding domain (HRBD)-based dodecamer (HRBD dodecamer ) against SARS-CoV-2 variants, including Alpha (B.1.1.7), Beta (B.1.351), Gamma (B.1.1.28.1), Delta (B.1.617.2) and Omicron (B.1.1.529) . HRBD containing four heterologous RBD (Delta, Beta, Gamma, and Wild-type) can form a stable dodecameric conformation under T4 trimerization tag (Flodon, FD). The HRBD dodecamer -encoding mRNA was then encapsulated into the newly-constructed LNPs consisting of a novel ionizable lipid (4N4T). The obtained universal mRNA vaccine (4N4T-HRBD dodecamer ) presented higher efficiency in mRNA transfection and expression than the approved ALC-0315 LNPs, initiating potent immune protection against the immune escape of SARS-CoV-2 caused by evolutionary mutation. These findings demonstrated the first evidence that structure-based antigen design and mRNA delivery carrier optimization may facilitate the development of effective universal mRNA vaccines to tackle SARS-CoV-2 variants pandemic., Competing Interests: The authors have no conflicts of interest to declare., (© 2023 Chinese Pharmaceutical Association and Institute of Materia Medica, Chinese Academy of Medical Sciences. Production and hosting by Elsevier B.V.)

Published
2023
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179. Toosendanin Induces Hepatocyte Damage by Inhibiting Autophagic Flux via TFEB-Mediated Lysosomal Dysfunction.

Author

Luo L, Liang Y, Fu Y, Liang Z, Zheng J, Lan J, Shen F, and Huang Z

Abstract

Toosendanin (TSN) is a triterpenoid from the fruit or bark of Melia toosendan Sieb et Zucc, which has clear antitumor and insecticidal activities, but it possesses limiting hepatotoxicity in clinical application. Autophagy is a degradation and recycling mechanism to maintain cellular homeostasis, and it also plays an essential role in TSN-induced hepatotoxicity. Nevertheless, the specific mechanism of TSN on autophagy-related hepatotoxicity is still unknown. The hepatotoxicity of TSN in vivo and in vitro was explored in this study. It was found that TSN induced the upregulation of the autophagy-marker microtubule-associated proteins 1A/1B light chain 3B (LC3B) and P62, the accumulation of autolysosomes, and the inhibition of autophagic flux. The middle and late stages of autophagy were mainly studied. The data showed that TSN did not affect the fusion of autophagosomes and lysosomes but significantly inhibited the acidity, the degradation capacity of lysosomes, and the expression of hydrolase cathepsin B (CTSB). The activation of autophagy could alleviate TSN-induced hepatocyte damage. TSN inhibited the expression of transcription factor EB (TFEB), which is a key transcription factor for many genes of autophagy and lysosomes, such as CTSB, and overexpression of TFEB alleviated the autophagic flux blockade caused by TSN. In summary, TSN caused hepatotoxicity by inhibiting TFEB-lysosome-mediated autophagic flux and activating autophagy by rapamycin (Rapa), which could effectively alleviate TSN-induced hepatotoxicity, indicating that targeting autophagy is a new strategy to intervene in the hepatotoxicity of TSN.

Published
2022
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180. Artesunate Inhibits the Cell Growth in Colorectal Cancer by Promoting ROS-Dependent Cell Senescence and Autophagy.

Author

Huang Z, Gan S, Zhuang X, Chen Y, Lu L, Wang Y, Qi X, Feng Q, Huang Q, Du B, Zhang R, and Liu Z

Subjects
Animals, Apoptosis, Artesunate pharmacology, Autophagy, Cell Line, Tumor, Cell Proliferation, Cellular Senescence, Mice, Protein Serine-Threonine Kinases, Reactive Oxygen Species metabolism, Colorectal Neoplasms drug therapy, Colorectal Neoplasms metabolism, Endoribonucleases
Abstract

Although artesunate has been reported to be a promising candidate for colorectal cancer (CRC) treatment, the underlying mechanisms and molecular targets of artesunate are yet to be explored. Here, we report that artesunate acts as a senescence and autophagy inducer to exert its inhibitory effect on CRC in a reactive oxygen species (ROS)-dependent manner. In SW480 and HCT116 cells, artesunate treatment led to mitochondrial dysfunction, drastically promoted mitochondrial ROS generation, and consequently inhibited cell proliferation by causing cell cycle arrest at G0/G1 phase as well as subsequent p16- and p21-mediated cell senescence. Senescent cells underwent endoplasmic reticulum stress (ERS), and the unfolded protein response (UPR) was activated via IRE1α signaling, with upregulated BIP, IRE1α, phosphorylated IRE1α (p-IRE1α), CHOP, and DR5. Further experiments revealed that autophagy was induced by artesunate treatment due to oxidative stress and ER stress. In contrast, N-Acetylcysteine (NAC, an ROS scavenger) and 3-Methyladenine (3-MA, an autophagy inhibitor) restored cell viability and attenuated autophagy in artesunate-treated cells. Furthermore, cellular free Ca 2+ levels were increased and could be repressed by NAC, 3-MA, and GSK2350168 (an IRE1α inhibitor). In vivo, artesunate administration reduced the growth of CT26 cell-derived tumors in BALB/c mice. Ki67 and cyclin D1 expression was downregulated in tumor tissue, while p16, p21, p-IRE1α, and LC3B expression was upregulated. Taken together, artesunate induces senescence and autophagy to inhibit cell proliferation in colorectal cancer by promoting excessive ROS generation.

Published
2022
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181. Triptolide dysregulates glucose uptake via inhibition of IKKβ-NF-κB pathway by p53 activation in cardiomyocytes.

Author

Xi Y, Zhang Y, Pan J, Chen S, Lu S, Shen F, and Huang Z

Subjects
Animals, Apoptosis drug effects, Cardiotoxicity, Cell Line, Energy Metabolism drug effects, Epoxy Compounds toxicity, Glucose Transporter Type 1 genetics, Glucose Transporter Type 1 metabolism, Glucose Transporter Type 4 genetics, Glucose Transporter Type 4 metabolism, Heart Diseases genetics, Heart Diseases metabolism, Heart Diseases pathology, Mice, Knockout, Myocytes, Cardiac metabolism, Myocytes, Cardiac pathology, Rats, Sprague-Dawley, Signal Transduction drug effects, Tumor Suppressor Protein p53 deficiency, Tumor Suppressor Protein p53 genetics, Diterpenes toxicity, Glucose metabolism, Heart Diseases chemically induced, I-kappa B Kinase metabolism, Myocytes, Cardiac drug effects, NF-kappa B metabolism, Phenanthrenes toxicity, Tumor Suppressor Protein p53 metabolism
Abstract

Triptolide (TP), a principal bioactive component extracted from traditional Chinese medicine Tripterygium wilfordii Hook. F. (TWHF), has attracted wide attention of its therapeutic effects on inflammation and autoimmune diseases. However, the therapeutic application of TP is hindered by severe cardiomyocyte toxicity and narrow therapeutic window. We previously identified that the p53 was an indispensable contributor in TP-induced myocardial injury. p53 has an inhibitory effect on IKKβ-NF-κB pathway that regulates glucose transporters (GLUT) expression. Based on these evidences, we speculate that p53 mediates TP-disturbed glucose uptake by blocking IKKβ-NF-κB signaling. This study focused on the effect of TP on cardiac glucose uptake and the role of p53 in glucose metabolism in cardiomyocytes, and p53 -/- mice. TP treatment depressed glucose consumption and ATP production resulting in myocardial damage. Incubation with ATP (5 mM) remarkably decreased the cellular damage. Immunoblotting and immunofluorescence identified that TP suppressed glucose uptake by restricting IKKβ-NF-κB signaling activation, GLUT1 and GLUT4 expression. p53 inhibition alleviated the cell damage and the compromise of glucose uptake. Mechanistically, p53 antagonist PFTα abolished TP-induced the inhibition of IKKβ, IκBα phosphorylation, p65 nuclear translocation, and GLUT1, GLUT4 expression. Consistently, in acute heart injury models, p53 deficiency upregulated IKKβ-NF-κB activation and GLUT1, GLUT4 protein levels which was also indicated as amelioration of heart histological injury after 1.2 mg kg -1 TP administration. The present findings indicate that TP-induced p53 overactivation suppresses glucose uptake by inhibiting IKKβ-NF-κB pathway and downregulating NF-κB-dependent GLUT1 and GLUT4 expression., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2020
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182. Gender specific effect of CETP rs708272 polymorphism on lipid and atherogenic index of plasma levels but not on the risk of coronary artery disease: A case-control study.

Author

Cai G, Shi G, and Huang Z

Subjects
Aged, Asian People genetics, Atherosclerosis blood, Atherosclerosis genetics, Case-Control Studies, Female, Gene Frequency, Humans, Male, Middle Aged, Cholesterol Ester Transfer Proteins genetics, Coronary Artery Disease genetics, Lipids blood, Polymorphism, Genetic, Sex Characteristics
Abstract

Numerous studies have shown a relationship between cholesteryl ester transfer protein (CETP) polymorphism in the synthesis of high-density lipoprotein cholesterol (HDL-C) and the coronary artery disease (CAD) susceptibility, but the results have remained inconsistent. In addition, there was no study exploring the relationship between CETP polymorphisms and atherogenic index of plasma (AIP) levels.We conducted a case-control study to evaluate the relationship between CETP rs708272 polymorphism and CAD risk and lipid levels in Chinese Han population. 556 CAD patients and 414 controls undergoing coronary angiography were consecutively enrolled in the hospital-based study. Polymerase chain reaction-ligase detection reaction (PCR-LDR) method was used to detect the different genotypes at rs708272.No significant association between CETP rs708272 polymorphism and CAD risk was observed in different genetic models. In the whole population, participants with TT genotype had higher HDL-C levels (1.17 ± 0.31 mmol/L vs 1.09 ± 0.29 mmol/L, P = .001) and lower AIP levels (0.08 ± 0.35 vs 0.16 ± 0.31, P = .004) compared to those with CC genotype, after adjusting for age, gender, smoking, essential hypertension (EH), and DM. The T allele carriers had higher HDL-C levels than the T allele non-carriers (1.13 ± 0.29 mmol/L vs 1.09 ± 0.29 mmol/L, P = .023). Furthermore, subgroup analyses based on gender were carried out. In males, the results showed that participants with TT genotype had significant higher HDL-C levels and lower AIP levels compared with CC genotype (P <.05). In addition, males with CT+TT genotypes had higher HDL-C levels and lower AIP levels than those with CC genotypes (HDL-C: CT+TT 1.11 ± 0.31vs CC 1.06 ± 0.30 mmol/L, P = .041; AIP: CT+TT 0.12 ± 0.32vs CC 0.16 ± 0.31, P = .034, respectively). However, there were no significant associations between lipid levels and CETP rs708272 polymorphism in females, after adjusting for confounders.CETP rs708272 polymorphism has a gender-specific effect on lipid and AIP levels but not on the risk of CAD.

Published
2018
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183. Triptolide-induced mitochondrial damage dysregulates fatty acid metabolism in mouse sertoli cells.

Author

Cheng Y, Chen G, Wang L, Kong J, Pan J, Xi Y, Shen F, and Huang Z

Subjects
AMP-Activated Protein Kinases metabolism, Animals, Cell Line, Dose-Response Relationship, Drug, Energy Metabolism genetics, Epoxy Compounds toxicity, Gene Expression Regulation, Enzymologic, Lactic Acid metabolism, Male, Mice, Inbred ICR, Mitochondria metabolism, Mitochondria pathology, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha metabolism, Phosphorylation, Sertoli Cells metabolism, Sertoli Cells pathology, Signal Transduction drug effects, Sirtuin 1 genetics, Sirtuin 1 metabolism, Time Factors, Anti-Inflammatory Agents toxicity, Diterpenes toxicity, Energy Metabolism drug effects, Fatty Acids metabolism, Immunosuppressive Agents toxicity, Mitochondria drug effects, Phenanthrenes toxicity, Sertoli Cells drug effects
Abstract

Triptolide is a major active ingredient of tripterygium glycosides, used for the therapy of immune and inflammatory diseases. However, its clinical applications are limited by severe male fertility toxicity associated with decreased sperm count, mobility and testicular injures. In this study, we determined that triptoide-induced mitochondrial dysfunction triggered reduction of lactate and dysregulation of fatty acid metabolism in mouse Sertoli cells. First, triptolide induced mitochondrial damage through the suppressing of proliferator-activated receptor coactivator-1 alpha (PGC-1α) activity and protein. Second, mitochondrial damage decreased lactate production and dysregulated fatty acid metabolism. Finally, mitochondrial dysfunction was initiated by the inhibition of sirtuin 1 (SIRT1) with the regulation of AMP-activated protein kinase (AMPK) in Sertoli cells after triptolide treatment. Meanwhile, triptolide induced mitochondrial fatty acid oxidation dysregulation by increasing AMPK phosphorylation. Taken together, we provide evidence that the mechanism of triptolide-induced testicular toxicity under mitochondrial injury may involve a metabolic change., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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184. Triptolide induces mitochondria-mediated apoptosis of Burkitt's lymphoma cell via deacetylation of GSK-3β by increased SIRT3 expression.

Author

Kong J, Wang L, Ren L, Yan Y, Cheng Y, Huang Z, and Shen F

Subjects
Acetylation, Animals, Antineoplastic Agents therapeutic use, Apoptosis drug effects, Burkitt Lymphoma drug therapy, Burkitt Lymphoma pathology, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Diterpenes therapeutic use, Epoxy Compounds pharmacology, Epoxy Compounds therapeutic use, Humans, Male, Membrane Potential, Mitochondrial drug effects, Mice, Inbred NOD, Mice, SCID, Mitochondria drug effects, Mitochondria physiology, Phenanthrenes therapeutic use, Tumor Burden drug effects, bcl-2-Associated X Protein metabolism, Antineoplastic Agents pharmacology, Burkitt Lymphoma metabolism, Diterpenes pharmacology, Glycogen Synthase Kinase 3 beta metabolism, Phenanthrenes pharmacology, Sirtuin 3 metabolism
Abstract

Burkitt's lymphoma (BL) is a highly aggressive B-cell non-Hodgkin lymphoma with rapid growth and dissemination propensity. Triptolide (TP), an active component extracted from Chinese herb Tripterygium wilfordii Hook f., has broad-spectrum anti-tumor activities. This study aimed to explore the in vitro and in vivo anti-cancer effects of TP on BL and the potential molecular mechanisms. In this study, the in vitro anti-tumor activity of TP was determined by CCK-8 and flow cytometry assays in Raji, NAMALWA and Daudi cells. The expression of SIRT3, phosphorylation and acetylation of glycogen synthase kinase-3β (GSK-3β) were analyzed by Western blot assay. Moreover, we examined the mitochondrial membrane potential by JC-1 method and measured apoptosis related protein using Western blot assay. BL xenograft model in NOD/SCID mice were established to evaluate the in vivo anti-cancer effect of TP. We discovered that TP inhibited BL cell growth and induced apoptosis in a dose-dependent manner. Loss of SIRT3 provides growth advances for BL cells. However, TP could up-regulate SIRT3 expression, which resulted in suppression of BL cells proliferation. GSK-3β was activated by SIRT3-mediated deacetylation, which subsequently induced mitochondrial translocation and accumulation of Bax and decrease of mitochondrial membrane potential. Anti-tumor studies in vivo showed that TP (0.36 mg/kg) inhibited the growth of BL xenografts in NOD/SCID mice with an inhibitory rate of 73.13%. Our data revealed that TP triggered mitochondrial apoptotic pathway in BL by increasing SIRT3 expression and activating SIRT3/GSK-3β/Bax pathway. This study indicated that TP is a potential anti-cancer Chinese herbal medicine against BL., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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185. Resveratrol protects against triptolide-induced cardiotoxicity through SIRT3 signaling pathway in vivo and in vitro .

Author

Yang Y, Wang W, Xiong Z, Kong J, Wang L, Qiu Y, Shen F, and Huang Z

Subjects
Animals, Apoptosis drug effects, Cell Line, Diterpenes antagonists & inhibitors, Epoxy Compounds antagonists & inhibitors, Epoxy Compounds toxicity, Female, Forkhead Box Protein O3 drug effects, Humans, Male, Mice, Mice, Inbred BALB C, Myocardium enzymology, Myocardium pathology, Myocytes, Cardiac drug effects, Phenanthrenes antagonists & inhibitors, Resveratrol, Signal Transduction drug effects, Antioxidants pharmacology, Antioxidants therapeutic use, Cardiotonic Agents pharmacology, Cardiotonic Agents therapeutic use, Cardiotoxicity, Diterpenes toxicity, Heart Diseases chemically induced, Heart Diseases prevention & control, Phenanthrenes toxicity, Sirtuin 3 drug effects, Stilbenes pharmacology, Stilbenes therapeutic use
Abstract

Clinical application of triptolide (TP), a main active ingredient of the traditional Chinese herb Tripterygium wilfordii Hook f. (TWHF), is limited by a series of severe toxicities, including cardiotoxicity. In previous studies, we found the activation of sirtuin 3 (SIRT3) attenuated TP-induced toxicity in cardiomyocytes. Resveratrol (RSV), a polyphenol from the skins of grapes and red wine, is an activator of SIRT3. The current study aimed to investigate the protective effect of RSV against TP-induced cardiotoxicity and the underlying mechanisms. Mice were treated with a single dose of TP (2.5 mg/kg) via the intragastric (i.g.) route. After 24 h, TP induced abnormal changes of serum biochemistry, activity decrease of antioxidant enzymes and damage of heart tissue such as myocardial fiber rupture, cell swelling and interstitial congestion. In contrast, administration with RSV (50 mg/kg i.g. 12 h before and 2 h after the administration of TP) attenuated the detrimental effects induced by TP in BALB/c mice. Moreover, the cardiomyocyte protective effects of RSV on TP-induced heart injury were associated with the activation of SIRT3 and its downstream targets. In vitro study also indicated that RSV counteracted TP-induced cardiotoxicity through SIRT3-FOXO3 signaling pathway in H9c2 cells. Collectively, these findings suggest the potential of RSV as a promising agent in protecting heart from TP-induced damage.

Published
2016
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186. Tanshinone IIA protects against acetaminophen-induced hepatotoxicity via activating the Nrf2 pathway.

Author

Wang W, Guan C, Sun X, Zhao Z, Li J, Fu X, Qiu Y, Huang M, Jin J, and Huang Z

Subjects
Animals, Hep G2 Cells, Humans, Male, Mice, Mice, Inbred C57BL, Plant Extracts pharmacology, Salvia miltiorrhiza chemistry, Abietanes pharmacology, Acetaminophen toxicity, Chemical and Drug Induced Liver Injury drug therapy, Chemical and Drug Induced Liver Injury etiology, Liver drug effects, Protective Agents pharmacology
Abstract

Background: Tanshinone IIA (Tan), the main active component of Salvia miltiorrhiza, has been demonstrated to have antioxidant activity. Acetaminophen (APAP), a widely used antipyretic and analgesic, can cause severe hepatotoxicity and liver failure when taken overdose. Oxidative stress has been reported to be involved in APAP-induced liver failure., Purpose: This study aimed to investigate the effect of Tan on APAP-induced hepatotoxicity and the underlying mechanisms involved., Study Design: C57BL/6J mice were divided into six groups: (1) control, (2) APAP group, (3) APAP+Tan (30mg/kg) group, (4) Tan (30mg/kg) group, (5) APAP+Tan (10mg/kg) group, (6) Tan (10mg/kg) group. Mice in group 3 and 5 were pre-treated with specified dose of Tan by gavage and subsequently injected with an overdose of APAP intraperitoneally (i.p., 300mg/kg). The effect of Tan on Nrf2 pathway was investigated in HepG2 cells and mice., Methods: Plasma aspartate transaminase (ALT), aspartate transaminase (AST), lactate dehydrogenase (LDH), liver glutathione (GSH), glutathione transferase (GST), glutathione peroxidase (GPx), superoxide dismutase (SOD) and catalase (CAT) levels were determined after mice were sacrificed. Lipid peroxidation and histological examination were performed. The effect of Tan on the Nrf2 pathway was detected by western blotting and qRT-PCR., Results: Tan pretreatment reduced APAP-induced liver injury. Tan was able to activate Nrf2 and increase the expression levels of Nrf2 target genes, including glutamate-cysteine ligase catalytic subunit (GCLC), NAD(P)H:quinine oxidoreductase 1 (NQO1) and hemeoxygenase-1 (HO-1), in a dose-dependent manner in HepG2 cells. Consistent with our observations in HepG2 cells, Tan increased nuclear Nrf2 accumulation and upregulated mRNA and protein levels of the Nrf2 target genes GCLC, NQO1 and HO-1 in C57BL/6J mice compared with mice treated with APAP alone., Conclusions: Our results demonstrate that Tan pretreatment could protect the liver from APAP-induced hepatic injury by activating the Nrf2 pathway. Tan may provide a new strategy for the protection against APAP-induced liver injury., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published
2016
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187. Activation of the farnesoid X receptor attenuates triptolide-induced liver toxicity.

Author

Jin J, Sun X, Zhao Z, Wang W, Qiu Y, Fu X, Huang M, and Huang Z

Subjects
Animals, Epoxy Compounds toxicity, Gene Knockdown Techniques, Hep G2 Cells, Humans, Isoxazoles pharmacology, Male, Mice, Inbred BALB C, RNA, Small Interfering, Chemical and Drug Induced Liver Injury metabolism, Diterpenes toxicity, Liver drug effects, Phenanthrenes toxicity, Receptors, Cytoplasmic and Nuclear metabolism
Abstract

Background: Triptolide, an active ingredient extracted from the Chinese herb Tripterygium wilfordii Hook f., has multiple pharmacological properties, including anti-inflammatory, immune-modulatory, and anti-proliferative activities. However, the hepatotoxicity of triptolide always limits its clinical applications., Hypothesis/purpose: Farnesoid X receptor (FXR) is a ligand-activated transcription factor that plays a key role in hepatoprotection through the maintenance of liver metabolism homeostasis. This study explored the role of FXR in triptolide-induced cytotoxicity and investigated whether activation of FXR can protect against triptolide-induced liver injury., Study Design: The role of FXR in triptolide-induced cytotoxicity was investigated in HepG2 cells. In addition, the protective effect of the selective FXR agonist GW4064 on triptolide-induced hepatotoxicity was explored in BALB/c mice., Methods: HepG2 cells were transient transfected with FXR expression plasmid or FXR-siRNA. The cytotoxicity was compared using the MTT assay. The extent of liver injury was assessed by histopathology and serum aminotransferases. The expression of FXR and its target genes were detected by Western blot and qRT-PCR., Results: The transient overexpression of FXR protected against triptolide-induced cell death, whereas FXR knockdown with a specific small interfering RNA resulted in increased cytotoxicity. In BALB/c mice, treatment with the FXR agonist GW4064 attenuated triptolide-induced liver dysfunction, structural damage, glutathione depletion and lipid peroxidation. Moreover, the livers of GW4064-treated mice showed increased expression of FXR and several related target genes involved in phase II and phase III xenobiotic metabolism., Conclusion: Taken together, these results indicate that activation of FXR attenuates triptolide-induced hepatotoxicity and provide direct implications for the development of novel therapeutic strategies against triptolide-induced hepatotoxicity., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published
2015
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188. Protective effect of Wuzhi tablet (Schisandra sphenanthera extract) against cisplatin-induced nephrotoxicity via Nrf2-mediated defense response.

Author

Jin J, Li M, Zhao Z, Sun X, Li J, Wang W, Huang M, and Huang Z

Subjects
Animals, Antineoplastic Agents adverse effects, Cell Line, Glutamate-Cysteine Ligase metabolism, Glutathione metabolism, Heme Oxygenase-1 metabolism, Humans, Kidney pathology, Kidney Diseases chemically induced, Lipid Peroxidation, Male, Mice, NAD(P)H Dehydrogenase (Quinone) metabolism, Oxidative Stress, Reactive Oxygen Species metabolism, Schisandra chemistry, Tablets, Cisplatin adverse effects, Drugs, Chinese Herbal pharmacology, Kidney drug effects, NF-E2-Related Factor 2 metabolism
Abstract

Cisplatin is a potent anti-cancer agent for various types of tumors. However, the clinical use of cisplatin is often limited by its nephrotoxicity. This study reports that WZ tablet (WZ, a preparation of an ethanol extract of Schisandra sphenanthera) mitigates cisplatin-induced toxicity in renal epithelial HK-2 cells and in mice. Pretreatment of HK-2 cells with WZ ameliorated cisplatin-induced cytotoxicity caused by oxidative stress, as was demonstrated by reductions in the levels of reactive oxygen species (ROS) and increased levels of glutathione (GSH). WZ facilitated the nuclear accumulation of the transcription factor NF-E2-related factor 2 (Nrf2) and the subsequent expression of its target genes such as, Nad(p)h: quinine oxidoreductase 1 (NQO1), heme oxygenase-1 (HO-1) and glutamate cysteine ligase (GCL). Protective effects of WZ on cisplatin-induced nephrotoxicity were also observed in mice. WZ attenuated cisplatin-induced renal dysfunction, structural damage and oxidative stress. The nuclear accumulation of Nrf2 and its target genes were increased by WZ treatment. Taken together, these findings demonstrated WZ have a protective effect against cisplatin-induced nephrotoxicity by activation of the Nrf2 mediated defense response, which is of significant importance for therapeutic intervention in cisplatin induced renal injury., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published
2015
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189. The associations between the MCP-1 -2518 A/G polymorphism and ischemic heart disease and ischemic stroke: a meta-analysis of 28 research studies involving 21,524 individuals.

Author

Cai G, Zhang B, Weng W, Shi G, and Huang Z

Subjects
Aged, Genetic Predisposition to Disease, Humans, Middle Aged, Odds Ratio, Publication Bias, Chemokine CCL2 genetics, Myocardial Ischemia genetics, Polymorphism, Single Nucleotide, Stroke genetics
Abstract

Epidemiologic studies have been performed to explore the relationship between MCP-1 polymorphism and ischemic heart disease (IHD) and ischemic stroke (IS). But, the results are not consistent. Because of the poor effect of each individual study, we've performed a systematic review and a meta-analysis. A comprehensive search was carried out from PubMed, Embase, Foreign Medical Journal Service (FMJS), China National Knowledge Infrastructure and Wanfang Data. Odds ratios (OR) with 95% confidence interval (CI) were used to evaluate the strength of associations between the MCP-1 A-2518G polymorphism (rs1024611) and IHD and IS susceptibilities. The pooled OR was calculated by the allelic model (G vs A), the additive model (GG vs AA), the dominant model (GG+GA vs AA) and the recessive model (GG vs AA+GA), respectively. The homogeneity among studies was checked using Cochrane Q statistic. The stability of results was checked by one-way sensitivity analysis. The publication bias between studies was examined by Begg's funnel plots and Egger's test. 28 eligible case-control studies met all the criteria and were involved in the present meta-analysis, including a total of 8,901 cases and 12,623 controls. Overall, the MCP-1 A-2518G polymorphism was significantly associated with the IHD susceptibility. The pooled OR was 1.27 (95% CI 1.09-1.48, P = 0.002) in the dominant model, 1.20 (95% CI 1.07-1.35, P = 0.001) in the allelic model, 1.25 (95% CI 1.05-1.50, P = 0.015) in the recessive model and 1.39 (95% CI 1.10-1.75, P = 0.005) in the additive model. At the same time, the MCP-1 A-2518G polymorphism was significantly associated with the IS susceptibility. The pooled OR was 1.72 (95% CI 1.12-2.65, P = 0.013) in the dominant model, 1.39 (95% CI 1.12-1.74, P = 0.003) in the allelic model, 1.59 (95% CI 1.30-1.93, P = 0.000) in the recessive model, and 2.33 (95% CI 1.76-3.08, P = 0.000) in the additive model, respectively. No significant publication bias was found in the present meta-analysis. The results of the present meta-analysis suggest that MCP-1 gene A-2518G polymorphism may be associated with the IHD and IS susceptibilities. But the positive result exists in relatively small sample size subgroup.

Published
2015
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190. Automatic recognition of small cell carcinoma based on the self-organizing neural network.

Author

Li F, Hu K, Su W, Li S, Cai N, Huang Z, and Hu Y

Subjects
Adult, Aged, Algorithms, Female, Humans, Lymphocytes pathology, Male, Middle Aged, Pattern Recognition, Automated, Reproducibility of Results, Sensitivity and Specificity, Carcinoma, Small Cell pathology, Image Interpretation, Computer-Assisted methods, Lung Neoplasms pathology, Neural Networks, Computer
Abstract

In this paper the recognition of Small Cell Carcinoma (SCC) is studied. For each type we select 128 samples for training, and randomly measure 200 cells in each sample. We introduce multi-scale morphology based on centroid coordinates to extract the boundaries of nuclei and obtain feature images of nuclei. The features of lung cancer cells are described by morphological and colorimetrical parameters, which is valuable to recognize SCC. Then the architecture of self-organizing feature mapping (SOFM) neural network is studied for recognition of SCC. The weights of the network are adjusted by self-organizing competition, and finally inputted patterns are classified. This algorithm has the advantage of parallelism and fast-convergence, and may simplify the analysis of SCC. Clinical experiment results show that the correctness ratio of this system may reach 95.3% while recognizing lung cancer cell types. Our work is significant to the pathological researches of lung cancer, assistant clinic diagnosis, and assessment of therapeutic effects. Meanwhile a software system named as SCC. LUNG is established for automatic analysis., (Copryright 2004 IOS Press)

Published
2004

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