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Aim To screen the mechanism of Yiqi- Bushen-Tiaozhi formula ( YBTF) in treating non-alcoholic steatohepatitis ( NASH) by network pharmacology analysis and to verify it by animal experiments. Methods TCMSP database and HPLC-MS analysis were used to mine the active ingredients and targets of YBTF; GSE89632 dataset was used to screen the differential expressed genes ( DEGs) between the normal and the NASH groups; GeneCards and DisGeNET databases were used to screen NASH-related disease genes. The intersection genes of the three are the target genes of YBTF treatment of NASH. The intersection gene of the three sets of genes was the target gene of YBTF in treating NASH. GO, KEGG, DO enrichment analysis, protein-protein interaction network, and network topology analysis were used to identify the hub genes of YBTF in the treatment of NASH. Molecular docking was used to judge whether cmcial target genes, active ingredients could be combined and exer ted a curative effect; Oil red 0 and HE staining were used to determine whether YBTF could treat NASH mice; (3-galactosidase ( SA- (3-Gal) test was used to determine whether NASH mice had hepatocyte senescence and whether YBTF improved senescence; West-ern blot. Quantitative Real-time PGR ( qRT-PCR) combined with sequencing results were used to verify whether YBTF could regulate the expression of the essential target genes screened from the protein and RNA levels. Results YBTF could improve cellular aging and treat NASH through CDKN1A. Conclusion The rational application of Traditional Chinese medicine (TCM) network pharmacology and experiments can provide new ideas and directions for studying the mechanism of YBTF.
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@#Expression and regulation of genetic genes determine the senescent process. Generally, aging has been regarded as an irreversible process. Along with age increasing, each organ of the body including immune system experiences senescence. Immunosenescence promotes the age-related diseases, such as tumor, cardiovascular diseases, Alzheimer's disease, osteoporosis, and so on. These diseases seriously affect the quality of human life and longevity. How to delay senility, maintain immune function, and keep a good health have become the hot points of social concerns. Inthisreview, by discussing theaging, immunosenescence and its related diseases, aging and tumor treatment as well as anti-aging and disease treatment etc, we explore the mechanisms, prevention and treatment of senescence, senescence-related disease and anti-aging.
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Although a relationship between epigenetics and aging phenotypic changes has been established, a theoretical explanation of the intrinsic connection between the epigenetics and aging is lacking. In this essay, we propose that epigenetic recording of varied cell environment and complex history could be an origin of cellular aging. Through epigenetic modifications, the environment and historical events can induce the chromatin template into an activated or repressive accessible structure, thereby shaping the DNA template into a spectrum of chromatin states. The inner nature of diversity and conflicts born by the cell environment and its historical events are hence recorded into the chromatin template. This could result in a dissipated spectrum of the chromatin state and chaos in overall gene expression. An unavoidable degradation of epigenome entropy, similar to Shannon entropy, would be consequently induced. The resultant disorder in epigenome, characterized by corrosion of epigenome entropy as reflected in chromatin template, can be stably memorized and propagated through cell division. Furthermore, the hysteretic nature of epigenetics responding to the emerging environment could exacerbate the degradation of epigenome entropy. As well as stochastic errors, we propose that outside entropy (or chaos) derived from the varied environment and complex cell history, gradually input and imprinted into the chromatin via epigenetic modifications, would lead inevitably to cellular aging, the extent of which could be aggravated by hysteresis of epigenetics without error erasing and correction.
ABSTRACT
Although a relationship between epigenetics and aging phenotypic changes has been established, a theoretical explanation of the intrinsic connection between the epigenetics and aging is lacking. In this essay, we propose that epigenetic recording of varied cell environment and complex history could be an origin of cellular aging. Through epigenetic modifications, the environment and historical events can induce the chromatin template into an activated or repressive accessible structure, thereby shaping the DNA template into a spectrum of chromatin states. The inner nature of diversity and conflicts born by the cell environment and its historical events are hence recorded into the chromatin template. This could result in a dissipated spectrum of the chromatin state and chaos in overall gene expression. An unavoidable degradation of epigenome entropy, similar to Shannon entropy, would be consequently induced. The resultant disorder in epigenome, characterized by corrosion of epigenome entropy as reflected in chromatin template, can be stably memorized and propagated through cell division. Furthermore, the hysteretic nature of epigenetics responding to the emerging environment could exacerbate the degradation of epigenome entropy. As well as stochastic errors, we propose that outside entropy (or chaos) derived from the varied environment and complex cell history, gradually input and imprinted into the chromatin via epigenetic modifications, would lead inevitably to cellular aging, the extent of which could be aggravated by hysteresis of epigenetics without error erasing and correction.
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OBJECTIVES: Cigarette smoking had been recorded as the main cause of impaired endothelium- dependent vasodilation in smokers by reducing nitric oxide (NO), a production of endothelial nitric oxide synthase (eNOS). However, the mechanism of NO impairment via eNOS activity is unclear until now. In this study, cell passage is suggested to be a relevant factor to eNOS expression under cigarette smoking stress. METHODS: Bovine aortic endothelial cells (BAECs) were chosen as the research subject with passages ranking from 6 to 9 (6P to 9P). After exposure of cigarette smoking extract (CSE) solution, MTT assay and Western blot method were performed to check the cell viability as well as eNOS protein concentration. In these experiments, four concentrations of CSE at 0.5, 1, 2, and 4% were selected for treatment. RESULTS: Our results showed that cells almost died at 4% of CSE. Besides, eNOS protein mass had a linear decrease under the increase of CSE concentration. In addition, the effect of CSE on eNOS expression was dissimilar between different passages. CONCLUSIONS: This study indicated that CSE had effect on both cell viability and eNOS expression. Besides, a reduction in protein mass was matched with the decrease of cell viability due to CSE tress. Last but not least, the response of eNOS protein to different concentration of CSE at different passages was disparate, making the hypothesis about cell passage related inhibition of eNOS caused by CSE solution.
Subject(s)
Humans , Blotting, Western , Cellular Senescence , Cell Survival , Endothelial Cells , Nitric Oxide , Nitric Oxide Synthase Type III , Nitric Oxide Synthase , Research Subjects , Smoking , VasodilationABSTRACT
OBJECTIVE: Human diploid fibroblasts undergo a limited number of cellular divisions in culture and progressively reach a state of irreversible growth arrest, a process termed cellular aging. The beneficial effects of vitamin E in aging have been established, but studies to determine the mechanisms of these effects are ongoing. This study determined the molecular mechanism of γ-tocotrienol, a vitamin E homolog, in the prevention of cellular aging in human diploid fibroblasts using the expression of senescence-associated genes. METHODS: Primary cultures of young, pre-senescent, and senescent fibroblast cells were incubated with γ-tocotrienol for 24 h. The expression levels of ELN, COL1A1, MMP1, CCND1, RB1, and IL6 genes were determined using the quantitative real-time polymerase chain reaction. Cell cycle profiles were determined using a FACSCalibur Flow Cytometer. RESULTS: The cell cycle was arrested in the G0/G1 phase, and the percentage of cells in S phase decreased with senescence. CCND1, RB1, MMP1, and IL6 were upregulated in senescent fibroblasts. A similar upregulation was not observed in young cells. Incubation with γ-tocotrienol decreased CCND1 and RB1 expression in senescent fibroblasts, decreased cell populations in the G0/G1 phase and increased cell populations in the G2/M phase. γ-Tocotrienol treatment also upregulated ELN and COL1A1 and downregulated MMP1 and IL6 expression in young and senescent fibroblasts. CONCLUSION: γ-Tocotrienol prevented cellular aging in human diploid fibroblasts, which was indicated by the modulation of the cell cycle profile and senescence-associated gene expression.
Subject(s)
Humans , Antioxidants/pharmacology , Cellular Senescence/drug effects , Cell Cycle/drug effects , Chromans/pharmacology , Fibroblasts/drug effects , Vitamin E/analogs & derivatives , beta-Galactosidase/analysis , Analysis of Variance , Biomarkers/analysis , Cells, Cultured , Cellular Senescence/genetics , Cell Cycle/genetics , Collagen Type I/genetics , Collagen Type I/metabolism , Cyclin D1/genetics , Cyclin D1/metabolism , Diploidy , Fibroblasts/cytology , Fibroblasts/metabolism , /genetics , /metabolism , Matrix Metalloproteinase 1/genetics , Matrix Metalloproteinase 1/metabolism , RNA, Messenger/metabolism , Retinoblastoma Protein/genetics , Retinoblastoma Protein/metabolism , Up-Regulation/drug effects , Vitamin E/pharmacology , beta-Galactosidase/metabolismABSTRACT
Various theories try to explain the biological aging by changing the functions and structure of organic systems and cells. During lifetime, free radicals in the oxidative stress lead to lipid peroxidation of cellular membranes, homeostasis imbalance, chemical residues formation, gene mutations in DNA, dysfunction of certain organelles, and the arise of diseases due to cell death and/or injury. This review describes the action of oxidative stress in the cells aging process, emphasizing the factors such as cellular oxidative damage, its consequences and the main protective measures taken to prevent or delay this process. Tests with antioxidants: vitamins A, E and C, flavonoids, carotenoids and minerals, the practice of caloric restriction and physical exercise, seeking the beneficial effects on human health, increasing longevity, reducing the level of oxidative stress, slowing the cellular senescence and origin of certain diseases, are discussed.
Diferentes teorias tentam explicar o envelhecimento biológico através da alteração das funções e estrutura dos sistemas orgânicos e células. Ao longo da vida, os radicais livres presentes no estresse oxidativo conduzem à peroxidação dos lipídios das membranas celulares, desequilíbrio da homeostase, formação de resíduos químicos, mutações gênicas no DNA, disfunção de certas organelas, bem como ao surgimento de doenças devido à lesão e/ou morte celular. Nesta revisão descreve-se a ação do estresse oxidativo no processo de envelhecimento das células, enfatizando fatores como os danos oxidativos celulares, suas conseqüências e as principais medidas protetoras adotadas para se prevenir ou retardar este processo. Testes com antioxidantes: vitaminas A, E e C, flavonóides, carotenóides e minerais; a prática de restrição calórica e exercícios físicos, que buscam efeitos benéficos sobre a saúde humana, aumentando a longevidade, reduzindo o nível de estresse oxidativo, retardando a senescência celular e a origem de certas doenças, são discutidos.