8 results on '"Ge, Rili"'
Search Results
2. Tsantan Sumtang attenuated chronic hypoxia-induced right ventricular structure remodeling and fibrosis by equilibrating local ACE-AngII-AT1R/ACE2-Ang1-7-Mas axis in rat
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Dang, Zhancui, Su, Shanshan, Jin, Guoen, Nan, Xingmei, Ma, Lan, Li, Zhanqiang, Lu, Dianxiang, and Ge, Rili
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- 2020
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3. Effect of aqueous extract of Sanweitanxiang powder on calcium homeostasis protein expression in ischemic-reperfusion injury rat heart
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Yang, Mei, Zhang, Shuna, Ren, Shicun, Wang, Jinjun, Yun, Haixia, Yong, Sheng, Zhang, Dejun, Yang, Quanyu, Kou, Yiying, Lu, Dianxiang, and Ge, Rili
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- 2013
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4. Newsights of endoplasmic reticulum in hypoxia.
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Guan, Lu, Ge, Rili, and Ma, Shuang
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ENDOPLASMIC reticulum , *UNFOLDED protein response , *HYPOXEMIA , *MOLECULAR chaperones , *ION transport (Biology) - Abstract
The endoplasmic reticulum (ER) is important to cells because of its essential functions, including synthesizing three major nutrients and ion transport. When cellular homeostasis is disrupted, ER quality control (ERQC) system is activated effectively to remove misfolded and unfolded proteins through ER-phagy, ER-related degradation (ERAD), and molecular chaperones. When unfolded protein response (UPR) and ER stress are activated, the cell may be suffering a huge blow, and the most probable consequence is apoptosis. The membrane contact points between the ER and sub-organelles contribute to communication between the organelles. The decrease in oxygen concentration affects the morphology and structure of the ER, thereby affecting its function and further disrupting the stable state of cells, leading to the occurrence of disease. In this study, we describe the functions of ER-, ERQC-, and ER-related membrane contact points and their changes under hypoxia, which will help us further understand ER and treat ER-related diseases. [Display omitted] • The structure and function of the ER stable state is very important for cells. Hypoxia affects the ER. • ERQCs are important for maintaining ER function. ERQCs include Ubiquitin-proteasome system, ER phagocytosis, ER-related degradation (ERAD), Molecular chaperone, Unfolded protein response (UPR), ER stress. Hypoxia affects ERQC. • ER-related MCS have ER and mitochondrial contact points (MERC), ER and Golgi contact points (ERGIC), and ER and lipid droplets (ER-LD). Hypoxia affects MCS. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Antibiotic intervention exacerbated oxidative stress and inflammatory responses in SD rats under hypobaric hypoxia exposure.
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Liao, Yang, Chen, Zheng, Yang, Yingkui, Shen, Di, Chai, Shatuo, Ma, Yan, Ge, Rili, Wang, Xun, Wang, Shuxiang, and Liu, Shujie
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OXIDATIVE stress , *INFLAMMATION , *HYPOXEMIA , *RATS , *SULFATE-reducing bacteria , *HOMEOSTASIS , *GUT microbiome , *HYPOXIA-inducible factor 1 - Abstract
The gut microbiota plays a crucial role in maintaining host nutrition, metabolism, and immune homeostasis, particularly in extreme environmental conditions. However, the regulatory mechanisms of the gut microbiota in animal organisms hypobaric hypoxia exposure require further study. We conducted a research by comparing SD rats treated with an antibiotic (ABX) cocktail and untreated SD rats that were housed in a low-pressure oxygen chamber (simulating low pressure and hypoxic environment at 6000 m altitude) for 30 days. After the experiment, blood, feces, and lung tissues from SD rats were collected for analysis of blood, 16S rRNA amplicon sequencing, and non-targeted metabolomics. The results demonstrated that the antibiotic cocktail-treated SD rats exhibited elevated counts of neutrophil (Neu) and monocyte (Mon) cells, an enrichment of sulfate-reducing bacteria (SBC), reduced levels of glutathione, and accumulated phospholipid compounds. Notably, the accumulation of phospholipid compounds, particularly lysophosphatidic acid (LPA), lipopolysaccharide (LPS), and lysophosphatidylcholine (LPC), along with the aforementioned changes, contributed to heightened oxidative stress and inflammation in the organism. In addition, we explored the resistance mechanisms of SD rats in low-oxygen and low-pressure environments and found that increasing the quantity of the Prevotellaceae and related beneficial bacteria (especially Lactobacillus) could reduce oxidative stress and inflammation. These findings offer valuable insights into enhancing the adaptability of low-altitude animals under hypobaric hypoxia exposure. To investigate the impacts of in hypobaric hypoxia exposure on animal physiological functions and potential biological regulatory mechanisms, we conducted a research by comparing SD rats treated with an antibiotic (ABX) cocktail and untreated SD rats that were housed in a low-pressure oxygen chamber (simulating low pressure and hypoxic environment at 6000 m altitude) for 30 days. In our study, we discovered that the antibiotic intervention worsened oxidative stress and inflammatory responses in SD rats under hypobaric hypoxia exposure. We further investigated the resistance mechanisms of SD rats in low-oxygen and low-pressure environments and identified that increasing the abundance of Prevotellaceae and other beneficial bacteria, particularly Lactobacillus, could alleviate oxidative stress and inflammation. These findings offer valuable insights into enhancing the adaptability of low-altitude animals under hypobaric hypoxia exposure. [Display omitted] • The gut microbiota plays a crucial role in maintaining host nutrition, metabolism, and immune homeostasis, particularly in extreme environmental conditions. However, the regulatory mechanisms of the gut microbiota in animal organisms hypobaric hypoxia exposure require further study. In this study, we employed a combined strategy of 16S and metabolomics analyses. We aimed to investigate the impacts of Antibiotic (ABx) cocktail on oxidative stress and inflammatory response in Sprague-Dawley (SD) rats exposed to hypobaric hypoxia exposure, exploring the resistance mechanisms of SD rats in low-oxygen and low-pressure environments. In summary, we have found that under hypobaric hypoxia exposure, antibiotic intervention exacerbates oxidative stress and body inflammation in SD rats. On the other hand, SD rats can mitigate oxidative stress and inflammation by increasing the abundance of beneficial bacteria such as Prevotellaceae and Lactobacillus in their bodies. These findings offer insights into enhancing the adaptability of low-altitude animals to high-altitude environments. [ABSTRACT FROM AUTHOR]
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- 2023
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6. Srolo Bzhtang, a traditional Tibetan medicine formula, inhibits cigarette smoke induced airway inflammation and muc5ac hypersecretion via suppressing IL-13/STAT6 signaling pathway in rats.
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Jing, Linde, Su, Shanshan, Zhang, Dejun, Li, Zhanqiang, Lu, Dianxiang, and Ge, Rili
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ANIMAL experimentation , *BENZOPYRANS , *BRONCHOALVEOLAR lavage , *CELLULAR signal transduction , *CYTOKINES , *ENZYME-linked immunosorbent assay , *GENE expression , *GLYCOPROTEINS , *IMMUNOHISTOCHEMISTRY , *INFLAMMATORY mediators , *INTERLEUKINS , *LUNGS , *MEDICINAL plants , *TIBETAN medicine , *MESSENGER RNA , *MUCUS , *ORAL drug administration , *POLYMERASE chain reaction , *RATS , *SMOKING , *STAINS & staining (Microscopy) , *TRANSCRIPTION factors , *TUMOR necrosis factors , *WESTERN immunoblotting , *PLANT extracts , *REVERSE transcriptase polymerase chain reaction , *DEXAMETHASONE , *INDOLE compounds , *FLUORESCENT dyes , *CHRONIC bronchitis , *PHARMACODYNAMICS - Abstract
Abstract Ethnopharmacological relevance Srolo Bzhtang (SBT), a traditional Tibetan medicine formula, was composed of three herbs, Solms-Laubachia eurycarpa , Bergenia purpurascens , Glycyrrhiza uralensis , and one lac, and was first documented in the ancient Tibetan medical work Four Medical Tantras (rGyud-bzhi) in the eighth century AD. It has been widely used to treat lung "phlegm-heat" syndromes such as chronic bronchitis and chronic obstructive pulmonary disease (COPD). Objective The aim of this study was to evaluate the potential influences of aqueous extract of SBT on airway inflammation and mucus secretion and to reveal the underlying mechanism in a rat model of cigarette smoke (CS)-induced chronic bronchitis (CB). Materials and methods Sixty male Sprague-Dawley rats were randomly divided to six groups: control (room air exposure), model (CS exposure), DEX (CS exposure and 0.2 mg/kg/day dexamethasone), and three SBT (CS exposure and 1.67, 2.50, and 3.34 g/kg/day SBT) groups. DEX and the three doses of SBT were administered by oral gavage every day for eight weeks. Pathological changes and mucus expression in the lung tissue were determined by hematoxylin and eosin (H&E), Alcian blue-periodic acid-Schiff (AB-PAS) and immunohistochemical staining. The levels of cytokines in bronchoalveolar lavage fluid (BALF) were assessed by ELISA. Western blot analysis and qRT-PCR were performed to explore the effects of SBT on the expression of IL-13, STAT6 and MUC5AC. Results Pretreatment with SBT attenuated the TNF-α, IL-8, IL-13 expression levels in BALF and the inflammatory cell infiltration in bronchial walls and peribronchial lung tissue. SBT exhibited a dose-dependent downregulation of MUC5AC expression as assessed by AB-PAS and immunohistochemical staining. The protein and mRNA levels of IL-13, STAT6/p-STAT6 and MUC5AC were also downregulated by SBT preconditioning. Conclusion These results for the first time demonstrated that SBT exhibited protective effects on CS-induced airway inflammation and MUC5AC hypersecretion, which might be related to the downregulation of the IL-13/STAT6 signaling pathway. Graphical abstract fx1 [ABSTRACT FROM AUTHOR]
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- 2019
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7. Bioactive fraction of Rhodiola algida against chronic hypoxia-induced pulmonary arterial hypertension and its anti-proliferation mechanism in rats.
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Nan, Xingmei, Su, Shanshan, Ma, Ke, Ma, Xiaodong, Wang, Ximeng, Zhaxi, Dongzhu, Ge, Rili, Li, Zhanqiang, and Lu, Dianxiang
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CELL proliferation , *ANIMAL experimentation , *HYPOXEMIA , *BLOOD pressure , *GENE expression , *RIGHT heart ventricle , *HEMATOCRIT , *HYPERTROPHY , *LIQUID chromatography , *MASS spectrometry , *TIBETAN medicine , *POLYMERASE chain reaction , *PULMONARY artery , *PULMONARY hypertension , *RATS , *WESTERN immunoblotting , *PLANT extracts , *NUCLEAR proteins , *CELL cycle proteins , *DISEASE complications - Abstract
Ethnopharmacological relevance Rhodiola algida var. tangutica (Maxim.) S.H. Fu is a perennial plant of the Crassulaceae family that grows in the mountainous regions of Asia. The rhizome and roots of this plant have been long used as Tibetan folk medicine for preventing high latitude sickness. Aim of the study The aim of this study was to determine the effect of bioactive fraction from R. algida (ACRT) on chronic hypoxia-induced pulmonary arterial hypertension (HPAH) and to understand the possible mechanism of its pharmacodynamic actions. Materials and methods Male Sprague-Dawley rats were separated into five groups: control group, hypoxia group, and hypoxia+ACRT groups (62.5, 125, and 250 mg/kg/day of ACRT). The chronic hypoxic environment was created in a hypobaric chamber by adjusting the inner pressure and oxygen content for 4 weeks. After 4 weeks, major physiological parameters of pulmonary arterial hypertension such as mPAP, right ventricle index (RV/LV+S, RVHI), hematocrit (Hct) levels and the medial vessel thickness (wt%) were measured. Protein and mRNA expression levels of proliferating cell nuclear antigen (PCNA), cyclin D1, p27Kip1 and cyclin-dependent kinase 4 (CDK4)) were detected by western blotting and real time PCR respectively. Chemical profile of ACRT was revealed by ultra performance liquid chromatography coupled with quadrupole time of flight mass spectrometry (UHPLC-Q-TOF-MS/MS). Results The results showed that a successful HPAH rat model was established in a hypobaric chamber for 4 weeks, as indicated by the significant increase in mPAP, RV/LV+S, RV/BW and wt%. Compared with the normal group, administration of ACRT reduced mPAP, right ventricular hypertrophy, pulmonary small artery wall thickness, and damage in ultrastructure induced by hypoxia in rats. PCNA, cyclin D1, and CDK4 expression was reduced ( p <0.05), and p27Kip1 expression increased ( p <0.05) in hypoxia+ACRT groups compared to hypoxia. 38 constituents in bioactive fraction were identified by UHPLC-Q-TOF-MS/MS. Conclusion Our results suggest that ACRT could alleviate chronic hypoxia-induced pulmonary arterial hypertension. And its anti-proliferation mechanism in rats based on decreasing PCNA, cyclin D1, CDK4 expression level and inhibiting p27Kip1 degradation. [ABSTRACT FROM AUTHOR]
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- 2018
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8. Proteomics annotate therapeutic properties of a traditonal Tibetan medicine – Tsantan Sumtang targeting and regulating multiple perturbed pathways.
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Zhou, Yi, Li, Zhanqiang, Tang, Feng, and Ge, Rili
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BIOLOGICAL models , *CLUSTER analysis (Statistics) , *ISCHEMIA , *ASIAN medicine , *MITOCHONDRIA , *PROTEINS , *RATS , *PROTEOMICS , *CONTROL groups - Abstract
Ethnopharmacological relevance Tsantan Sumtang is a traditional Tibetan medicine, which has been traditionally used as medicine for the treatment of cardiopyretic disease which is similar to angina. However, the precise and comprehensive mechanism of it pretreatment remain elusive, so in this study, we used proteomics to systematically analyse the therapeutic mechanism of it. Materal and methods Rats were divided into three groups ( n =6): Tsantan Sumtang group (2 g/kg), the model group, the control group (distilled water, 10 ml/kg). Drugs were treated once a day for 20 days. After the last administration of drug, left anterior descending coronary artery ligation in vivo was performed. 5 days latter, the hearts were harvested and we applied HPLC- MS/MS using an isobaric TMTs proteomics technology to analyse the differentially expressed proteins among groups. Results We comfirmed from the data that 752 proteins were differentially expressed in model group when compared with the control group, 314 proteins showed the recovery of the values by Tsantan Sumtang treatment. The differential proteins were analysed by gene ontology, cellular pathways and clustering analyses, most of them were metabolic enzymes. These included glycolytic enzymes, enzymes implicated in fatty acids oxidation and the tricarboxylic acid cycle, various subunits of different mitochondrial electron transfer chain complexes, as well as enzymes involved in antioxidation system. Conclusion Tsantan Sumtang can target and regulate multiple metabolic perturbed pathways, especially it can partially inhibite fatty acid β-oxidation, stimulate glucose metabolism, oxidative phosphorylation and ATP utilization to protect the injured heart. This helped us to understand the molecular therapeutic mechanisms of Tsantan Sumtang on mycardial ischemia. [ABSTRACT FROM AUTHOR]
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- 2016
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