Your search keyword '"Xiu‐Ming Liu"' showing total 11 results

1. MiR‐146a functions as a potential tumor suppressor in retinoblastoma by negatively regulate neuro‐oncological ventral antigen‐1

Author

Xiu‐Ming Liu, Xiao‐Feng Li, and Jian‐Chang Li

Subjects

apoptosis, invasion, miR‐146a, NOVA1, proliferation, retinoblastoma, Medicine (General), R5-920

Abstract

Abstract MicroRNAs (miRNAs) are dysregulated in many tumors and have been found to play crucial roles in cancer biology. Retinoblastoma is a rare tumor that develops rapidly from a malignant tumor of immature cells in the retina known as photoreceptor progenitors. Our study aimed to explore the role of miR‐146a in the pathology of retinoblastoma. Potential target gene of miR‐146a was predicted by Targetscan. Reverse transcription quantitative polymerase chain reaction (RT‐PCR) showed that miR‐146a was downregulated and ventral nerve tumor antigen 1 (Neuro ‐ oncological ventral antigen 1, NOVA1) was upregulated in retinoblastoma. Luciferase assay confirmed that miR‐146a directly target NOVA1. MiR‐146a knockdown and overexpression experiments were performed and found that miR‐146a could regulate the expression of NOVA1. The miR‐146a knockdown and overexpression experiments were conducted to investigate the biological function of miR‐146a. MiR‐146a was found inhibited the viability, proliferation and invasion of retinoblastoma cell by MTT, EdU, and transwell assays. Flow cytometry was performed for the apoptosis analysis and miR‐146a increased the apoptosis of retinoblastoma cell was found. Above phenomenon can be rescued by overexpression of NOVA1. In conclusion, these results suggest that miR‐146a acts as a tumor suppressor and can act as a potential therapeutic target for retinoblastoma in the future.

Published

2021

2. Protective roles of trehalose in Pleurotus pulmonarius during heat stress response

Author

Xiu-ming LIU, Xiang-li WU, Wei GAO, Ji-bin QU, Qiang CHEN, Chen-yang HUANG, and Jin-xia ZHANG

Subjects

edible mushroom, heat stress, Pleurotus pulmonarius, thermotolerance, trehalose, Agriculture (General), S1-972

Abstract

High temperature is one of the major abiotic stresses that limit edible mushroom growth and development. The understanding of physiological alterations in response to heat stress and the corresponding mechanisms involved is vital for the breeding of heat-resistant edible mushroom strains. Although trehalose functions as a protectant against abiotic stresses in fungi, the putative role of trehalose in thermotolerance remains to be elucidated. In this study, we found heat stress inhibited the growth of two Pleurotus pulmonarius strains, heat-sensitive and less-sensitive, and the inhibition was more significant for the sensitive strain. Heat stress leads to the increase of lipid peroxidation and intracellular trehalose accumulation, with a higher level in the heat-sensitive strain, and this effect is independent of exogenous trehalose application. In addition, a lower concentration of exogenous trehalose application in sensitive strain than in less-sensitive strain was found to alleviate the inhibition of mycelium growth and further increase the intracellular trehalose concentration by heat stress. Thus, the protective effects of trehalose were more remarkable in the sensitive strain. The activities of intracellular trehalose metabolic enzymes, i.e., trehalose-6-phosphate synthase, trehalose phosphorylase and neutral trehalase, were determined, and our data indicated that the changes of these enzymes activities in the sensitive strain were more beneficial to accumulate trehalose than that in the less-sensitive strain.

Published

2019

3. Overexpression of vacuolar proton pump ATPase (V-H+-ATPase) subunits B, C and H confers tolerance to salt and saline-alkali stresses in transgenic alfalfa (Medicago sativa L.)

Author

Fa-wei WANG, Chao WANG, Yao SUN, Nan WANG, Xiao-wei LI, Yuan-yuan DONG, Na YAO, Xiu-ming LIU, Huan CHEN, Xi-feng CHEN, Zhen-min WANG, and Hai-yan LI

Subjects

vacuolar proton pump, salt tolerance, saline-alkali tolerance, alfalfa, Agriculture (General), S1-972

Abstract

The vacuolar proton pump ATPase (V-H+-ATPase), which is a multi-subunit membrane protein complex, plays a major role in the activation of ion and nutrient transport and has been suggested to be involved in several physiological processes, such as cell expansion and salt tolerance. In this study, three genes encoding V-H+-ATPase subunits B (ScVHA-B, GenBank: JF826506), C (ScVHA-C, GenBank: JF826507) and H (ScVHA-H, GenBank: JF826508) were isolated from the halophyte Suaeda corniculata. The transcript levels of ScVHA-B, ScVHA-C and ScVHA-H were increased by salt, drought and saline-alkali treatments. V-H+-ATPase activity was also examined under salt, drought and saline-alkali stresses. The results showed that V-H+-ATPase activity was correlated with salt, drought and saline-alkali stress. Furthermore, V-H+-ATPase subunits B, C and H (ScVHA-B, ScVHA-C and ScVHA-H) from S. corniculata were introduced separately into the alfalfa genome. The transgenic alfalfa was verified by Southern and Northern blot analysis. During salt and saline-alkali stresses, transgenic lines carrying the B, C and H subunits had higher germination rates than the wild type (WT). More free proline, higher superoxide dismutase (SOD) activity and lower malondialdehyde (MDA) levels were detected in the transgenic plants under salt and saline-alkali treatments. Moreover, the ScVHA-B transgenic lines showed greater tolerance to salt and saline-alkali stresses than the WT. These results suggest that overexpression of ScVHA-B, ScVHA-C and ScVHA-H improves tolerance to salt and saline-alkali stresses in transgenic alfalfa.

Published

2016

4. Lignans Extracted from Eucommia Ulmoides Oliv. Protects Against AGEs-Induced Retinal Endothelial Cell Injury

Author

Ban Liu, Chao-Peng Li, Wen-Qi Wang, Shu-Guang Song, and Xiu-Ming Liu

Subjects

Du-zhong (Eucommia ulmoides Oliv.), Microvascular dysfunction, AGEs, Endothelial cell, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Advanced glycation end products (AGEs) could elicit oxidative stress, trigger and aggravate endothelium damage in several ischemic retinopathies including diabetic retinopathy (DR). The leaves of Eucommia ulmoides O., also referred to as Tu-chung or Du-zhong, have been used for the treatment of hypertension and diabetes, showing great antioxidant activity and anti-glycation activity. Lignans is one of the main bioactive components of Eucommia ulmoides. This study mainly investigated the effect of lignans treatment on AGEs-induced endothelium damage. Methods: MTT assay, Hoechst staining, and calcein-AM/ propidium iodide (PI) staining was conducted to determine the effect of lignans treatment on endothelial cell function in vitro. Retinal trypsin digestion, Evans blue assay, isolectin staining, and western blots were conducted to determine the effect of lignans treatment on retinal microvascular function in vivo. Western blot, protein immunoprecipitation (IP), MTT assays, and enzyme activity assay was conducted to detect the effect of ligans treatment on oxidative stress response. Results: Lignans protected retinal endothelial cell against AGEs-induced injury in vitro and diabetes-induced vascular dysfunction in vivo. Lignans treatment could regulate oxidative stress response in retinal endothelial cell line, retina, and liver. Moreover, we showed that NRF2/HO-1 signaling was critical for lignans-mediated oxidative stress regulation. Conclusion: Lignans treatment could protect against endothelial dysfunction in vivo and in vitro via regulating Nrf2/HO-1 signaling. Lignans might be developed as a promising drug for the treatment of diabetes-induced microvascular dysfunction.

Published

2016

5. Protective roles of trehalose in Pleurotus pulmonarius during heat stress response

Author

Wei Gao, Qiang Chen, Jinxia Zhang, Chenyang Huang, Xiu-ming Liu, Ji-bin Qu, and Xiang-li Wu

Subjects

0106 biological sciences, Agriculture (General), Plant Science, 01 natural sciences, Biochemistry, thermotolerance, S1-972, Lipid peroxidation, heat stress, chemistry.chemical_compound, Food Animals, edible mushroom, Trehalase, Mycelium, trehalose, Pleurotus pulmonarius, chemistry.chemical_classification, Ecology, biology, Strain (chemistry), Chemistry, 04 agricultural and veterinary sciences, biology.organism_classification, Trehalose, Enzyme, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Animal Science and Zoology, Agronomy and Crop Science, Intracellular, 010606 plant biology & botany, Food Science

Abstract

High temperature is one of the major abiotic stresses that limit edible mushroom growth and development. The understanding of physiological alterations in response to heat stress and the corresponding mechanisms involved is vital for the breeding of heat-resistant edible mushroom strains. Although trehalose functions as a protectant against abiotic stresses in fungi, the putative role of trehalose in thermotolerance remains to be elucidated. In this study, we found heat stress inhibited the growth of two Pleurotus pulmonarius strains, heat-sensitive and less-sensitive, and the inhibition was more significant for the sensitive strain. Heat stress leads to the increase of lipid peroxidation and intracellular trehalose accumulation, with a higher level in the heat-sensitive strain, and this effect is independent of exogenous trehalose application. In addition, a lower concentration of exogenous trehalose application in sensitive strain than in less-sensitive strain was found to alleviate the inhibition of mycelium growth and further increase the intracellular trehalose concentration by heat stress. Thus, the protective effects of trehalose were more remarkable in the sensitive strain. The activities of intracellular trehalose metabolic enzymes, i.e., trehalose-6-phosphate synthase, trehalose phosphorylase and neutral trehalase, were determined, and our data indicated that the changes of these enzymes activities in the sensitive strain were more beneficial to accumulate trehalose than that in the less-sensitive strain.

Published

2019

6. Effects of olopatadine combined with pranoprofen eye drops on serum immunoglobulin, HA and ECP in patients with allergic conjunctivitis

Author

Jian-Chang Li, Xiu-Ming Liu, and Xin-Huai Xu

Subjects

Pranoprofen Eye Drops, Allergic Conjunctivitis, Olopatadine Eye Drops, Eosinophil Cationic Protein, lcsh:R, Immunoglobulin, lcsh:Medicine, Histamine

Abstract

Objective: To observe the clinical application of olopatadine eye drops alone or combination with pranoprofen eye drops in the treatment of allergic conjunctivitis (AC). The levels of serum immunoglobulin, histamine (HA) and eosinophil cationic protein (ECP) were analyzed. Methods: A total of 90 AC patients were randomly divided into control group (n=45) and observation group (n=45) according to the lottery method. The control group was treated with olopatadine hydrochloride eye drops. On the basis of the control group, the observation group was treated with pranoprofen eye drops. The levels of serum immunoglobulin, HA and ECP were measured in all subjects. Results: There was no significant difference in serum immunoglobulin level between the observation group and the control group before treatment. After treatment, the levels of serum IgG, IgA and IgE in the observation group and the control group were significantly lower than those before treatment. And the observation group was significantly lower than the control group after treatment. There were no significant differences in serum HA and ECP levels between the observation group and the control group before treatment. After treatment, the levels of serum HA and ECP in the observation group and the control group were significantly lower than those before treatment. And the observation group was significantly lower than the control group after treatment. Conclusion: Compared with olopatadine eye drops, olopatadine eye drops combined with pranoprofen eye drops in the treatment of AC patients, can effectively reduce the serum immunoglobulin, HA and ECP levels, which may be the clinical treatment of AC patients Of the effective reference program.

Published

2017

7. The AaDREB1 Transcription Factor from the Cold-Tolerant Plant Adonis amurensis Enhances Abiotic Stress Tolerance in Transgenic Plant.

Author

Jun-Mei Zong, Xiao-Wei Li, Yuan-Hang Zhou, Fa-Wei Wang, Nan Wang, Yuan-Yuan Dong, Yan-Xi Yuan, Huan Chen, Xiu-Ming Liu, Na Yao, and Hai-Yan Li

Subjects

ABIOTIC stress, TRANSGENIC plants, TRANSCRIPTION factors, GENE expression in plants, EFFECT of temperature on plants

Abstract

Dehydration-responsive element binding (DREB) transcription factors (TFs) play important roles in the regulation of plant resistance to environmental stresses and can specifically bind to dehydration-responsive element/C-repeat element (DRE/CRT) proteins (G/ACCGAC) and activate expression of many stress-inducible genes. Here, we cloned and characterized a novel gene (AaDREB1) encoding the DREB1 transcription factor from the cold-tolerant plant Adonis amurensis. Quantitative real-time (qRT)-PCR results indicated that AaDREB1 expression was induced by salt, drought, cold stress, and abscisic acid application. A yeast one-hybrid assay demonstrated that AaDREB1 encodes a transcription activator and specifically binds to DRE/CRT. Furthermore, transgenic Arabidopsis and rice harboring AaDREB1 showed enhanced tolerance to salt, drought, and low temperature. These results indicated that AaDREB1 might be useful in genetic engineering to improve plant stress tolerance. [ABSTRACT FROM AUTHOR]

Published

2016

8. Delineating small karst watersheds based on digital elevation model and eco-hydrogeological principles.

Author

Guang Jie Luo, Shi Jie Wang, Xiao Yong Bai, Xiu Ming Liu, and An Yun Cheng

Subjects

KARST research, WATERSHEDS, DIGITAL elevation models, ECOHYDROLOGY, RIVER ecology

Abstract

Dominated by specific eco-hydrogeological backgrounds, a small watershed delineated by using the traditional method is always inauthentic in karst regions because it cannot accurately reflect the eco-hydrological process of the dual structure of the surface and subsurface. This study proposes a new method for the delineation of small watersheds based on digital elevation models (DEMs) and eco-hydrogeological principles in karst regions. This method is applied to one section of the tributary area (Sancha River) of the Yangtze River in China. By comparing the quantity, shape, superimposition, and characteristics of the internal hydrological process of a small watershed extracted by using the digital elevation model with that extracted by using the proposed method of this study, we conclude that the small karst watersheds extracted by the new method accurately reflect the hydrological process of the river basin. Furthermore, we propose that the minimum unit of the river basin in karst regions should be the watershed, whose exit is the corrosion and corrasion baselevel and a further division of watershed may cause a significant inconsistency with the true eco-hydrological process. [ABSTRACT FROM AUTHOR]

Published

2016

9. A polypyridyl-pyrene based off-on Cd2+ fluorescent sensor for aqueous phase analysis and living cell imaging.

Author

Le-Le Yang, Xiu-Ming Liu, Kun Liu, Huan Liu, Fang-Yao Zhao, Wen-Juan Ruan, Yue Li, Ze Chang, and Xian-He Bu

Subjects

*PYRENE, *CADMIUM compounds, *CELL imaging, *AQUEOUS solutions, *SOLID phase extraction, *CHEMICAL detectors

Abstract

By retaining the quadrapyridyl receptor of polypyridylhexaazatriphenylene (a Cd2+ sensor reported by us) and extending its chromophoric group with pyrene, a chemical sensor (1) was designed and synthesized in this work. This sensor exhibit selective off-on fluorescence response to Cd2+ over other metal ions, and the detection limit is as low as 0.02 μM. The Cd2+ sensing of 1 has high water toleration and can be carried out in the media with the water content up to 70%. Additionally, 1 was successfully applied to the in vivo imaging of intracellular Cd2+ in living HaLa cells, and showed low cytotoxicity and cell membrane permeability in these experiments. These results suggest that 1 has potential application in the Cd2+ analysis of environmental and biological samples. [ABSTRACT FROM AUTHOR]

Published

2014

10. A Highly Selective On/Off Fluorescence Sensor for Cadmium(II).

Author

Qiang Zhao, Rui-Fang Li, Sheng-Kai Xing, Xiu-Ming Liu, Tong-Liang Hu, and Xian-He Bu

Published

2011

11. Dwarf apple MbDREB1 enhances plant tolerance to low temperature, drought, and salt stress via both ABA-dependent and ABA-independent pathways.

Author

Wei Yang, Xiao-Dan Liu, Xiao-Juan Chi, Chang-Ai Wu, Yan-Ze Li, Li-Li Song, Xiu-Ming Liu, Yan-Fang Wang, Fa-Wei Wang, Chuang Zhang, Yang Liu, Jun-Mei Zong, and Hai-Yan Li

Subjects

APPLES, LOW temperatures, DROUGHTS, SALINITY, GENE expression, TRANSGENIC plants, ARABIDOPSIS

Abstract

In higher plants, DREB1/CBF-type transcription factors play an important role in tolerance to low temperatures, drought, and high-salt stress. These transcription factors bind to CRT/DRE elements in promoter regions of target genes, regulating their expression. In this study, we cloned and characterized a novel gene encoding a DREB1 transcription factor from dwarf apple, Malus baccata (GenBank accession number: EF582842). Expression of MbDREB1 was induced by cold, drought, and salt stress, and also in response to exogenous ABA. Subcellular localization analyses revealed that MbDREB1 localizes in the nucleus. A yeast activity assay demonstrated that the MbDREB1 gene encodes a transcription activator, which specifically binds to DRE/CRT elements. Compared with wild-type plants, transgenic Arabidopsis overexpressing MbDREB1 showed increased tolerance to low temperature, drought, and salt stresses. Analysis of the MbDREB1 promoter revealed an ABA-responsive element (ABRE), an inducer of CBF expression 1 (ICE1)-like binding site, two MYB recognition sites, and three stress-inducible GT-1 boxes. GUS activities driven by the MbDREB1 promoter in transgenic Arabidopsis increased in response to ABA, cold temperature, drought, and salt treatments. Interestingly, the expression of both ABA-independent and ABA-dependent stress-induced genes ( COR15a and rd29B, respectively) was activated under normal growth conditions in Arabidopsis overexpressing MbDREB1. These results suggest that MbDREB1 functions as a transcription factor and increases plant tolerance to low temperature, drought, and salt stress via both ABA-dependent and ABA-independent pathways. [ABSTRACT FROM AUTHOR]

Published

2011