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31.
目的:探究高龄患者泌尿系统感染大肠埃希菌对常用药物的耐药性,指导临床医生合理用药。方法:按照标准操作规程采集我院泌尿系统感染高龄患者的尿液,作常规尿标本培养和分离,应用微生物分析仪进行细菌鉴定,采用纸片扩散法进行药物敏感试验,采用纸片扩散法和双纸片确证法完成产超广谱β-内酰胺酶菌株的检测。结果:129株大肠埃希菌中,检测出产超广谱β-内酰胺酶菌株有62株,占48.1%;在17种常用抗生素敏感试验中,亚胺培南敏感性最高(100%),无耐药株出现,对第一、二、三和四代头孢类抗生素均出现了不同程度的耐药性,对氨苄西林、四环素和哌拉西林高度耐药(均超过了95%)。结论:泌尿系统感染高龄患者大肠埃希菌对临床常用抗生素耐药性逐年升高,且产超广谱β-内酰胺酶菌株也逐渐增多,这就要求临床医生严格合理应用抗生素,尽量避免耐药菌株的出现。 相似文献
32.
Chang Ge Huakang Sheng Xin Chen Xiaolin Shen Xinxiao Sun Yajun Yan Jia Wang Qipeng Yuan 《Biotechnology journal》2020,15(6)
Quorum sensing (QS) is a ubiquitous cell–cell communication mechanism in microbes that coordinates population‐level cell behaviors, such as biofilm production, virulence, swarming motility, and bacterial persistence. Efforts to engineer QS systems to take part in metabolic network regulation represent a promising strategy for synthetic biology and pathway engineering. Recently, design, construction, and implementation of QS circuits for programmed control of bacterial phenotypes and metabolic pathways have gained much attention, but have not been reviewed recently. In this article, the architectural organizations and genetic contributions of the naturally occurring QS components to understand the mechanisms are summarized. Then, the most recent progress in application of QS toolkits to develop synthetic networks for novel cell behaviors creation and metabolic pathway engineering is highlighted. The current challenges in large‐scale application of these QS circuits in synthetic biology and metabolic engineering fields are discussed and future perspectives for further engineering efforts are provided. 相似文献
33.
为探讨胰岛素对神经细胞中神经型一氧化氮合酶(nNOS)的表达及活性的影响,应用流式细胞术、原位杂交、电子自旋共振等技术方法研究胰岛素对PC12细胞中神经型一氧化氮合酶的影响.胰岛素作用PC12细胞9 h 后,神经型一氧化氮合酶的免疫荧光强度显著升高,且呈浓度依赖关系,其最大效应为对照的(155±13)%(P<0.01, n=3, t-test).加入胰岛素(16 mU/L, 6 h)也能够显著上调nNOS mRNA的表达,为对照的(182±13)%(P<0.01, n=3, t-test).另外加入胰岛素(16 mU/L)作用9 h后,神经型一氧化氮合酶的活性也显著升高,为对照的(167±15)%(P<0.01, n=4, t-test).由上述结果可知,胰岛素对PC12细胞的神经型一氧化氮合酶的表达及活性有上调作用. 相似文献
34.
Carper MJ Cade WT Cam M Zhang S Shalev A Yarasheski KE Ramanadham S 《American journal of physiology. Endocrinology and metabolism》2008,294(3):E558-E567
Insulin resistance, hyperglycemia, and type 2 diabetes are among the sequelae of metabolic syndromes that occur in 60-80% of human immunodeficiency virus (HIV)-positive patients treated with HIV-protease inhibitors (PIs). Studies to elucidate the molecular mechanism(s) contributing to these changes, however, have mainly focused on acute, in vitro actions of PIs. Here, we examined the chronic (7 wk) in vivo effects of the PI indinavir (IDV) in male Zucker diabetic fatty (fa/fa) (ZDF) rats. IDV exposure accelerated the diabetic state and dramatically exacerbated hyperglycemia and oral glucose intolerance in the ZDF rats, compared with vehicle-treated ZDF rats. Oligonucleotide gene array analyses revealed upregulation of suppressor of cytokine signaling-1 (SOCS-1) expression in insulin-sensitive tissues of IDV rats. SOCS-1 is a known inducer of insulin resistance and diabetes, and immunoblotting analyses revealed increases in SOCS-1 protein expression in adipose, skeletal muscle, and liver tissues of IDV-administered ZDF rats. This was associated with increases in the upstream regulator TNF-alpha and downstream effector sterol regulatory element-binding protein-1 and a decrease in IRS-2. IDV and other PIs currently in clinical use induced the SOCS-1 signaling cascade also in L6 myotubes and 3T3-L1 adipocytes exposed acutely to PIs under normal culturing conditions and in tissues from Zucker wild-type lean control rats administered PIs for 3 wk, suggesting an effect of these drugs even in the absence of background hyperglycemia/hyperlipidemia. Our findings therefore indicate that induction of the SOCS-1 signaling cascade by PIs could be an important contributing factor in the development of metabolic dysregulation associated with long-term exposures to HIV-PIs. 相似文献
35.
36.
It has been known that Rho-associated protein kinase (ROCK) signaling regulates the migration of vascular smooth muscle cells (VSMCs). However, the isoform-specific roles of ROCK and its underlying mechanism in VSMC migration are not well understood. The current study thus aimed to investigate the roles of ROCK1/2 and their relationship to the MAPK signaling pathway in platelet-derived growth factor (PDGF)-induced rat aorta VSMC migration by manipulating ROCK gene expression. The results revealed that ROCK1 small interfering ribonucleic acid (siRNA) rather than ROCK2 siRNA decreased PDGF-BB-generated VSMC migration, and upregulation of ROCK1 expression via transfection of constructed pEGFP-C1/ROCK1 plasmid further increased the migration of PDGF-BB-treated VSMCs. In PDGF-treated VSMCs, ROCK1 siRNA did not affect the phosphorylation levels of ERK and p38 in the cytoplasm, but decreased the level of ERK phosphorylation in the nucleus. These findings demonstrate that activated ROCK1 can promote VSMC migration through facilitating phosphorylation and nuclear translocation of ERK protein. 相似文献
37.
Agnes Simonyi Yan He Wenwen Sheng Albert Y. Sun W. Gibson Wood Gary A. Weisman Grace Y. Sun 《Molecular neurobiology》2010,41(2-3):73-86
Alzheimer’s disease (AD) is marked by an increase in the production of extracellular beta amyloid plaques and intracellular neurofibrillary tangles associated with a decline in brain function. Increases in oxidative stress are regarded as an early sign of AD pathophysiology, although the source of reactive oxygen species (ROS) and the mechanism(s) whereby beta amyloid peptides (Aβ) impact oxidative stress have not been adequately investigated. Recent studies provide strong evidence for the involvement of NADPH oxidase and its downstream oxidative signaling pathways in the toxic effects elicited by Aβ. ROS produced by NADPH oxidase activate multiple signaling pathways leading to neuronal excitotoxicity and glial cell-mediated inflammation. This review describes recent studies demonstrating the neurotoxic effects of Aβ in conjunction with ROS produced by NADPH oxidase and the downstream pathways leading to activation of cytosolic phospholipase A2 (PLA2) and secretory PLA2. In addition, this review also describes recent studies using botanical antioxidants to protect against oxidative damage associated with AD. Investigating the metabolic and signaling pathways involving Aβ NADPH oxidase and PLA2 can help understand the mechanisms underlying the neurodegenerative effects of oxidative stress in AD. This information should provide new therapeutic approaches for prevention of this debilitating disease. 相似文献
38.
39.
Identification of the motifs and amino acids in aggrecan G1 and G2 domains involved in product secretion 总被引:4,自引:0,他引:4
Kiani C Chen L Lee V Zheng PS Wu Y Wen J Cao L Adams ME Sheng W Yang BB 《Biochemistry》2003,42(23):7226-7237
Members of the large aggregating chondroitin sulfate proteoglycans are characterized by an N-terminal fragment known as G1 domain, which is composed of an immunoglobulin (IgG)-like motif and two tandem repeats (TR). Previous studies have indicated that the expressed product of aggrecan G1 domain was not secreted. Here we demonstrated that the inability of G1 secretion was associated with the tandem repeats but not the IgG-like motif, and specifically with TR1 of aggrecan. We also demonstrated that the G2 domain, a domain unique to aggrecan, had a similar effect on product secretion. The sequence of TR1 of G1 is highly conserved across species, which suggested similar functions played by these motifs. In a yeast two-hybrid assay, TR1 interacted with the calcium homeostasis endoplasmic reticulum protein. Deletion/mutation experiments indicated that the N-terminal fragment of TR1, in particular, the amino acids H(2)R(4) of this motif were key to its effect on product secretion. However, the N-terminal 55 amino acids were required to exert this function. Taken together, our study suggests a possible molecular mechanism for the function of the tandem repeats in product processing. 相似文献
40.
Sheng Peng Yan Zhang Jiannan Zhang Hua Wang Bingxu Ren 《Molecular biology reports》2011,38(1):453-460
The plasticity of the central nervous system helps form the basis for the neurobiology of learning and memory. Long-term potentiation
(LTP) is the main form of synaptic plasticity, reflecting the activity level of the synaptic information storage process,
and provides a good model to study the underlying mechanisms of learning and memory. The glutamate receptor-mediated signal
pathway plays a key role in the induction and maintenance of LTP, and hence the regulation of learning and memory. The progress
in the understanding of the glutamate receptors and related signal transduction systems in learning and memory research are
reviewed in this article. 相似文献