MiR-182模拟物提高1型糖尿病小鼠的心脏功能

目的探讨miR-182模拟物对1型糖尿病小鼠心脏功能的影响及可能作用机制。方法 40只8周龄雄性C57小鼠随机分为正常对照组(n=5),miR-182模拟物对照组(n=5),1型糖尿病组(n=15),1型糖尿病+miR-182模拟物治疗组(n=15)。腹腔注射链脲佐菌素(STZ)建立1型糖尿病动物模型。实验于8周末结束,采用小动物用高分辨超声仪测量小鼠心脏功能;运用透射电镜观察心肌组织超微结构改变;利用real-time PCR技术检测心肌组织β-肌球蛋白重链(β-MHC),α-肌球蛋白重链(α-MHC),心房钠尿肽(ANP),I型(Col I)和III型胶原(Col III)mRNA及miR-182 mRNA的表达含量。结果 1miR-182模拟物可改善1型糖尿病小鼠的心脏功能,增加心脏射血分数及左室短轴缩短率(P0.01);2miR-182模拟物可降低糖尿病小鼠心肌组织ANP、Col I、Col III的表达及β/a-MHC比值(P0.01);3miR182模拟物可改善1型糖尿病小鼠心肌超微结构变化,减轻自噬。结论MiR-182模拟物能改善1型糖尿病小鼠的心脏功能,其机制可能与减轻心肌肥大和心肌纤维化,减轻线粒体结构损伤及减轻自噬有关。     

大鼠肝纤维化组织中TGF-β1的研究

目的 观察转化生长因子-β1(transforming growth factor-β1,TGF-β1)在大鼠肝纤维化组织中的动态表达,探讨TGF-β1在肝纤维化中的意义.方法 采用腹腔内注射二甲基亚硝胺(DMN)构建大鼠肝纤维化模型,造模后4天、1周、2周、4周、6周、8周分别检测血清ALT、AST、ALB的变化,同时取肝组织用半定量RT-PCR方法检测TGF-β1 mRNA的表达.采用HE染色及Masson三色染色,光学显微镜下观察肝组织损伤情况.采用单因素方差分析进行多组均数间的比较.结果 肝纤维化模型组血清ALT、AST明显升高,ALB明显下降.TGF-β1 mRNA在对照组大鼠和肝纤维化模型组大鼠肝组织中均有表达.与对照组相比,肝纤维化模型组4天～1周时,TGF-β1 mRNA表达差异无统计学意义(P均＞0.05).2～4周较对照组显著升高(P均＜0.05),4周时达高峰.6～8周较4周时显著下降(P均＜0.05),但仍显著高于对照组(P均＜0.05).8周较6周时下降,差异无统计学意义(P＞0.05).TGF-β1 mRNA表达与肝纤维化病程呈正相关(P＜0.01).结论 TGF-β1 mRNA在正常SD大鼠肝脏中有表达,在肝纤维化大鼠肝组织中表达增加,与大鼠肝脏病理分期正相关.     

鞘氨醇激酶信号途径对骨重建的调节作用

鞘磷脂是哺乳动物细胞质膜的主要成分之一,在其代谢过程中,鞘氨醇激酶（sphingosine kinase, SPHK）是一个关键性的调节酶.鞘磷脂代谢产物鞘鞍醇经SPHK磷酸化作用产生的鞘氨醇-1-磷酸（S1P）是一种具有生物活性的脂类,参与调节骨骼、神经、免疫、血液系统等多种组织细胞的生物学过程.本文阐述了SPHK/S1P信号途径相关分子,并综述了SPHK/S1P通过调节骨组织细胞的形态结构、增殖、迁移、分化形成及凋亡等功能,进而调节骨重建平衡过程的生物学效应及其机制.     

基于TGF-β1/Smad信号通路初步探讨虎杖醇提物对腺嘌呤诱导小鼠肾间质纤维化的改善作用

目的 研究虎杖醇提物(ethanolic extract of Polygonum cuspidatum,PCE)对小鼠肾间质纤维化的保护作用及其潜在分子机制。方法 将50只雄性C57BL/6N小鼠随机分为5组(n=10):正常对照组、模型组、虎杖醇提物低、中、高(75、150、300 mg/kg)剂量组。除正常对照组外,其他各组灌胃腺嘌呤构建肾间质纤维化模型,虎杖醇提物低、中、高剂量组同时灌胃给予不同剂量的虎杖醇提物混悬液。各组经灌胃给药42 d后用生化试剂盒测定血清肌酐(serum creatinine, Scr)和尿素氮(blood urea nitrogen, BUN)水平,通过苏木精伊红染色和Masson三色染色分别观察小鼠肾组织病理学变化及胶原沉积情况,采用Western Blot法检测小鼠肾组织中转化生长因子-β1(transforming growth factor-β1,TGF-β1)、Smad6、α平滑肌肌动蛋白(α-smooth muscle actin, α-SMA)、I型胶原蛋白(Collagen I)的表达情况。结果 与正常对照组比较,模型组小鼠BUN、Sc...     

松果菊苷对db/db糖尿病小鼠心肌的保护作用

糖尿病心肌病(diabetic cardiomyopathy, DCM)是指发生于糖尿病患者,不能用冠心病、高血压性心脏病及其他心脏病变来解释的心肌疾病。目前,DCM的病因和发病机制尚未完全阐明,且缺乏特异性治疗手段。中药管花肉苁蓉提取物松果菊苷(echinacoside, ECH)对心肌细胞具有保护作用。以db/m小鼠为正常对照组(db/m组),db/db小鼠分为模型组(db/db组)和ECH干预组(db/db+ECH组),探讨了ECH对糖尿病db/db小鼠心肌的影响及机制。db/db+ECH组小鼠给予松果菊苷灌胃,db/m组和db/db组小鼠给予0.9%氯化钠溶液灌胃。心脏超声观察心脏功能,Masson染色观察组织胶原纤维含量,逆转录聚合酶链式反应检测Ⅰ型胶原和Ⅲ型胶原mRNA的表达,蛋白质免疫印迹技术检测转化生长因子-β1(transforming growth factor-β1, TGF-β1)、phospho-Smad2(p-Smad2)和phospho-Smad3(p-Smad3)的表达。结果显示,ECH能够改善db/db小鼠左心室肥大和心脏功能,降低胶原沉积(P<...     

Parkin介导的线粒体自噬对1型糖尿病急性心肌梗塞早期损伤的保护作用

目的:观察线粒体自噬在急性心梗(MI)早期的变化及对1型糖尿病(DM)小鼠心肌急性缺血损伤的影响。方法:将100只健康雄性C57BL/6小鼠随机分为5组,对照+假手术组(CS组);1型糖尿病+假手术组(DS组);对照+心肌梗死组(CMI组);1型糖尿病+心肌梗死组(DMI组);1型糖尿病+心肌梗死组+Parkin腺病毒过表达组(DMIPO组),每组20只。检测和比较各组小鼠的心脏功能,心肌梗死面积,心肌细胞凋亡,自噬小体含量以及心肌组织中Parkin和LC3的表达量变化。结果:与CS组相比,CMI组自噬小体含量增多,LC3II的表达量上调,Parkin的表达量明显上调(P0.05)。与CMI组比,DMI组小鼠心功能下降加剧,心梗面积增大,心肌细胞凋亡数量明显增加(P0.05),自噬水平未见明显升高。DMIPO组较DMI组自噬水平升高,心肌梗死面积减小(P0.05),心肌细胞凋亡数量减少(P0.05),心功能改善。结论:1型糖尿病通过抑制Parkin介导的心肌线粒体自噬增加心肌急性缺血损伤易感性,上调Parkin的表达可以减轻1型糖尿病时急性缺血性心肌损伤。     

miR-1252通过靶向调控TGF-β1-PI3K/Akt通路对高糖诱导的心肌纤维化的保护作用的机制

为了探讨miR-1252对高糖诱导的心肌纤维化的保护作用的机制,本研究通过小鼠的心脏的组化切片分析miR-1252敲除对糖尿病和正常小鼠心肌纤维化的影响,并且通过Western-blotting实验研究miR-1252调控高糖诱导的心肌纤维化的信号通路。结果表明:糖尿病且miR-1252敲除的小鼠心肌纤维化程度最高,且miR-1252敲除的成纤维细胞TGF-β1表达增高,TGF-β1能上调LOX、Akt和p-Akt蛋白的表达,但是需要PI3K蛋白的存在。本研究结果初步说明,miR-1252能通过调控TGF-β1-PI3K/Akt信号通路抑制高糖诱导的心肌纤维化,且LOX是miR-1252主要的调控蛋白之一。     

烟酰胺核糖抑制db/db小鼠糖尿病心肌病的作用及机制研究

目的:探讨烟酰胺核糖(NR)对2型糖尿病小鼠心肌病的治疗作用及其机制。方法:2型糖尿病模型db/db鼠和及其严格对照小鼠db/+小鼠,将小鼠分为Con (db/+)组,DM (db/db)组,DM+NR组。采用超声测小鼠心脏功能,western-blot及免疫组化测SIRT1表达含量,DHE染色、MDA含量和MnSOD活性检测反映氧化应激水平。结果:与对照组相比,db/db小鼠心脏功能显著下降(LVEF:42.3±7.2vs 73.7±10.2, P0.01;LVFS:22.1±4.2vs 42.7±6.9, P0.01),SIRT1表达量显著下调(P0.01)。NR喂养提高SIRT1表达量(P0.01),并有效改善db/db小鼠心脏功能(LVEF:53.1±8.1vs 42.3±7.2, P0.01;LVFS:33.4±6.9vs 22.1±4.2, P0.01)。同时,NR喂养显著降低了db/db小鼠心肌组织的凋亡水平和氧化应激水平(P0.05)。结论:NR有效改善了db/db小鼠的心功能障碍,降低了db/db小鼠的心肌凋亡水平和氧化应激水平,这些作用的发挥可能与NR增加SIRT1的表达量有关。     

脂质活性信号分子鞘氨醇-1-磷酸及其生物学特性

鞘氨醇-1-磷酸(sphingosine-1-phosphate,S1P)是目前颇受关注的脂质信号分子.体内S1P主要由红细胞内鞘氨醇激酶催化鞘氨醇合成,后经由ATP结合盒式转运子释放入血浆.血浆S1P超过半数存在于高密度脂蛋白和血清白蛋白上.S1P可通过直接胞内作用和激活其特异性G蛋白偶联受体产生多种重要生物学效应.S1P1-5型受体在体内各类型组织和细胞表达水平不同,参与包括细胞增殖、存活、迁移等多种生物学过程.     

鞘氨醇-1-磷酸与免疫细胞的调节

鞘氨醇-1-磷酸（sphingosine-1 phosphate,S1P）是来源于鞘脂代谢途径的多效性信号分子,其代谢受到多种因素调控。S1P由细胞内的鞘氨醇激酶（sphingosine kinases,SphKs）催化鞘氨醇的磷酸化而合成,可通过转运蛋白释放至细胞外。S1P可通过在胞外结合其特异性G蛋白偶联受体及胞内作用而调节多种重要生物学效应。作为细胞外介质和细胞内信使,S1P在免疫系统中也发挥重要的调节作用。S1P参与免疫细胞的迁移、增殖、分化及死亡细胞清除等过程。本文对S1P的代谢以及其对于免疫细胞的调节作用进行综述。     

Identification of functional nuclear export sequences in human sphingosine kinase 1

Sphingosine kinase (SPHK) is an enzyme that phosphorylates sphingosine to form sphingosine 1-phosphate (S1P). Human SPHK1 (hSPHK1) was localized predominantly in the cytoplasm when transiently expressed in Cos7 cells. In this study, we have found two functional nuclear export signal (NES) sequences in the middle region of hSPHK1. Deletion and mutagenesis studies revealed that the cytoplasmic localization of SPHK1 depends on its nuclear export, directed by the NES. Furthermore, upon treatment with leptomycin B, a specific inhibitor of the nuclear export receptor CRM1, a marked nuclear accumulation of hSPHK1 was observed, indicating that hSPHK1 shuttles between the cytoplasm and the nucleus. Our results provide the first evidence of the active nuclear export of SPHK1 and suggest it is mediated by a CRM1-dependent pathway.     

A rapid assay for assessment of sphingosine kinase inhibitors and substrates

Sphingosine kinases (SphKs) catalyze the transfer of phosphate from adenosine triphosphate (ATP) to sphingosine to generate sphingosine 1-phosphate (S1P), an important bioactive lipid molecule that mediates a diverse range of cell signaling processes. The conventional assay of SphK enzymatic activity uses [γ-³²P]ATP and sphingosine as substrates, with the radiolabeled S1P product recovered by organic extraction, displayed by thin layer chromatography, and quantified by liquid scintillation counting. Although this assay is sensitive and accurate, it is slow and labor-intensive; thus, it precludes the simultaneous screening of more than a few inhibitor compounds. Here we describe a 96-well assay for SphKs that is rapid and reproducible. Our method, which takes advantage of the limited solubility of S1P, detects radioactive S1P adhering to the plate by scintillation proximity counting. Our procedure obviates extraction into organic solvents, postreaction transfers, and chromatography. Furthermore, our assay enables assessment of both inhibitors and substrates, and it can detect endogenous SphK activity in cell and tissue extracts. The SphK kinetic parameter, K_m, and the K_i values of inhibitors determined with our assay and the conventional assay were indistinguishable. These results document that our assay is well-suited for the screening of chemical libraries of SphK inhibitors.     

An assay system for measuring the acute production of sphingosine 1-phosphate in intact monolayers

Sphingosine kinase (SK) is a signaling enzyme that phosphorylates sphingosine to produce sphingosine 1-phosphate. Sphingosine and sphingosine 1-phosphate (S1P) belong to a class of bioactive sphingolipid metabolites that are critical in a number of cellular processes, yet often have opposing biological functions. The intracellular localization of sphingosine kinase has been demonstrated in multiple studies to be a critical aspect of its signaling function. To date, assays of sphingosine kinase activity have been developed for measuring activity in lysates, where the effects of localization are lost. Here we outline a system in which the rate of production of S1P can be measured in intact cells using exogenously added radiolabeled ATP instead of tritiated sphingosine. The surprising ability of ATP to enter unpermeabilized monolayers is one aspect that makes this assay simple, efficient, and inexpensive, yet sensitive enough to measure endogenous enzyme activity. The assay is well behaved in terms of kinetics and substrate dependence. Overall, this assay is ideal for future studies to identify changes in S1P production in intact cells such as those that result from the differential intracellular targeting of sphingosine kinase.     

A rapid radioassay for sphingosine kinase

A solvent-extraction-based radioassay for measuring sphingosine kinase (SKase) activity has been developed. The assay utilizes [3H]sphingosine substrate and differentially extracts the [3H]sphingosine-1-phosphate product. The extracted radioactivity is demonstrated to be primarily [3H]sphingosine-1-phosphate with less than 1% contamination by [3H]sphingosine. When assaying SKase activity in the soluble cell fraction, the extraction efficiency of the labeled sphingosine-1-phosphate product is a reproducible 78%, which allows for a simple back calculation to correct for the 22% extraction loss. With minor modification, the assay is also a reproducible procedure for determining SKase activity in subcellular membrane fractions. The assay is far more rapid than thin-layer chromatography and high-performance liquid chromatography methods, which makes it possible to do a large number of assays in a short period of time. The utility of the assay is demonstrated by using it to conduct a complete bisubstrate kinetic analysis of rat heart SKase.     

鞘脂与细胞凋亡

随着生物技术的不断发展,近年来对鞘脂类物质的研究不断深入。鞘脂质除了在细胞骨架的迁移、血管发生、胚胎发育和信号转导等方面起重要作用外,最近的研究发现鞘脂及其代谢物(神经酰胺、鞘氨醇、鞘氨醇-1-磷酸)能诱导多种肿瘤和恶性增殖细胞(如腺癌、结肠癌、肝肿瘤、肺癌、鼻咽癌等)的凋亡。本文着重对鞘脂与细胞凋亡相关的最新研究进展进行综述。     

Fluorescence-based assay of sphingosine kinases

Sphingosine kinase enzymatic activity is commonly measured using radiolabeled substrates, with thin-layer chromatography and/or solvent extraction needed to detect the reaction product sphingosine-1-phosphate. We developed a fluorescence-based assay, using a sphingosine derivative labeled with a 7-nitrobenz-2-oxa-1,3-diazole moiety (15-NBD-Sph). Separation of substrate (15-NBD-Sph) from product (the corresponding phosphate) is achieved by extraction with chloroform/methanol at pH 8.5. The phosphate derivative is recovered by >98% in the aqueous phase and is directly detected and quantified by its fluorescence. 15-NBD-Sph is readily phosphorylated by human and murine sphingosine kinases 1 and 2. The suitability of the assay for measuring the activity of the kinases, both in the purified state and when contained in lysates of mammalian cells, was demonstrated. The present method is a convenient alternative to the radiometric assays and is particularly suited to the search for inhibitors of sphingosine kinases.     

Dimethylsphingosine and FTY720 inhibit the SK1 form but activate the SK2 form of sphingosine kinase from rat heart

Fractionation of cytosolic sphingosine kinase (SKase) activity by gel filtration chromatography gave rise to a 96-kDa peak that contained only the SK2 form of SKase (by Western analysis) and a broad ca. 46 kDa peak that contained only SK1 forms. SK2 appeared to have a bound accessory protein. When tested with the classic SKase inhibitor dimethylsphingosine (DMS), SK1 was extensively inhibited; however, SK2 was not inhibited but unexpectedly was activated. Activation of SK2 was the result of DMS enhancing the affinity of the enzyme for sphingosine, and, at low concentrations of ATP and sphingosine, activated by more than 100%. Activation of SK2 could be demonstrated in the cytosolic fraction indicating it was unrelated to the purification step. The immunomodulator FTY720 also activated SK2 (although to a lesser extent), but was a potent inhibitor of SK1. SK2 from rat liver and spleen was also not inhibited by DMS. L-Sphingosine and to a lesser extent dihydrosphingosine and phytosphingosine were effective inhibitors of both forms.     

An assay for sphingosine kinase activity using biotinylated sphingosine and streptavidin-coated membranes

Sphingosine kinase catalyses the phosphorylation of sphingosine to generate sphingosine 1-phosphate, a lipid signaling molecule implicated in roles in a diverse range of mammalian cell processes through its action as both a ligand for G-protein-coupled cell-surface receptors and an apparent intracellular second messenger. This paper describes a rapid, sensitive, and reproducible assay for sphingosine kinase activity using biotinylated sphingosine (biotinyl-Sph) as a substrate and capturing the phosphorylated product with streptavidin-coated membranes. We have shown that both human sphingosine kinase 1 and 2 (hSK1 and hSK2) can efficiently phosphorylate biotinyl-Sph, with K(m) values similar to those of sphingosine. The assay utilizing this substrate has high sensitivity for hSK1 and hSK2, with detection limits in the low-femtomole range for both purified recombinant enzymes. Importantly, we have also demonstrated the capacity of this assay to measure endogenous sphingosine kinase activity in crude cell extracts and to follow changes in this activity following sphingosine kinase activation. Together, these results demonstrate the potential utility of this assay in both cell-based analysis of sphingosine kinase signaling pathways and high-throughput screens for agents affecting sphingosine kinase activity in vitro.     

Sphingosine can pre- and post-condition heart and utilizes a different mechanism from sphingosine 1-phosphate

Consistent with previous reports, sphingosine at a high concentration (5 microM) was cardiotoxic as evidenced by increased infarct size in response to ischemia/reperfusion in an ex vivo rat heart. Sphingosine 1-phosphate (S1P) at 5 microM was cardioprotective. However, at a physiologic concentration (0.4 microM) sphingosine as well as S1P was effective in protecting the heart from ischemia/reperfusion injury both when perfused prior to 40 min of ischemia (preconditioning) or when added to reperfusion media following ischemia (postconditioning). Protection by sphingosine and S1P was evidenced with both pre- and post-conditioning by a >75% recovery of left ventricular developed pressure during reperfusion and a decrease in infarct size from 45% of the risk area to less than 8%. When VPC23019, an S1P(1and3)G-protein coupled receptor antagonist, was added to the preconditioning or postconditioning medium along with S1P, it completely blocked S1P-induced protection. However, VPC 23019 did not affect the ability of 0.4 microM sphingosine to either precondition or postcondition hearts. Studies of preconditioning revealed that inhibition of protein kinase C with GF109203X blocked preconditioning by S1P. However, GF109203X did not affect preconditioning by 0.4 microM sphingosine. Likewise, cotreatment with the PI3 kinase inhibitor wortmanin blocked preconditioning by S1P but not by sphingosine. By contrast, inhibition of protein kinase G with KT5823 had no effect on S1P preconditioning but completely eliminated preconditioning by sphingosine. Also, the protein kinase A inhibitory peptide 14-22 amide blocked preconditioning by sphingosine but not S1P. These data reveal for the first time that sphingosine is not toxic at physiologic concentrations but rather is a potent cardioprotectant that utilizes a completely different mechanism than S1P; one that is independent of G-protein coupled receptors and utilizes cyclic nucleotide-dependent pathways.     

鞘磷脂代谢与脑缺血

鞘磷脂特别是鞘脂是髓鞘的主要成分,高度集中在中枢神经系统。在生理和病理生理条件下,具有生物活性的鞘磷脂及其代谢产物以及信号传导过程的重要性正在逐步被人们所认识。鞘脂代谢产物鞘氨醇及其前体物质神经酰胺与细胞生长停滞和凋亡有关,而1-磷酸鞘氨醇与增强细胞增殖、分化和细胞生存以及调节细胞的生理和病理过程有关,具有细胞外第一信使和细胞内第二信使的双重功能。这三者之间的相互转换、鞘脂代谢物的相对水平以及细胞的命运,受到鞘氨醇激酶的活性的强烈影响。鞘氨醇激酶可催化磷酸鞘氨醇产生1-磷酸鞘氨醇。1-磷酸鞘氨醇在中枢神经系统中与G蛋白偶联受体家族结合对中枢神经系统发挥作用。本文对鞘磷脂代谢过程中的鞘氨醇激酶、1-磷酸鞘氨醇及其受体与脑缺血之间的关系进行概述。