H2S作为植物个体间交流的气体信号分子

植物遭受到昆虫取食、创伤及非生物胁迫时,会向环境中释放多种挥发性物质,直接或间接地帮助受胁迫植株抵抗伤害。同时,这些挥发性物质向附近的健康植株传递信息,以应对可能到来的侵害。硫化氢(H2S)作为细胞内气体信号分子提高植物对多种胁迫的抗性已有报道,本论文对H2S是否作为植物个体间传递信息的信号分子进行了研究。结果表明:40%PEG8000处理可以使谷子、白菜、番茄和拟南芥Col-0植株所在环境空气中H2S含量升高;谷子和拟南芥Col-0植株经PEG8000处理后,可以使邻近的非胁迫植株叶片的H2S含量升高和H2S响应基因表达变化,并诱导非胁迫植株气孔关闭;而拟南芥内源H2S产生酶基因LCD和DES1双基因突变体lcd/des1经PEG8000处理,不能引起空气中和邻近植物的H2S含量升高,不能诱导邻近植株气孔关闭。本论文表明,H2S可以作为植物个体间的信息传递分子;即受胁迫植物通过向周围环境中释放H2S,向邻近植株提供胁迫预警信息,可能对种群的生存有重要意义。     

胎盘特异性基因4 mRNA基因在孕妇外周血中的检测及临床价值

目的:应用实时荧光定量PCR(RT-PCR)技术对不同孕周孕妇外周血浆胎盘特异性基因4(PLAC4)m RNA基因进行检测,寻找唐氏综合征产前诊断的可靠生物学标志物,为无创性产前诊断提供新的突破口。方法:按入组标准随机选取健康育龄未妊娠女性5例,正常健康妊娠孕妇60例(早期妊娠20例、中期妊娠20例、晚期妊娠20例),唐氏筛查高危孕妇8例,正常分娩24 h女性5例。共收集外周血浆样本78例。应用RT-PCR技术,检测样本中的PLAC4 m RNA基因含量,并进行相对定量分析。结果:健康育龄未妊娠女性及正常分娩后24 h女性外周血浆中均无游离胎儿PLAC4 m RNA基因的存在;正常健康妊娠孕妇不同孕周标本均检测到PLAC4 m RNA基因,以早期妊娠作为对照,中期妊娠是早期妊娠的1.99倍,晚期妊娠是早期妊娠的3.73倍;唐氏筛查高危孕妇均检出PLAC4 m RNA基因,含量是早期妊娠的6.36倍。结论:PLAC4 m RNA基因有望成为唐氏综合征产前诊断的可靠性生物学标志物。     

妊娠期糖尿病患者氧化应激水平变化及临床意义*

目的:研究GDM孕妇与正常孕妇血清MDA、SOD及GSH水平变化,探索它们与GDM之间的相互关系,追踪各组妊娠结局研究其临床意义。方法:选取175例孕妇为研究对象,分为GDM组(93例)和对照组(82例)。采用微量法测定血清丙二醛(MDA)、谷胱甘肽(GSH)及超氧化物歧化酶(SOD)水平,并对妊娠结局进行相关性分析。结果:(1) GDM组年龄、孕前体重、BMI值均高于对照组,GSH和SOD水平均低于对照组,MDA水平高于对照组,差异有统计学意义(P0.05);(2) GDM组MDA水平与孕前体重呈负相关(r=-0.3547,P0.05),SOD水平与新生儿出生体重呈正相关(r=0.3292,P0.05),SOD值与早产之间有密切联系(足月产12.68±0.85 vs.早产8.08±1.18, P 0.05),GSH、SOD水平与孕前体重之间,MDA、GSH水平与新生儿出生体重之间,MDA、GSH水平与早产之间均无明显相关性(P0.05),MDA、GSH和SOD水平与剖宫产及胎膜早破均无明显相关性(P0.05)。结论:GDM存在明显的氧化应激反应,GSH、MDA与SOD可以作为评估GDM氧化应激的有效标志物,其与不良妊娠结局有关。     

黑龙江省辖区内“120”急救中心调度员工作量及职业压力现状研究

目的:调查黑龙江省辖区内的120急救调度中心调度员的工作量与职业压力情况,为在120急救中心进行人力资源优化配置提供支持。方法:通过基础工作量问卷与工作内容量表(JCQ)问卷对黑龙江省内8家"120"急救调度中心内共计62名急救中心调度员进行调查和统计分析,并对调度科室主任进行访谈。结果:调度员的通话量呈现明显的地区差异性并异常地高于调度量,调度员的工作属于积极型的工作状态,但是决策自主度的分数较低,而技术自主度则与通话量和调度量具有明显线性关系(P0.05),调度时间与上司支持和同事支持有显著相关性(P0.05)。结论:黑龙江省辖区内的急救调度中心依旧处于组织结构复杂化、资源分配不均的情况,需要对调度员缩短调度时间进行训练以及对市民进行急救知识教育以减少无用通话的数量。     

木薯SWEETs基因家族生物信息学及表达特性研究

SWEET (sugars will eventually be exported transporters)是植物中新发现的一类编码糖转运蛋白的基因,它在植物生长发育及糖代谢过程中发挥重要作用。该基因家族在木薯(Manihot esculenta)中尚未有详细的报道。本研究从Phytozome数据库获得了28个木薯SWEET候选基因并对其进行生物信息学分析,在华南124的木薯苗中通过荧光定量实验检测SWEET基因在旱胁迫下的表达水平。结果发现木薯SWEET基因被分为4簇,主要分布在第6条和第14条染色体上,编码234 aa与302 aa之间的氨基酸序列;木薯SWEET基因家族的表达在旱胁迫条件下发生了变化,其中明显上调的基因有9个,包括MeSWEET1b、MeSWEET2a、MeSWEET6、MeSWEET9a、MeSWEET9b、MeSWEET12、MeSWEET15a、MeSWEET15b和MeSWEET16c;而表达量明显下调的基因也有9个,为MeSWEET2b、MeSWEET3b、MeSWEET4、MeSWEET7、MeSWEET11、MeSWEET16a、MeSWEET16b、MeSWEET17a和MeSWEET17c。这些结果为进一步阐明SWEET基因家族在木薯中的功能提供理论依据。     

氰酸盐诱导氧化应激促进肾小管上皮细胞上皮–间充质转化

该研究探讨氰酸盐(cyanate)诱导肾小管上皮细胞氧化应激损伤和促进肾纤维化的作用。氰酸盐作用HK-2肾小管上皮细胞后, CCK8法检测其对细胞活力的影响;倒置显微镜观察细胞形态的改变; DCFH-DA法检测细胞ROS水平;细胞免疫荧光和Western blot分别检测E-cadherin、Fibronectin、α-SMA的表达; Western blot检测TGF-β的表达水平。结果显示, 2 mmol/L氰酸盐明显下调HK-2细胞的活力(P<0.05),细胞形态变为长梭形。氰酸盐作用24 h后, HK-2细胞内ROS水平呈浓度依赖性升高。免疫荧光和Western blot结果均显示,氰酸盐作用24 h后, HK-2的Fibronectin、α-SMA表达升高, E-cadherin表达下降; TGF-β的表达水平随氰酸盐浓度升高而上调(P<0.05)。以上结果表明,氰酸盐诱导肾小管上皮细胞产生过量ROS,上调TGF-β水平促进细胞上皮–间充质细胞转化(epithelia-mesenchymal transition, EMT)。     

The role of autophagy in the pathogenesis of exposure keratitis

Incomplete tear film spreading and eyelid closure can cause defective renewal of the ocular surface and air exposure‐induced epithelial keratopathy (EK). In this study, we characterized the role of autophagy in mediating the ocular surface changes leading to EK. Human corneal epithelial cells (HCECs) and C57BL/6 mice were employed as EK models, respectively. Transmission electron microscopy (TEM) evaluated changes in HCECs after air exposure. Each of these models was treated with either an autophagy inhibitor [chloroquine (CQ) or 3‐methyladenine (3‐MA)] or activator [Rapamycin (Rapa)]. Immunohistochemistry assessed autophagy‐related proteins, LC3 and p62 expression levels. Western blotting confirmed the expression levels of the autophagy‐related proteins [Beclin1 and mammalian target of rapamycin (mTOR)], the endoplasmic reticulum (ER) stress‐related proteins (PERK, eIF2α and CHOP) and the PI3K/Akt/mTOR signalling pathway‐related proteins. Real‐time quantitative PCR (qRT‐PCR) determined IL‐1β, IL‐6 and MMP9 gene expression levels. The TUNEL assay detected apoptotic cells. TEM identified autophagic vacuoles in both EK models. Increased LC3 puncta formation and decreased p62 immunofluorescent staining and Western blotting confirmed autophagy induction. CQ treatment increased TUNEL positive staining in HCECs, while Rapa had an opposite effect. Similarly, CQ injection enhanced air exposure‐induced apoptosis and inflammation in the mouse corneal epithelium, which was inhibited by Rapa treatment. Furthermore, the phosphorylation status of PERK and eIF2α and CHOP expression increased in both EK models indicating that ER stress‐induced autophagy promoted cell survival. Taken together, air exposure‐induced autophagy is indispensable for the maintenance of corneal epithelial physiology and cell survival.     

Picroside II attenuates hyperhomocysteinemia‐induced endothelial injury by reducing inflammation,oxidative stress and cell apoptosis

Picroside II (P‐II), one of the main active components of scrophularia extract, which have anti‐oxidative, anti‐inflammatory effects, but its effect on hyperhomocysteinemia (HHcy) induced endothelial injury remains to be determined. Here, we test whether P‐II protects HHcy‐induced endothelial dysfunction against oxidative stress, inflammation and cell apoptosis. In vitro study using HUVECs, and in hyperhomocysteinemia mouse models, we found that HHcy decreased endothelial SIRT1 expression and increased LOX‐1 expression, subsequently causing reactive oxygen species generation, up‐regulation of NADPH oxidase activity and NF‐κB activation, thereby promoting pro‐inflammatory response and cell apoptosis. Blockade of Sirt1 with Ex527 or siRNASIRT1 increased LOX‐1 expression, whereas overexpression of SIRT1 decreased LOX‐1 expression markedly. P‐II treatment significantly increased SIRT1 expression and reduced LOX‐1 expression, and protected against endothelial cells from Hcy‐induced oxidative injury, inflammation and apoptosis. However, blockade of SIRT1 or overexpression of LOX‐1 attenuated the therapeutic effects of P‐II. In conclusion, our results suggest that P‐II prevents the Hcy induced endothelial damage probably through regulating the SIRT1/LOX‐1 signaling pathway.     

FBXL10 regulates cardiac dysfunction in diabetic cardiomyopathy via the PKC β2 pathway

Diabetic cardiomyopathy (DCM) is a condition associated with significant structural changes including cardiac tissue necrosis, localized fibrosis, and cardiomyocyte hypertrophy. This study sought to assess whether and how FBXL10 can attenuate DCM using a rat streptozotocin (STZ)‐induced DCM model system. In the current study, we found that FBXL10 expression was significantly decreased in diabetic rat hearts. FBXL10 protected cells from high glucose (HG)‐induced inflammation, oxidative stress, and apoptosis in vitro. In addition, FBXL10 significantly activated PKC β2 signaling pathway in H9c2 cells and rat model. The cardiomyocyte‐specific overexpression of FBXL10 at 12 weeks after the initial STZ administration attenuated oxidative stress and inflammation, thereby reducing cardiomyocyte death and preserving cardiac function in these animals. Moreover, FBXL10 protected against DCM via activation of the PKC β2 pathway. In conclusion, FBXL has the therapeutic potential for the treatment of DCM.