Exosomes from mesenchymal stem cells expressing miR‐125b inhibit neointimal hyperplasia via myosin IE

Intercellular communication between mesenchymal stem cells (MSCs) and their target cells in the perivascular environment is modulated by exosomes derived from MSCs. However, the potential role of exosome‐mediated microRNA transfer in neointimal hyperplasia remains to be investigated. To evaluate the effects of MSC‐derived exosomes (MSC‐Exo) on neointimal hyperplasia, their effects upon vascular smooth muscle cell (VSMC) growth in vitro and neointimal hyperplasia in vivo were assessed in a model of balloon‐induced vascular injury. Our results showed that MSC‐Exo were internalised by VSMCs and inhibited proliferation and migration in vitro. Further analysis revealed that miR‐125b was enriched in MSC‐Exo, and repressed the expression of myosin 1E (Myo1e) by targeting its 3? untranslated region. Additionally, MSC‐Exo and exosomally transferred miR‐125b repressed Myo1e expression and suppressed VSMC proliferation and migration and neointimal hyperplasia in vivo. In summary, our findings revealed that MSC‐Exo can transfer miR‐125b to VSMCs and inhibit VSMC proliferation and migration in vitro and neointimal hyperplasia in vivo by repressing Myo1e, indicating that miR‐125b may be a therapeutic target in the treatment of vascular diseases.     

Model‐based investigation of intracellular processes determining antibody Fc‐glycosylation under mild hypothermia

Despite the positive effects of mild hypothermic conditions on monoclonal antibody (mAb) productivity (q_mAb) during mammalian cell culture, the impact of reduced culture temperature on mAb Fc‐glycosylation and the mechanism behind changes in the glycan composition are not fully established. The lack of knowledge about the regulation of dynamic intracellular processes under mild hypothermia restricts bioprocess optimization. To address this issue, a mathematical model that quantitatively describes Chinese hamster ovary (CHO) cell behavior and metabolism, mAb synthesis and mAb N‐linked glycosylation profile before and after the induction of mild hypothermia is constructed. Results from this study show that the model is capable of representing experimental results well in all of the aspects mentioned above, including the N‐linked glycosylation profile of mAb produced under mild hypothermia. Most importantly, comparison between model simulation results for different culture temperatures suggests the reduced rates of nucleotide sugar donor production and galactosyltransferase (GalT) expression to be critical contributing factors that determine the variation in Fc‐glycan profiles between physiological and mild hypothermic conditions in stable CHO transfectants. This is then confirmed using experimental measurements of GalT expression levels, thereby closing the loop between the experimental and the computational system. The identification of bottlenecks within CHO cell metabolism under mild hypothermic conditions will aid bioprocess optimization, for example, by tailoring feeding strategies to improve NSD production, or manipulating the expression of specific glycosyltransferases through cell line engineering. Biotechnol. Bioeng. 2017;114: 1570–1582. © 2016 The Authors. Biotechnology and Bioengineering Published by Wiley Periodicals Inc.     

海草床生态系统固氮微生物研究现状与展望

海草床生态系统是三大典型海洋生态系统之一,具有较高的生产力水平和十分重要的生态意义,其海草附着物中包括许多固氮微生物,通过生物固氮提供该生态系统"新"氮源,在一定程度上缓解了氮对初级生产力的限制.通过对近些年来固氮活性的测定方法、固氮群落组成以及影响因素等的研究进展进行了综合分析,较全面地分析了海草床生态系统的固氮微生物研究现状,并在次基础上对海草床固氮微生物的系统研究进行了展望.     

条件化恐惧记忆消退的神经振荡机制

恐惧作为个体应对内外界危险因素形成的自我保护机制的一部分,在生物体的生存中发挥着重要作用.但过度的恐惧不仅对个体生存无益,反而易引发创伤后应激障碍、焦虑等精神疾病,严重影响个体生活质量.临床上通常采用基于行为学研究结果的暴露疗法对恐惧相关疾病进行治疗,然而在患者处于治疗环境之外的时候,上述症状经常会复发.因此,解析恐惧记忆相关神经环路内信息处理的神经机制,对于理解这些疾病的发生发展,寻求切实有效的治疗方案至关重要.大量研究表明与恐惧记忆消退相关的脑区主要涉及杏仁核、内侧前额叶和海马.在恐惧消退的过程中,这3个脑区表现出特定的神经振荡模式,而且这些活动也具有同步性,构成了恐惧记忆成功消退的神经基础.未来可利用基于神经神经振荡的无创性脑刺激手段干预恐惧记忆消退的神经环路,以促进恐惧记忆的消退并避免复发,为恐惧相关障碍的临床治疗提供重要的科学依据.     

苋菜IRT1基因克隆、序列及表达分析

通过对镉超积累苋菜品种天星米铁转运蛋白基因( IRT1)的克隆、序列及表达分析,旨在为植物修复镉污染土壤奠定基础.依据同源克隆原理,通过RACE技术克隆苋菜IRT1基因及生物信息学方法分析基因序列结构和功能,Northern杂交研究基因表达.苋菜IRT1基因cDNA全长1135 bp,包含完整的阅读框,编码322个氨基酸.苋菜IRT1蛋白与已知铁转运蛋白相似性在53.70％-63.04％,具有铁转运蛋白典型的功能结构特征,即N端含有1个信号肽、氨基酸序列上具有完整的ZIP家族功能结构域( Pfam:Zip)和7个跨膜结构域(TMs).苋菜IRT1蛋白还具有1个COG0428超级家族(转运二价金属离子功能)、2个蛋白激酶C磷酸化位点和2个酪蛋白Ⅱ磷酸化位点.低铁胁迫时苋菜根中IRT1基因表达量增加,加镉处理没有改变IRT1基因表达量.因此,推断苋菜IRT1基因是ZIP家族的一员,具有转运二价金属离子功能,将基因在GenBank中注册,序列号为:GU363501,命名为AmIRT1.     

输血后乙型肝炎的研究

对204例首次受血(1～2单位)的外科手术患者进行了随访,以观察输血后HBV的感染和发病。血源来自224例HBsAg阴性(RPHA法检测)的献血员,受血者于受血前及受血后6～7个月各采血1次,连同献血员献血前的血清,用同一批RIA试剂检测HBsAg、抗-HBs和抗-HBc。发现用RPHA筛选的HBsAg阴性献血员,用RIA检测时,仍有2.2％(5/224)HBsAg阳性。70例HBV易感者中,受血后13例发生HBV感染,其中2例输入HBsAg阳性血液者发生急性肝炎(2.86％),1例为黄疸型乙型肝炎,另一例为NANB肝炎;11例发生HBV感染,其中8例为输入HBV-DNA阳性血液。以上结果表明,RPHA筛选献血员仍不能杜绝输血后肝炎,RIA筛选献血员后不能杜绝亚临床感染。部分HBV感染不能排除医院内感染的可能性。     

香烟提取物活化大鼠支气管平滑肌细胞蛋白激酶C亚型及下调钾通道BK_(Ca)、Kv1.5表达(英文)

大电导的钙活化钾通道（large—conductance calcium—activated potassium channel,BKCa）和电压依赖性钾通道Kv1．5在气道高反应性的发生机制中具有重要作用。已知吸烟可致气道高反应,但钾通道的变化在其发病中的作用尚需进一步阐明。本文旨在研究香烟提取物（cigarette smoke extract,CSE）对培养的大鼠支气管平滑肌细胞（bronchial smooth muscle cells,BSMCs）钾通道BKCa和Kv1．5表达的直接作用,以及蛋白激酶C（protein kinaseC,PKC）在其中的作用。实验采用原代培养大鼠BSMCs,用5％CSE刺激,免疫印迹检测PKC亚型的表达和转位,半定量RT—PCR、免疫印迹实验检测BKCa和Kv1．5的mRNA和蛋白表达,然后用PKC抑制剂BIM和G6e6983与CSE共作用,检测其对BKCa和Kv1．5的mRNA和蛋白表达的影响。结果显示,5％CSE使PKCε、η、θ发生明显的膜转位,并使BKCa。和Kv1．5的蛋白和mRNA表达明显降低;选择性PKC抑制剂BIM或G6e6983与CSE共同作用,均可使BKCa和Kv1．5的蛋白和mRNA表达部分恢复。上述结果提示,CSE可引起BSMCs的BKCa和Kv1．5表达下调,PKCε、η、θ参与其信号转导。     

海洋放线菌研究进展

海洋放线菌因其产生独特的次生代谢产物而备受世界的关注。本文以海洋放线菌的研究历史为主线,综述了海洋放线菌研究的发展历程,海洋放线菌的概念、生物资源、多样性及其分布状况、次生代谢产物以及基因组研究等方面,探讨了其生态功能,最后展望了我国海洋放线菌研究存在的问题及未来发展的前景。     

Soil amendments promote denitrification in restored wetlands

Wetlands perform important ecosystem functions, including improvement of water quality through the process of denitrification. To offset the negative environmental impact of replacing wetlands with agriculture and development, the United States has a policy requiring that losses in wetland area are compensated for through wetland restoration elsewhere. However, these restored wetlands may require decades to achieve functional equivalency to natural wetlands. We evaluated the efficacy of using carbon amendments during restoration to promote denitrification potential in four restored wetlands in central New York State, United States. The amendments were straw, topsoil, and biochar, chosen to range along a gradient of carbon lability. Soil samples collected 6 years after restoration were analyzed for denitrification potential and associated soil properties, including soil carbon and nitrogen, pH, microbial biomass carbon and nitrogen, carbon lability, and potential net nitrogen mineralization and nitrification. Compared to unamended control plots, denitrification potential was approximately 3 times higher in straw‐amended plots, 8 times higher in topsoil‐amended plots, and 11 times higher in biochar‐amended plots. Denitrification potential positively correlated with both soil organic carbon and microbial biomass nitrogen, suggesting that the use of soil amendments in restorations can help stimulate the development of denitrification potential by facilitating the suite of carbon and nitrogen cycling processes that underlie this function. However, denitrification potential in a nearby natural reference wetland was at least 50 times higher than it was in the restored wetland plots, highlighting the limitations of using wetland restoration to compensate for the loss of natural wetlands.