阿加曲班抗凝对连续血液净化患儿凝血功能及单核细胞TLR2rMnX、TLR4rMnX表达水平的影响

目的:探讨阿加曲班抗凝治疗连续血液净化患儿的疗效及对凝血功能及单核细胞TLR2rMnX、TLR4rMnX表达水平的影响。方法:选取从2017年3月至2018年10月于我院儿童重症医学科接受连续血液净化治疗的患儿86例进行研究,将其按照随机抽签法分成研究组与对照组。对照组予以普通肝素抗凝治疗,研究组予以阿加曲班抗凝治疗。分别比较两组的28 d死亡率、治疗前后凝血功能血小板计数(PLT)、活化部分凝血活酶时间(APTT)、纤维蛋白原(FIB)和单核细胞TLR2rMnX、TLR4rMnX表达水平、治疗过程中滤器与管路凝血程度、使用寿命以及穿刺部位出血情况的差异。结果:研究组28d死亡率(2.33%)比对照组(9.30%)低,但差异无统计学意义(x2=0.849,P=0.357)。治疗后研究组APTT(31.61±1.26)s、FIB水平(6.61±1.80)g/L较对照组的(27.92±1.44)s、(5.58±1.72)g/L明显更高(t=12.646、2.713,P=0.000、0.008)。研究组治疗过程中滤器与管路凝血程度0级人数占比(93.02%)相比对照组(76.74%)较高,而Ⅱ级人数占比(0.00%)相比对照组(9.30%)较低(x2=4.440、4.195,P=0.035,0.041)。研究组穿刺部位出血等级为0级人数占比(93.02%)高于对照组(74.42%),而Ⅱ级人数占比(0.00%)低于对照组(9.30%)(x2=5.460,4.195;P=0.019,0.041)。研究组管路、滤器使用寿命(18.73±7.74)h、(20.84±8.01)h相比对照组的(14.57±6.88)h、(16.20±7.15)h均较长(t=2.634、2.834,P=0.010,0.006)。治疗后研究组单核细胞TLR2rMnX、TLR4rMnX表达水平为(4.72±1.39)、(3.22±0.82),均低于对照组的(8.30±1.44)、(5.11±0.94)(t=11.729、9.936,P=0.000、0.000)。结论:阿加曲班抗凝应用于连续血液净化患儿中的疗效相比普通肝素抗凝更佳,且有利于改善凝血功能和单核细胞TLR2rMnX、TLR4rMnX表达水平,能够降低滤器或管路凝血发生风险,同时有效降低穿刺部位出血风险,增加管路、滤器使用寿命。     

腔隙性脑梗死伴脑白质病变患者血清miR-146a和NSE水平与MoCA评分的关系研究

摘要 目的：研究腔隙性脑梗死（LI）伴脑白质病变（WML）患者血清miR-146a和神经元特异性烯纯化酶（NSE）水平与蒙特利尔认知评估量表（MoCA）评分的关系。方法：纳入我院从2017年3月～2019年3月收治的LI伴WML患者108例进行研究,记作LI伴WML组。另取同期收治的单纯WML患者与单纯LI患者各100例,分别记作WML组与LI组,再取同期于我院进行体检的健康人员100例作为对照组。比较四组人员的血清miR-146a和NSE水平、MoCA评分,并作相关性分析。结果：LI伴WML组、WML组、LI组血清miR-146a相对表达量均低于对照组,而LI伴WML组血清miR-146a相对表达量又显著低于WML组、LI组（均P＜0.05）;LI伴WML组、WML组、LI组血清NSE水平均显著高于对照组,且LI伴WML组血清NSE水平均显著高于WML组、LI组（均P＜0.05）。LI伴WML组MoCA总分显著低于WML组与LI组,且WML组与LI组MoCA总分显著低于对照组（均P＜0.05）。经Pearson相关性分析可得：LI伴WML组患者血清miR-146a相对表达量与MoCA总分呈正相关关系（P＜0.05）,而血清NSE水平与MoCA总分呈负相关关系（P＜0.05）。结论：LI伴WML患者的血清miR-146a水平存在明显低表达,而NSE水平存在明显高表达,并与MoCA评分相关,两者可能在认知功能损伤的发生、发展过程中起着至关重要的作用。     

Production,optimization, purification,characterization, and anti-cancer application of extracellular L-glutaminase produced from the marine bacterial isolate

Abstract

L-glutaminase from bacterial sources has been proven to be effective and economical agents in cancer therapy, food industry and high-value chemicals like threonine. In the present study, a newly isolated bacterial strain was potentially producing extracellular L-glutaminase, it identified as Bacillus subtilis OHEM11 (MK389501) using the 16S rRNA gene. L-glutaminase production optimized and the optimum factors for production under submerged fermentation were at pH 6.5–7.0 and 35?°C after 28?hr using rhamnose and glutamine as carbon and nitrogen sources, respectively, while bagasse was the best inducer for the production under solid-state fermentation. Ethanol precipitation and ion-exchange chromatography using QFF are the purification steps. L-glutaminase was purified to 2-fold with specific activity 89.78?U/mg and its molecular weight about 54.8?kDa with the alkaline property of the enzyme makes it clear having carcinostatic property; maximum enzyme activity at pH 8.2 and 40?°C and retained about 90% activity for 1?hr. The cytotoxicity effect of L-glutaminase indicated a significant safety on Vero cells with high anticancer activity against NFS-60, HepG-2, and MCF-7 cancer cell lines. The outcomes demonstrated that L-glutaminase could be applied in many biotechnological applications such as pharmaceutical and food processing.     

重组小鼠IL-38蛋白制备及其生物学活性分析

制备小鼠IL-38蛋白,并检验其生物学活性。对IL-38的基因进行密码子优化并化学合成优化后的基因,将其插入原核表达载体pET28a(+),构建pET28a-IL-38质粒,转化至大肠埃希菌BL21(DE3),经IPTG诱导表达,镍亲和层析法纯化制备IL-38蛋白;分别用IL-36γ和IL-38干预小鼠肠系膜淋巴结(mesenteric lymph node,MLN)细胞,ELISA检测各组Th1细胞因子的分泌水平。经SDS-PAGE分析获得纯度高达95%的IL-38蛋白。相对于对照组,IL-38处理组Th1细胞因子分泌水平明显降低(P0.05)。成功制备小鼠IL-38蛋白,证实了IL-38对IL-36γ刺激的MLN细胞炎性反应具有负向调控作用,为进一步研究IL-38在炎症性疾病中的免疫调节功能提供参考。     

铜藻岩藻黄素提取及纯化工艺研究

为了对岩藻黄素的提取、纯化进行系统研究,进而为高纯度岩藻黄素的工业化生产提供研究基础,筛选了适用于提取铜藻（Sargassum horneri）鲜藻中岩藻黄素的有机溶剂,并通过单因素实验和正交实验确定了最佳的提取溶剂浓度、提取温度、提取时间、料液比等工艺参数。随后采用硅胶柱层析法进行纯化,并通过单因素实验确定了最佳的硅胶柱床高度、上样量和洗脱流速。最后采用制备液相法对经层析纯化的岩藻黄素进一步纯化。结果表明,有机溶剂萃取的最佳工艺条件为：甲醇浓度90%,提取温度50 ℃,提取时间1 h,料液比1∶10,此条件下岩藻黄素提取率达到(0.258 9±0.003 6) mg·g-1鲜重（FW）［(1.078 8±0.015 0) mg·g-1干重（DW）］。硅胶柱层析的最佳工艺条件为：硅胶柱床高度10 cm,上样量6 g,洗脱流速10 mL·min-1,此条件下岩藻黄素得率为0.176 5 mg·g-1FW（0.735 3 mg·g-1 DW）,纯度为87.01%±0.88%。经制备液相进一步纯化后,岩藻黄素得率为0.127 1 mg·g-1 FW（0.529 4 mg·g-1 DW）,纯度为99.27%±0.22%。研究所用工艺简单,岩藻黄素得率高,为高纯度岩藻黄素的制备提供了实验基础。     

微生物技术治理水体重金属镉、铬污染的研究进展

近年来,随着我国工农业迅速发展,"三废"的大量排放,水体中重金属污染愈发严重,其中重金属镉、铬的污染显得尤为突出。研究者利用微生物技术开展了大量治理污水中镉、铬的研究。本文就不同种类微生物对镉、铬的修复及作用机理进行论述,以期为微生物用于实际污水中镉、铬的治理提供参考。     

Purification of rabies virus glycoprotein produced in Drosophila melanogaster S2 cells: An efficient immunoaffinity method

Most rabies vaccines are based on inactivated virus, which production process demands a high level of biosafety structures. In the past decades, recombinant rabies virus glycoprotein (RVGP) produced in several expression systems has been extensively studied to be used as an alternative vaccine. The immunogenic characteristics of this protein depend on its correct conformation, which is present only after the correct post-translational modifications, typically performed by animal cells. The main challenge of using this protein as a vaccine candidate is to keep its trimeric conformation after the purification process. We describe here a new immunoaffinity chromatography method using a monoclonal antibody for RVGP Site II for purification of recombinant rabies virus glycoprotein expressed on the membrane of Drosophila melanogaster S2 cells. RVGP recovery achieved at least 93%, and characterization analysis showed that the main antigenic proprieties were preserved after purification.     

Straightforward method for calibration of mechanistic cation exchange chromatography models for industrial applications

Mechanistic modeling of chromatography processes is one of the most promising techniques for the digitalization of biopharmaceutical process development. Possible applications of chromatography models range from in silico process optimization in early phase development to in silico root cause investigation during manufacturing. Nonetheless, the cumbersome and complex model calibration still decelerates the implementation of mechanistic modeling in industry. Therefore, the industry demands model calibration strategies that ensure adequate model certainty in a limited amount of time. This study introduces a directed and straightforward approach for the calibration of pH-dependent, multicomponent steric mass action (SMA) isotherm models for industrial applications. In the case investigated, the method was applied to a monoclonal antibody (mAb) polishing step including four protein species. The developed strategy combined well-established theories of preparative chromatography (e.g. Yamamoto method) and allowed a systematic reduction of unknown model parameters to 7 from initially 32. Model uncertainty was reduced by designing two representative calibration experiments for the inverse estimation of remaining model parameters. Dedicated experiments with aggregate-enriched load material led to a significant reduction of model uncertainty for the estimates of this low-concentrated product-related impurity. The model was validated beyond the operating ranges of the final unit operation, enabling its application to late-stage downstream process development. With the proposed model calibration strategy, a systematic experimental design is provided, calibration effort is strongly reduced, and local minima are avoided.     

mem-iLID,a fast and economic protein purification method

Protein purification is the vital basis to study the function, structure and interaction of proteins. Widely used methods are affinity chromatography-based purifications, which require different chromatography columns and harsh conditions, such as acidic pH and/or adding imidazole or high salt concentration, to elute and collect the purified proteins. Here we established an easy and fast purification method for soluble proteins under mild conditions, based on the light-induced protein dimerization system improved light-induced dimer (iLID), which regulates protein binding and release with light. We utilize the biological membrane, which can be easily separated by centrifugation, as the port to anchor the target proteins. In Xenopus laevis oocyte and Escherichia coli, the blue light-sensitive part of iLID, AsLOV2-SsrA, was targeted to the plasma membrane by different membrane anchors. The other part of iLID, SspB, was fused with the protein of interest (POI) and expressed in the cytosol. The SspB-POI can be captured to the membrane fraction through light-induced binding to AsLOV2-SsrA and then released purely to fresh buffer in the dark after simple centrifugation and washing. This method, named mem-iLID, is very flexible in scale and economic. We demonstrate the quickly obtained yield of two pure and fully functional enzymes: a DNA polymerase and a light-activated adenylyl cyclase. Furthermore, we also designed a new SspB mutant for better dissociation and less interference with the POI, which could potentially facilitate other optogenetic manipulations of protein–protein interaction.