EPIDERMAL GROWTH FACTOR PREVENTS INCREASED PERMEABILITY AND BACTERIAL TRANSLOCATION IN RATS WITH ACUTE PANCREATITIS

To evaluate the effects of epidermal growth factor (EGF) on intestinal permeability and bacterial translocation in rats with acute pancreatitis during total parenteral nutrition (TPN). Methods. Thirty- two male Sprague- Dawley rats that underwent injection of 3.5％ sodium taurocholate solution into the pancreatic duct were randomly divided into one of the following two groups: (1) received only TPN (control group) or (2) received TPN with EGF at a dose of 0.2 mg· kg- 1· day- 1 (Egf group). On fifth day of total parenteral nutrition, samples from mesenteric lymph nodes, pancreas, liver and spleen were harvested for cultures. Water, protein and DNA content in jejunal mucosa were determined. D- xylose and fluorescein isothiocyanate (FITC)- dextran were instilled into the lumen of a ligated segament of small intestine. Thirty minutes later, superior mesenteric vein D- xylose and plasma FITC- dextran concentration were measured. Results. Positive cultures in liver and spleen, as well as FITC- dextran concentration in the Egf group were significantly lower than in the control group. Protein and DNA content in jejunal mucosa in the Egf group were significantly higher than in the control group. Conclusion. The results indicate that EGF may prevent increased intestinal permeability and bacterial translocation in rats with acute pancreatitis during TPN.

Effects of granulocyte-colony stimulating factor on peritoneal defense mechanisms and bacterial translocation after administration of systemic chemotherapy in rats

AIM： To investigate the effects of granulocyte-colony stimulating factor （G-CSF） on peritoneal defense mechanisms and bacterial translocation after systemic 5-Fluorouracil （5-FU） administration. METHODS： Thirty Wistar albino rats were divided into three groups; the control, 5-FU and 5-FU ＋ G-CSF groups. We measured bactericidal activity of the peritoneal fluid, phagocytic activity of polymorphonuclear leucocytes in the peritoneal fluid, total peritoneal cell counts and cell types of peritoneal washing fluid. Bacterial translocation was quantified by mesenteric lymph node, liver and spleen tissue cultures. RESULTS： Systemic 5-FU reduced total peritoneal cell counts, neutrophUs and macrophage numbers. It also altered bactericidal activity of the peritoneal fluid and phagocytic activity of polymorphonuclear leucocytes in the peritoneal fluid. 5-FU also caused significant increase in frequencies of bacterial translocation at the liver and mesenteric lymph nodes. G-CSF decreased bacterial translocation, it significantly enhanced bactericidal activity of the peritoneal fluid and phagocytic activity of polymorphonuclear leucocytes in the peritoneal fluid. It also increased total peritoneal cell counts, neutrophils and macrophage numbers. CONCLUSION： Systemic 5-FU administration caused bacterial translocation, decreased the bactericidal activity of peritoneal fluid and phagocytic activity of polymorphonuclear leucocytes in the peritoneal fluid. G-CSF increased both bactericidal activity of the peritoneal fluid and phagocytic activity of polymorphonuclear leucocytes in the peritoneal fluid, and prevented the bacterial translocation. We conclude that intraperitoneal GCSF administration protects the effects of systemic 5-FU on peritoneal defense mechanisms.

Risk factors and outcome of bacterial infections in cirrhosis

Viable and non-viable pathological bacterial translocation promote a self-perpetuating circle of dysfunctional immune activation and systemic inflammation facilitating infections and organ failure in advanced cirrhosis.Bacterial infections and sepsis are now recognized as a distinct stage in the natural progression of chronic liver disease as they accelerate organ failure and contribute to the high mortality observed in decompensated cirrhosis.The increasing knowledge of structural,immunological and hemodynamic pathophysiology in advanced cirrhosis has not yet translated into significantly improved outcomes of bacterial infections over the last decades.Therefore,early identification of patients at the highest risk for developing infections and infectionrelated complications is required to tailor the currently available measures of surveillance,prophylaxis and therapy to the patients in need in order to improve the detrimental outcome of bacterial infections in cirrhosis.

Biochar Effect on Cadmium Accumulation and Phytoremediation Factors by Lavender (<i>Lavandula stoechas</i>L.)

The contaminated soil has become a global problem for agricultural and environmental scientists. The soil as a natural resource is polluted by cadmium as a heavy metals from the different sources such as phosphorus fertilizers. The aim of this study was to investigate the biochar effect on absorption factor (AF) and translocation factor (TF) as the phytoremediation factors at different cadmium concentrations by lavender plant. The experiment was conducted in 3 × 4 factorial design including biochar treatment at the volumetric percentage ratio of 0%, 20% and 40% v/v and cadmium treatment at 0, 50, 100 and 150 mg Cd&sdot;kg&minus;1 soil under greenhouse condition. The data analysis indicated that the biochar and cadmium treatments significantly (p &le;0.05) affected the plant dry biomass. The biochar addition caused to decrease the cadmium content of the root tissue. Biochar decreased cadmium uptake by lavender plant and also cadmium was accumulated by the root tissue and was prevented to translocate cadmium into the shoot tissue. Increasing cadmium concentration in soil caused an increase in cadmium adsorption factor however there was a significant decrease for translocation factor. It can be concluded to consider the possibility of planting the lavender with biochar application to amend the cadmium contaminated soils.

岩藻黄质活化核因子E2相关因子2改善糖皮质激素诱导的成骨细胞凋亡

背景:骨质疏松症发病率高,易导致骨折等并发症的发生,而现有药物干预不良反应大,难以满足临床需求。目的:探索岩藻黄质对糖皮质激素诱导成骨细胞骨质疏松症模型的作用与潜在机制。方法:将原代大鼠成骨细胞接种于6孔板内,待细胞融合度达到80%后分4组干预:对照组单纯培养24 h,糖皮质激素组使用地塞米松干预24 h,岩藻黄质组使用岩藻黄质干预24 h,糖皮质激素+岩藻黄质组使用地塞米松与岩藻黄质同时干预24 h。干预结束后,检测细胞增殖、凋亡、细胞内活性氧含量以及凋亡相关蛋白、骨形成相关蛋白、细胞核核因子E2相关因子2的蛋白表达。结果与结论:①CCK-8检测显示,与对照组比较,糖皮质激素组细胞活性降低(P<0.05);与糖皮质激素组比较,糖皮质激素+岩藻黄质组细胞活性升高(P<0.05);②JC-1线粒体膜电位染色与流式细胞学检测显示,与对照组比较,糖皮质激素组细胞凋亡比例增加(P<0.05);与糖皮质激素组比较,糖皮质激素+岩藻黄质组细胞凋亡比例减少(P<0.05);③Western Blot检测显示,与对照组比较,糖皮质激素组BAX、裂解聚ADP核糖聚合酶的蛋白表达升高(P<0.05),BCL2、Ⅰ型胶原蛋白α1肽链、碱性磷酸酶、骨钙蛋白、RUNX2的蛋白表达降低(P<0.05);与糖皮质激素组比较,糖皮质激素+岩藻黄质组BAX、裂解聚ADP核糖聚合酶的蛋白表达降低(P<0.05),BCL2、Ⅰ型胶原蛋白α1肽链、碱性磷酸酶、骨钙蛋白、RUNX2的蛋白表达升高(P<0.05);④荧光探针检测显示,与对照组比较,糖皮质激素组活性氧含量增加(P<0.05);与糖皮质激素组比较,糖皮质激素+岩藻黄质组活性氧含量减少(P<0.05);⑤免疫荧光染色与Western Blot检测显示,与对照组比较,糖皮质激素组细胞核核因子E2相关因子2的蛋白表达降低(P<0.05);与糖皮质激素组比较,糖皮质激素+岩藻黄质组细胞核核因子E2相关因子2的蛋白表达升高(P<0.05);⑥结果表明,岩藻黄质通过活化核因子E2相关因子2改善糖皮质激素诱导的成骨细胞凋亡与骨形成相关分子表达。

缺血性疾病患者血清lncRNA PVT1和FOXM1表达水平及联合心脏磁共振延迟强化成像与预后的关系

目的 探讨缺血性疾病患者血清长链非编码RNA浆细胞瘤转化迁移基因1(lncRNA PVT1)和叉头框转录因子M1(FOX M1)表达水平及联合心脏钆对比剂延迟增强磁共振成像(LGE-MRI)与预后的关系。方法 选取2021年2月-2022年2月我院收治的缺血性心脏病患者118例即为研究组,随访一年根据随访过程中是否发生主要心脏不良事件(MACE),分为MACE组32例,无MACE组86例。同期选择在我院体检健康的志愿者118例为对照组。实时荧光定量PCR(qRT-PCR)检测血清lncRNA PVT1的相对表达量。采用酶联免疫吸附试验(E LISA)检测FOXM1水平。受试者工作特征(ROC)曲线分析LGE-MRI、血清lncRNA PVT1和FOXM1对缺血性心脏病患者预后发生MACE的预测价值。结果 研究组患者DBP、SBP、TG、TC、 LDL-C、GLU水平与对照组相比显著升高,HDL-C水平显著降低(P<0.05)。与对照组相比,研究组的血清中lncRNA PVT1和FOXM1水平显著升高(P<0.05)。与无MACE组相比,MACE组患者DBP、SBP、TC、LDL-C水平显著升高, HDL-C水平显著降低(P<0.05)。与无MACE组相比,MACE组患者血清中lncRNA PVT1和FOXM1水平显著升高(P<0.05)。MACE组的LGE-MRI阳性数量显著高于无MACE组(P<0.)05。与LGE-MRI、血清lncRNA PVT1和FOXM1单独预测相比,三者联合预测MACE发生的AUC更高(Z=7.221,P<0.001;Z=7.737,P<0.001;Z=7.091,P<0.001)。结论 缺血性心脏病预后发生MACE的患者血清lncRNA PVT1和FOXM1水平呈高表达,二者联合LGE-MRI对MACE的发生有一定的预测价值。

镉胁迫对南方苋种子萌发及幼苗生长和生理的影响

为揭示南方苋(Amaranthus australis)萌发和幼苗期对镉胁迫的适应性及生理特征,研究了不同镉浓度(0,10,20,40 mg·kg^(-1))对其种子萌发、幼苗生长及生理特征的影响。结果表明:镉对南方苋种子的发芽率、发芽势和发芽指数影响不显著,但显著降低了活力指数;随着镉胁迫浓度的升高,生长量显著下降,表现为胚根和胚芽长度下降,株高降低,地上部和地下部干重减少,叶片电导率和丙二醛含量均显著增加,超氧化物歧化酶(Superoxide dismutase,SOD)和过氧化物酶(Peroxidase,POD)活性先升高后下降,过氧化氢酶(Catalase,CAT)活性显著下降,非蛋白巯基(Non-protein thiols,NPTs)、植物螯合肽(Phytochelatins,PCs)、谷胱甘肽(Glutathione,GSH)、地上和地下部镉含量以及转移系数和富集系数均显著升高。研究结果表明,南方苋具有较强的耐镉、镉转运和富集能力,并能通过提高细胞内的NPT,PCs和GSH等重金属络物来缓解镉对细胞的毒害作用。

不同原料生物炭与无机钝化剂配施对小白菜地上部镉积累和土壤镉钝化的影响

生物炭是量大价廉的土壤重金属钝化材料。为探明不同原料生物炭与石灰沸石复配对土壤镉钝化与作物可食部镉含量的影响,用7种量大易得的农业废弃物制备生物炭,并采用南方典型镉中度污染温室菜地土壤进行小白菜盆栽试验。结果显示,7种生物炭的微观结构和基本理化性质存在显著(P<0.05)差异,但与无机钝化剂复配后有助于提高土壤pH值、有机质含量、电导率、阳离子交换量、碱解氮含量、速效钾含量和有效磷含量,降低土壤有效态Cd含量,且均较不施用钝化剂的空白对照显著提高了小白菜的地上部干重,促进了小白菜生长,显著降低了小白菜的地上部镉含量和镉转运系数。与单施无机钝化剂相比,配施生物炭在改善土壤理化性质、促进作物生长、降低可食部镉含量等方面效果更好。

异氟烷通过CaMKⅡ/ERK/NF-κB通路减轻小胶质细胞炎症反应的机制

[目的]本文旨在探究异氟烷减轻小胶质细胞过度激活引起炎症的具体机制。[方法]体外使用脂多糖(LPS)处理小胶质细胞诱导炎症反应,将制备的乳化异氟烷作用于细胞。通过荧光定量PCR和蛋白免疫印迹等方法检测异氟烷与通路蛋白阻断剂对促炎介质(促炎因子、促炎酶)及通路蛋白表达的影响,确定不同阻断剂对蛋白表达的影响及异氟烷作用的信号通路,同时观察不同处理对小胶质细胞核因子κB(NF-κB)转位的影响。[结果]与对照组相比,LPS显著增加白介素1β(IL-1β)、IL-6等促炎因子及促炎酶一氧化氮合成酶(iNOS)、环加氧酶2(COXⅡ)的表达,并上调目标通路蛋白的表达和NF-κB由胞质向胞核的转位。异氟烷通过CaMKⅡ/ERK/NF-κB信号通路降低促炎介质表达,抑制NF-κB核转位。[结论]异氟烷通过Ca2+信号通路,减少促炎因子的释放,减轻小胶质细胞炎症反应。

缺血性脑卒中后促进转录因子EB核转位改善神经元自噬流障碍的分子机制

脑卒中(cerebral stroke)是由脑动脉出血或梗塞引起的急性脑血管病,约80%的脑卒中临床病例为缺血性脑卒中。自噬流障碍是导致神经元缺血性损伤的重要致病因素,而如何改善自噬流障碍从而减轻缺血性脑损伤的策略仍需深入探究。研究表明,转录因子EB(transcription factor EB,TFEB)是自噬-溶酶体信号通路的关键调节分子。TFEB的活性由其磷酸化水平决定,磷酸化的TFEB通过与14-3-3黏附蛋白结合存留于胞质,当其去磷酸化后则快速向核内转位,进而上调“协同溶酶体表达与调控(coordinated lysosomal expression and regulation,CLEAR)”信号,促进溶酶体生成及自噬相关基因转录,从而增强自噬流。本文重点就TFEB核转位改善缺血性脑卒中神经元自噬流障碍的分子机制进行详细阐述,旨在为脑卒中治疗及脑缺血病理研究提供参考。

Identification of pakchoi cultivars with low cadmium accumulation and soil factors that affect their cadmium uptake and translocation

The selection and use of low-Cd-accumulating cultivar （LCAC） has been proposed as one of the promising approaches in minimizing the entry of Cd in the human food chain. This study suggests a screening criterion of LCACs focusing on food safety. Pot culture and plot experiments were conducted to screen out LCACs from 35 pakchoi cultivars and to identify the crucial soil factors that affect Cd accumulation in LCACs. Results of the pot culture experiment showed that shoot Cd concentrations under the three Cd treatments significantly varied across cultivars. Two cultivars, Hualv 2 and Huajun 2, were identified as LCACs because their shoot Cd concentrations were lower than 0.2 mg. kg-1 under low Cd treatment and high Cd exposure did not affect the biomass of their shoots. The plot experiment further confirmed the consistency and genotypic stability of the low-Cd- accumulating traits of the two LCACs under various soil conditions. Results also showed that soil phosphorus availability was the most important soil factor in the Cd accumulation of pakchoi, which related negatively not only to Cd uptake by root but also to Cd translocation from root to shoot. The total Cd accumulation and translocation rates were lower in the LCACs than in the high-Cd cultivar, suggesting that Cd accumulation in different cultivars is associated with the Cd uptake by root as well as translocation from root to shoot. This study proves the feasibility of the application of the LCAC strategy in pakchoi cultivation to cope with Cd contamination in agricultural soils.

Studies on Differential Nuclear Translocation Mechanism and Assembly of the Three Subunits of the Arabidopsis thaliana Transcription Factor NF-Y

The eukaryotic transcription factor NF-Y consists of three subunits （A, B, and C）, which are encoded in Ara- bidopsis thaliana in multigene families consisting of 10, 13, and 13 genes, respectively. In principle, all potential combi- nations of the subunits are possible for the assembly of the heterotrimeric complex. We aimed at assessing the probability of each subunit to participate in the assembly of NF-Y. The evaluation of physical interactions among all members of the NF-Y subunit families indicate a strong requirement for NF-YB/NF-YC heterodimerization before the entire complex can be accomplished. By means of a modified yeast two-hybrid system assembly of all three subunits to a heterotrimeric complex was demonstrated. Using GFP fusion constructs, NF-YA and NF-YC localization in the nucleus was demonstrated, while NF- YB is solely imported into the nucleus as a NF-YC-associated heterodimer NF-YC. This piggyback transport of the two Arabidopsis subunits differs from the import of the NF-Y heterotrimer of heterotrophic organisms. Based on a peptide structure model of the histone-fold-motifs, disulfide bonding among intramolecular conserved cysteine residues of NF-YB, which is responsible for the redox-regulated assembly of NF-YB and NF-YC in human and Aspergillus nidulans, can be excluded for Arabidopsis NF-YB.

大黄酚对H_(2)O_(2)诱导EA.hy926细胞凋亡的改善作用及其机制

目的:探讨大黄酚对过氧化氢(H_(2)O_(2))诱导EA.hy926细胞氧化损伤的作用,并阐明其对支气管肺发育不良(BPD)的治疗作用及其相关机制。方法:分别采用25、50、100、200、400、800和1600μmol·L^(-1)H_(2)O_(2)及0、8、16、32、64、128和256μmol·L^(-1)大黄酚诱导EA.hy926细胞,CCK-8法检测不同浓度H_(2)O_(2)和大黄酚处理后EA.hy926细胞活性。将细胞分为对照组、模型组(200μmol·L^(-1)H_(2)O_(2))、低剂量大黄酚组(8μmol·L^(-1)大黄酚和200μmol·L^(-1)H_(2)O_(2))和高剂量大黄酚组(256μmol·L^(-1)大黄酚和200μmol·L^(-1)H_(2)O_(2))。Western blotting法检测各组细胞质和细胞核中凋亡诱导因子(AIF)蛋白表达水平,免疫荧光法检测各组细胞AIF核转位情况,试剂盒检测各组细胞中超氧化物歧化酶(SOD)活性和丙二醛(MDA)、含半胱氨酸的天冬氨酸蛋白酶(Caspase)-8及Caspase-9水平。结果:不同浓度H_(2)O_(2)作用下,EA.hy926细胞呈倒置S形细胞活性曲线,细胞活性良好,半数抑制浓度(IC50)为261.52μmol·L^(-1),采用200μmol·L^(-1)H_(2)O_(2)干预24 h诱导建立细胞模型。随着大黄酚药物浓度升高,EA.hy926细胞活性无明显变化(P>0.05),采用8和256μmol·L^(-1)大黄酚进行细胞干预。Western blotting法检测,与对照组比较,模型组细胞核中AIF蛋白表达水平明显升高(P<0.05),细胞质中AIF蛋白表达水平明显降低(P<0.05);与模型组比较,低和高剂量大黄酚组细胞核中AIF蛋白表达水平均明显降低(P<0.05),细胞质中AIF蛋白表达水平均明显升高(P<0.05)。免疫荧光法检测,对照组细胞AIF定位于细胞核内较少;与对照组比较,模型组细胞AIF核转位阳性值明显升高(P<0.05);与模型组比较,低和高剂量大黄酚组细胞AIF核转位阳性值均明显降低(P<0.05)。与对照组比较,模型组细胞中SOD活性明显降低(P<0.05),MDA水平明显升高(P<0.01);与模型组比较,低和高剂量大黄酚组细胞中SOD活性均明显升高(P<0.05),MDA水平均明显降低(P<0.05或P<0.01);各组细胞中Caspase-8和Caspase-9水平比较差异均无统计学意义(P>0.05)。结论:大黄酚通过抑制氧化应激和AIF核转位改善H_(2)O_(2)诱导的EA.hy926细胞凋亡,有助于治疗BPD。

寻常型银屑病患者皮损组织中DNA去甲基化酶TET3过表达介导转录因子KLF4显著高表达

目的 探讨银屑病患者皮损组织中Krüppel样因子4(Krüppel-like factor 4, KLF)异常高表达的DNA甲基化分子机制。方法 以20例寻常型银屑病患者病理检查所取皮损组织为实验组,13例眼外伤手术患者所取眼睑皮肤组织为对照组。采用亚硫酸氢盐测序(bisulfite sequencing, BSP)检测各组皮肤样本及转染十-十一转位3(ten-eleven translocation 3, TET3)过表达及干扰质粒的人永生化角质形成细胞HaCat中转录因子Krüppel样因子4(Krüppel-like factor 4, KLF4)启动子区DNA甲基化水平,RT-qPCR和Western blotting检测各组皮肤组织样本及转染HaCat细胞中KLF4、TET1(ten-eleven translocation1)、TET2、TET3的表达水平。结果 实验组KLF4启动子DNA甲基化水平显著低于对照组(P<0.01),实验组KLF4的mRNA表达水平显著高于对照组(P<0.01)。实验组KLF4启动子DNA甲基化水平与mRNA表达水平呈显著负相关(r=-0.649,P=0.002)。实验组TET3表达水平显著高于对照组(P<0.01), TET1及TET2表达水平差异无统计学意义。实验组TET3表达水平与KLF4启动子DNA甲基化水平呈显著负相关(r=-0.688,P=0.001)。HaCat细胞中过表达TET3后,KLF4启动子DNA甲基化水平明显下调(P<0.01),KLF4表达水平显著上调(P<0.01)。HaCat细胞中干扰TET3表达后,KLF4启动子DNA甲基化水平明显上调(P<0.01),KLF4表达水平显著下调(P<0.01)。结论 过度表达的TET3通过下调KLF4启动子DNA甲基化水平,介导银屑病患者皮损组织中KLF4过度表达。

结直肠癌组织中SEC62、LSM12表达与临床病理参数、上皮间质转化及预后的关系

目的分析结直肠癌(CRC)组织中前蛋白易位因子(SEC62)、RNA剪切因子(LSM12)表达与临床病理参数、上皮间质转化(EMT)及预后的关系。方法选取92例CRC患者,术中收集CRC组织及癌旁组织。用实时荧光定量PCR法检测SEC62、LSM12 mRNA及EMT相关基因[E-钙黏蛋白(E-cadherin/N-钙黏蛋白(N-cadherin)、Twist转录因子(TWIST)基因],用免疫组化法检测SEC62、LSM12蛋白。分析结直肠癌组织中SEC62、LSM12 mRNA表达与临床病理参数、EMT相关基因的关系。从癌症基因组图谱数据库(TCGA,https://portal.gdc.cancer.gov)下载643例CRC患者的癌组织RNAseq数据,分析SEC62、LSM12 mRNA表达与CRC患者5年总生存率的关系。结果与癌旁组织比较,CRC组织中SEC62、LSM12、N-cadherin、TWIST mRNA表达高,E-cadherin mRNA表达低,SEC62、LSM12蛋白阳性表达率高,差异均有统计学意义(P均<0.05)。不同TNM分期、分化程度及有无淋巴结转移的CRC组织中SEC62、LSM12 mRNA表达比较差异有统计学意义(P均<0.05)。CRC组织中SEC62 mRNA表达与N-cadherin、TWIST mRNA表达呈正相关(r分别为0.643、0.721,P均<0.05),与E-cadherin mRNA表达呈负相关(r=-0.684,P<0.05)。CRC组织中LSM12 mRNA表达与N-cadherin、TWIST mRNA表达呈正相关(r分别为0.715、0.786,P均<0.05),与E-cadherin mRNA表达呈负相关(r=-0.687,P<0.05)。根据SEC62、LSM12 mRNA表达的中位数将TCGA中643例CRC患者分为SEC62 mRNA高表达者(>3.12,n=322)、低表达者(≤3.12,n=321),LSM12 mRNA高表达者(>2.57,n=321)、低表达者(≤2.57,n=322)。SEC62 mRNA高表达者5年总生存率低于SEC62 mRNA低表达者(Log-rankχ^(2)=5.960,HR=1.547,95%CI:1.225~1.820,P<0.05);LSM12 mRNA高表达者5年总生存率低于LSM12 mRNA低表达者(Log-rankχ^(2)=6.012,HR=1.649,95%CI:1.253~1.834,P<0.05)。结论CRC组织中SEC62、LSM12高表达,二者表达变化与肿瘤TNM分期、分化程度、淋巴结转移、EMT及预后有关。

Role of granulocyte colony-stimulating factor in paclitaxel-induced intestinal barrier breakdown and bacterial translocation in rats

Background Chemotherapy causes breakdown of the intestinal barrier, which may lead to bacterial translocation. Paclitaxel, an anti-tubulin agent, has many side effects; however, its effect on the intestinal barrier is unknown. Previous studies show that granulocyte colony-stimulating factor （G-CSF） plays an important role in modulating intestinal barrier function, but these studies are not conclusive. Here, we investigated the effects of paclitaxel on the intestinal barrier, and whether G-CSF could prevent paclitaxel-induced bacterial translocation. Methods Twenty-four male Sprague-Dawley rats were divided into three groups： control group, paclitaxel group and paclitaxel ＋ G-CSF group. Intestinal permeability was measured by the urinary excretion rates of lactulose and mannitol administered by gavage. The mesenteric lymph nodes, spleen and liver were aseptically harvested for bacterial culture. Endotoxin levels and white blood cell （WBC） counts were measured and bacterial quantification performed using relative real-time PCR. Jejunum samples were also obtained for histological observation. Intestinal apoptosis was evaluated using a fragmented DNA assay and terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate （dUTP）-biotin nick end-labeling staining. One-way analysis of variance and Fisher＇s exact test were used to compare differences between groups. Results Paclitaxel induced apoptosis in 12.5% of jejunum villus cells, which was reduced to 3.8% by G-CSF treatment. Apoptosis in the control group was 0.6%. Paclitaxel treatment also resulted in villus atrophy, increased intestinal permeability and a reduction in the WBC count. G-CSF treatment resulted in increased villus height and returned WBC counts to normal levels. No bacterial translocation was detected in the control group, whereas 6/8, 8/8, and 8/8 rats in the paclitaxel group were culture-positive in the liver, spleen and mesenteric lymph nodes, respectively. Bacterial translocation was partially inhibited by G-CSF. Conclusions Paclitaxel disrupts the intestinal barrier, resulting intestinal barrier, prevents bacterial translocation, and attenuates n bacterial translocation. G-CSF treatment protects the paclitaxel-induced intestinal side-effects.

Sulforaphane ameliorates non-alcoholic steatohepatitis by KLF4-mediated macrophage M2 polarization

Non-alcoholic fatty liver disease (NAFLD) has become a global issue and a severe threat to public health.However, to date, no approved therapeutic drugs have been developed. Dietary interventions with naturalproducts have shown promise in preventing and treating NAFLD. Sulforaphane (SFN) is a phytocompoundwith antioxidant and anti-inflammatory properties, and previous research has demonstrated that SFN canameliorate hepatic lipid accumulation and inflammation. However, the molecular mechanisms underlying thesebeneficial effects remain unclear. In this study, we confirmed the protective effects of SFN on excessive lipidaccumulation and inflammatory injury in a high-fat, high-fructose diet-induced non-alcoholic steatohepatitis(NASH) mouse model. We found that SFN attenuates the inflammatory injury in a macrophage cell line andthe liver of NASH mice, owing to the promotion of M1-type macrophage polarization toward the M2-type andthe regulation of inflammatory mediators. Further analysis demonstrated that this SFN-induced macrophageM2-type polarization occurs in a Krüppel-like factor 4 (KLF4)-dependent manner. In summary, we uncovereda new mechanism of action underlying SFN activity and provide evidence that dietary intervention with SFNmight be protective against NASH.

Calcium-dependent activation of CPK12 facilitates its cytoplasm-to-nucleus translocation to potentiate plant hypoxia sensing by phosphorylating ERF-Ⅶ transcription factors

Calcium-dependent protein kinases(CDPKs/CPKs)are key regulators of plant stress signaling that translate calcium signals into cellular responses by phosphorylating diverse substrate proteins.However,the molecular mechanism by which plant cells relay calcium signals in response to hypoxia remains elusive.Here,we show that one member of the CDPK family in Arabidopsis thaliana,CPK12,is rapidly activated during hypoxia through calcium-dependent phosphorylation of its Ser-186 residue.Phosphorylated CPK12 shuttles from the cytoplasm to the nucleus,where it interacts with and phosphorylates the group Ⅶ ethylene-responsive transcription factors(ERF-Ⅶ)that are core regulators of plant hypoxia sensing,to enhance their stabilities.Consistently,CPK12 knockdown lines show attenuated tolerance of hypoxia,whereas transgenic plants overexpressing CPK12 display improved hypoxia tolerance.Nonethelss,loss of function of five ERF-Ⅶ proteins in an erf-vii pentuple mutant could partially suppress the enhanced hypoxia-tolerance phenotype of CPK12-overexpressing lines.Moreover,we also discovered that phosphatidic acid and 14-3-3κ protein serve as positive and negative modulators of the CPK12 cytoplasm-to-nucleus translocation,respectively.Taken together,these findings uncover a CPK12-ERF-Ⅶ regulatory module that is key to transducing calcium signals from the cytoplasm into the nucleus to potentiate hypoxia sensing in plants.

运动性骨骼肌损伤中时钟基因BMAL1与MyoD的作用

背景:一次大负荷运动后会引起肌联蛋白titin降解导致骨骼肌损伤,成肌调节因子家族MyoD参与骨骼肌生成,在骨骼肌损伤修复中发挥重要的作用。目的:观察一次大负荷运动不同时相下骨骼肌MyoD、时钟基因BMAL1与titin表达变化,以期明确BMAL1与MyoD在运动诱导骨骼肌损伤中的作用。方法:24只8周龄SD大鼠随机分为安静对照组(n=4)和运动组(n=20)。运动组大鼠于跑台进行90 min下坡跑,运动后即刻(0 h)及运动后12,24,48,72 h取比目鱼肌。通过实时荧光定量PCR实验检测BMAL1、MyoD的mRNA表达量;透射电镜观察骨骼肌肌纤维超微结构变化;免疫荧光观测MyoD与BMAL1、BMAL1与titin的定位情况。结果与结论:①透射电镜显示:一次大负荷离心运动后,大鼠比目鱼肌部分位置肌节变宽,Z线模糊不清呈水波状,其中运动后12 h损伤最为严重,72 h后基本恢复;②实时荧光定量PCR检测显示:运动组BMAL1的mRNA表达呈现先升高,后趋于正常的状态;MyoD的mRNA表达呈现先下降、后升高的趋势;③免疫荧光观测:运动组可在12,24 h观测到BMAL1和MyoD的共定位;可在0,12,24 h观测到BMAL1和titin的共定位;④结果表明,MyoD与BMAL1共同参与运动性骨骼肌损伤的修复,可能是通过titin进行的。

Determination of Metal Content in Soil and Wheat Plant by Inductively Coupled Plasma Mass Spectrometry

This study aims to investigate the level of soil pollution and the grade of accumulation of metals and heavy metals by wheat plants from the soil in different parts of the crop: root, stem, leaf, spike and grain. Sampling campaigns took place in February, April and July when wheat plants were at different growth stages. A number of eight soil samples and eight wheat plant samples were collected. The sampled wheat plant was taken at the same time and from the same place as the soil. Concentrations of Al (aluminium), Cr (chromium), Mn (manganese), Fe (iron), Ni (nickel), Co (cobalt), Cu (copper), Zn (zinc), Sr (strontium), Cd (cadmium) and Pb (lead) were determined by inductively coupled plasma mass spectrometry. Bioconcentration and translocation factors were calculated for the samples analysed.