荷瘤裸鼠暴露于PM2.5后肠道菌群的急性改变

目的 研究暴露于PM2.5后的肺癌荷瘤裸鼠肠道菌群发生的急性改变。方法 18只Bac裸鼠随机分为PM2.5暴露组和对照组,每组9只。全部裸鼠应用A549细胞腋下注射后,饲养1周让其适应环境,第2周开始于动式染尘暴露仓中暴露染尘,对照组暴露于生理盐水。每天暴露2 h,每周暴露6 d,共暴露3周。利用16S rDNA分析技术对粪便标本的PCR产物进行高通量测序。结果 暴露于PM2.5的肺癌荷瘤裸鼠肠道菌群结构发生改变,与对照组荷瘤裸鼠肠道菌群相比,其厚壁菌门、拟杆菌门细菌显著减少,而致病菌变形菌门细菌增加。结论 PM2.5可以导致肺癌荷瘤裸鼠肠道菌群失衡。     

Autophagy maintains the integrity of endothelial barrier in LPS‐induced lung injury

Understanding the role and underlying regulation mechanism of autophagy in lipopolysaccharide‐induced lung injury (LPS‐LI) may provide potentially new pharmacological targets for treatment of acute lung injury. The aim of this study was to investigate the functional significance of autophagy in LPS‐LI. The autophagy of human pulmonary microvascular endothelial cells (HPMVECs) and mice was inhibited before they were challenged with LPS. In vitro, permeability, vitality, and the LDH release rate of the cells were detected, the zonula occluden‐1 (ZO‐1) expression and the stress fiber formation were determined. In vivo, the lung injury was assessed. We found LPS caused high permeability and increased lactate dehydrogenase (LDH) release rate, lowered viability of the cells, inhibited the ZO‐1 expression and induced stress fiber formation, these effects were further aggravated by prohibiting the level of autophagy. Consistently, in in vivo experiments, LPS‐induced serious lung injury, which was reflected as edema, leukocyte infiltration and hemorrhage in lung tissue, and the high concentration of pro‐inflammation cytokines tumor necrosis factor (TNF)‐α and interleukin (IL)‐1β in bronchoalveolar lavage fluid (BALF). Inhibiting autophagy further exacerbated LPS‐LI. It appears that autophagy played a protective role in LPS‐LI in part through restricting the injury of lung microvascular barrier.     

慢性PM2.5暴露对C57BL/6J小鼠肺组织炎症和NLRP3炎性小体活性的影响

目的 研究慢性PM2.5暴露对小鼠肺炎症和NLRP3炎性小体活性的影响,为防治PM2.5所致肺损伤提供新靶点。方法 雄性C57BL/6J小鼠通过不同剂量气管滴注法进行PM2.5染毒,剂量为2,10mg/(kg·bw),对照组小鼠滴注生理盐水。小鼠连续滴注20次,每3d染毒1次后,取血和肺组织。三组小鼠进行血细胞计数;用免疫荧光染色法检测肺组织巨噬细胞水平;用试剂盒测定肺组织中白细胞介素(interleukin,IL)-1β,IL-18水平及caspase-1活性;用实时定量PCR法检测肺组织NLRP3炎性小体相关mRNA表达水平。结果 两个剂量PM2.5染毒均能明显降低单核细胞百分比(P<0.01),增加中性粒白细胞百分比(P<0.01);导致肺炎症发生;增加肺组织caspase-1活性(P<0.01)及NLRP3和ASC的mRNA表达(P<0.01)。与对照组相比,两个剂量组小鼠肺组织IL-1β和IL-18水平均显著增高(P<0.01)。结论 慢性PM2.5暴露可能通过激活肺组织NLRP3炎性小体导致肺炎症发生。     

姜黄素通过抑制凋亡信号调节激酶1减弱PM2.5短期暴露致大鼠子宫损伤

细颗粒物(PM2.5)是空气动力学直径≤2.5 μm的颗粒物,能诱发多种疾病.已有大量的流行病学调查证实,PM2.5能够损伤生殖系统,但其致病机制不明确,相关的研究也非常有限.为研究PM2.5短期暴露对大鼠子宫的损伤,以及姜黄素(curcumin,CRC)对其保护作用,本研究将50只雌性SD大鼠随机分为生理盐水对照组、...     

Soil carbon and nitrogen cycling and storage throughout the soil profile in a sweetgum plantation after 11 years of CO2‐enrichment

Increased partitioning of carbon (C) to fine roots under elevated [CO₂], especially deep in the soil profile, could alter soil C and nitrogen (N) cycling in forests. After more than 11 years of free‐air CO₂ enrichment in a Liquidambar styraciflua L. (sweetgum) plantation in Oak Ridge, TN, USA, greater inputs of fine roots resulted in the incorporation of new C (i.e., C with a depleted δ¹³C) into root‐derived particulate organic matter (POM) pools to 90‐cm depth. Even though production in the sweetgum stand was limited by soil N availability, soil C and N contents were greater throughout the soil profile under elevated [CO₂] at the conclusion of the experiment. Greater C inputs from fine‐root detritus under elevated [CO₂] did not result in increased net N immobilization or C mineralization rates in long‐term laboratory incubations, possibly because microbial biomass was lower in the CO₂‐enriched plots. Furthermore, the δ¹³CO₂ of the C mineralized from the incubated soil closely tracked the δ¹³C of the labile POM pool in the elevated [CO₂] treatment, especially in shallower soil, and did not indicate significant priming of the decomposition of pre‐experiment soil organic matter (SOM). Although potential C mineralization rates were positively and linearly related to total SOM C content in the top 30 cm of soil, this relationship did not hold in deeper soil. Taken together with an increased mean residence time of C in deeper soil pools, these findings indicate that C inputs from relatively deep roots under elevated [CO₂] may increase the potential for long‐term soil C storage. However, C in deeper soil is likely to take many years to accrue to a significant fraction of total soil C given relatively smaller root inputs at depth. Expanded representation of biogeochemical cycling throughout the soil profile may improve model projections of future forest responses to rising atmospheric [CO₂].     

Rapid and label‐free optical detection of individual carbon air pollutant nanoparticulates in biomedical samples

Carbonaceous particle exposure and air pollution in general lead to a multitude of adverse human health effects and pose multiple challenges in terms of exposure, risk and safety assessment. Highly desirable for fast screening are label‐free approaches for detecting these particle types in biological or medical context. We report a powerful approach for detecting carbonaceous particles using photothermal pump‐probe microscopy, which directly probes their strong light absorption. The principle and reliability of this approach is demonstrated by examining 4 different carbon black (CB) species modeling soot with diameters ranging from 13 to 500 nm. Our results show that the proposed approach is applicable to a large number of CB types as well as black carbon. As the particles show a strong absorption over a wide spectral range as compared to other absorbing species, we can image CB particles almost background free. Our pump‐probe approach allows label‐free optical detection and unambiguous localization of CB particles in (bio)fluids and 3D cellular environments. In combination with fluorescence microscopy, this method allows for simultaneous colocalization of CB with different cellular components using fluorophores as shown here for human lung fibroblasts. We further demonstrate the versatility of pump‐probe detection in a flow cell.      

Effects of experimental nitrogen deposition on soil organic carbon storage in Southern California drylands

Atmospheric nitrogen (N) deposition is enriching soils with N across biomes. Soil N enrichment can increase plant productivity and affect microbial activity, thereby increasing soil organic carbon (SOC), but such responses vary across biomes. Drylands cover ~45% of Earth's land area and store ~33% of global SOC contained in the top 1 m of soil. Nitrogen fertilization could, therefore, disproportionately impact carbon (C) cycling, yet whether dryland SOC storage increases with N remains unclear. To understand how N enrichment may change SOC storage, we separated SOC into plant-derived, particulate organic C (POC), and largely microbially derived, mineral-associated organic C (MAOC) at four N deposition experimental sites in Southern California. Theory suggests that N enrichment increases the efficiency by which microbes build MAOC (C stabilization efficiency) if soil pH stays constant. But if soils acidify, a common response to N enrichment, then microbial biomass and enzymatic organic matter decay may decrease, increasing POC but not MAOC. We found that N enrichment had no effect on C fractions except for a decrease in MAOC at one site. Specifically, despite reported increases in plant biomass in three sites and decreases in microbial biomass and extracellular enzyme activities in two sites that acidified, POC did not increase. Furthermore, microbial C use and stabilization efficiency increased in a non-acidified site, but without increasing MAOC. Instead, MAOC decreased by 16% at one of the sites that acidified, likely because it lost 47% of the exchangeable calcium (Ca) relative to controls. Indeed, MAOC was strongly and positively affected by Ca, which directly and, through its positive effect on microbial biomass, explained 58% of variation in MAOC. Long-term effects of N fertilization on dryland SOC storage appear abiotic in nature, such that drylands where Ca-stabilization of SOC is prevalent and soils acidify, are most at risk for significant C loss.     

The ESCRT‐III protein CeVPS‐32 is enriched in domains distinct from CeVPS‐27 and CeVPS‐23 at the endosomal membrane of epithelial cells

Background information. Within the endocytic pathway, the ESCRT (endosomal sorting complex required for transport) machinery is essential for the biogenesis of MVBs (multivesicular bodies). In yeast, ESCRTs are recruited at the endosomal membrane and are involved in cargo sorting into intralumenal vesicles of the MVBs. Results. In the present study, we characterize the ESCRT‐III protein CeVPS‐32 (Caenorhabditis elegans vacuolar protein sorting 32) and its interactions with CeVPS‐27, CeVPS‐23 and CeVPS‐4. In contrast with other CevpsE (class E vps) genes, depletion of Cevps‐32 is embryonic lethal with severe defects in the remodelling of epithelial cell shape during organogenesis. Furthermore, Cevps‐32 animals display an accumulation of enlarged early endosomes in epithelial cells and an accumulation of autophagosomes. The CeVPS‐32 protein is enriched in epithelial tissues and in residual bodies during spermatid maturation. We show that CeVPS‐32 and CeVPS‐27/Hrs (hepatocyte‐growth‐factor‐regulated tyrosine kinase substrate) are enriched in distinct subdomains at the endosomal membrane. CeVPS‐27‐positive subdomains are also enriched for the ESCRT‐I protein CeVPS‐23/TSG101 (tumour susceptibility gene 101). The formation of CeVPS‐27 subdomains is not affected by the depletion of CeVPS‐23, CeVPS‐32 or the ATPase CeVPS‐4. Conclusion. Our results suggest that the formation of membrane subdomains is essential for the maturation of endosomes.     

Study of fluorescence quenching of mercaptosuccinic acid‐capped CdS quantum dots in the presence of some heavy metal ions and its application to Hg(II) ion determination

In this study, CdS quantum dots (QDs) capped with mercaptosuccinic acid (MSA) were prepared in one step. The size, shape, component and spectral properties of MSA‐capped CdS QDs were characterized by transmission electron microscopy (TEM), photoluminescence (PL) and infrared (IR) spectrometry. The results showed that the prepared QDs with an average diameter of 6 nm have favorable fluorescence, which is greatly influenced by the pH of the environment. The interaction of some heavy metal ions including Ag⁺, Hg²⁺, Cu²⁺, Ni²⁺ and Co²⁺ with MSA‐capped CdS QDs was investigated in different buffering pH media. Based on the fluorescence quenching of the QDs in the presence of each of the metal ions, the feasibility of their determinations was examined according to the Stern–Volmer equation. The investigations showed that Hg(II) ions can be determined in the presence of many co‐existing metal ions at a buffering pH of 5. This method was satisfactorily applied to the measurement of Hg(II) ions in some environmental samples. Copyright © 2014 John Wiley & Sons, Ltd.     

长期垄作稻田腐殖质稳定碳同位素丰度(δ13C)分布特征

研究了四川盆地丘陵区连续16年垄（宽垄）作稻田土壤稳定碳库腐殖质组分的稳定碳同位素(δ¹³C)分布特征.结果表明： 稻田土壤有机碳含量为宽垄作＞垄作＞水旱轮作.腐殖质碳以胡敏素为主,占土壤碳含量的21%～30%,提取碳以胡敏酸为主,分别占土壤有机碳和腐殖质的17%～21%和38%～65%.土壤有机碳的δ¹³C值介于-27.9‰～-25.6‰,20～40 cm和0～5 cm土壤有机碳δ¹³C值之差约为1.9‰.土壤胡敏酸δ¹³C值比土壤有机碳低1‰～2‰,更接近于油菜和水稻秸秆及根系的δ¹³C值.土壤富里酸δ¹³C值分别较土壤有机碳和胡敏酸高2‰和4‰.耕作层和犁底层胡敏素δ¹³C值分别介于-23.7‰～-24.9‰和-22.6‰～-24.2‰,δ¹³C值的变化反映了耕层中腐殖质的新老混合现象.各有机组分δ¹³C值递减顺序为：胡敏素＞富里酸＞土壤有机碳＞稻草（油菜）残体＞胡敏酸.长期水稻种植有利于增加土壤有机碳含量,同时,耕作方式影响土壤腐殖质δ¹³C在耕作层和犁底层中的分布格局.     

Reproductive and neurobehavioral effects of maternal exposure to piperonyl butoxide (PBO) in F1‐generation mice

Female mice were exposed maternally to piperonyl butoxide (PBO) through diet to provide levels of 0 (control), 0.015, 0.03, and 0.06% during gestation and lactation periods, and selected reproductive and neurobehavioral parameters were measured in F₁ generation. There was no adverse effect of PBO on litter size, litter weight, or sex ratio at birth. The average body weights of offspring showed no significant effects of PBO treatment through the lactation period in both sexes except for the low‐dose group of females on PND 21. With respect to behavioral developmental parameters, swimming direction of female offspring on PND 7 was significantly accelerated in the low‐dose group (p = 0.022). Exploratory behavior examination in male offspring indicated that total distance and movement time shortened significantly in dose‐related manners (p = 0.0138 and 0.00231, respectively), average time of rearing lengthened significantly in a dose‐related manner (p = 0.00814), and the frequencies of mice with urination was increased significantly in a dose‐related manner (p < 0.05). For spontaneous behavior examination, the average time of movement in males and average time of rearing in females showed slightly dose‐related effects in the F₁ generation. The dose levels of PBO in the present study produced some adverse effects in neurobehavioral parameters in mice.     

Diurnal and seasonal variations in stomatal conductance of rice at elevated atmospheric CO2 under fully open‐air conditions

Understanding of leaf stomatal responses to the atmospheric CO₂ concentration, [CO₂], is essential for accurate prediction of plant water use under future climates. However, limited information is available for the diurnal and seasonal changes in stomatal conductance (g_s) under elevated [CO₂]. We examined the factors responsible for variations in g_s under elevated [CO₂] with three rice cultivars grown in an open‐field environment under flooded conditions during two growing seasons (a total of 2140 individual measurements). Conductance of all cultivars was generally higher in the morning and around noon than in the afternoon, and elevated [CO₂] decreased g_s by up to 64% over the 2 years (significantly on 26 out of 38 measurement days), with a mean g_s decrease of 23%. We plotted the g_s variations against three parameters from the Ball‐Berry model and two revised versions of the model, and all parameters explained the g_s variations well at each [CO₂] in the morning and around noon (R² > 0.68), but could not explain these variations in the afternoon (R² < 0.33). The present results provide an important basis for modelling future water use in rice production.