不同程度慢性阻塞性肺疾病患者血清FIB、RDW、MDW及IL-6的表达水平及其与肺功能、急性发作的相关性分析

摘要 目的：分析不同程度慢性阻塞性肺疾病（COPD）患者血清纤维蛋白原（FIB）、红细胞分布宽度（RDW）、单核细胞体积分布宽度（MDW）及白介素6（IL-6）的表达水平及其与肺功能、急性发作的相关性。方法：选择我院自2021年4月至2023年4月接诊的148例COPD患者纳入观察组,根据气流受限严重程度分为轻-中度气流受限组（96例）和重-极重度气流受限组（52例）;另选同期的148例健康体检者纳入对照组。检测所有入选者血清FIB、RDW、MDW及IL-6的表达水平,比较不同组别之间血清FIB、RDW、MDW及IL-6的表达水平,使用Pearson相关性分析血清FIB、RDW、MDW及IL-6与肺功能指标[第一秒用力呼气容积与用力肺活量（FEV₁/FVC）占预计值百分比和第一秒用力呼气容积占预计值百分比（FEV₁%）]的关系,ROC曲线分析血清FIB、RDW、MDW及IL-6对急性发作的预测效能。结果：观察组血清FIB、RDW、MDW及IL-6的表达水平均高于对照组（P<0.05）;重-极重度气流受限组血清FIB、RDW、MDW及IL-6的表达水平均高于轻-中度气流受限组（P<0.05）;经Pearson相关性分析,COPD患者血清FIB、RDW、MDW及IL-6的表达水平与FEV₁/FVC占预计值百分比、FEV₁%均呈负相关（P<0.05）;经ROC曲线分析,血清FIB、RDW、MDW联合IL-6预测COPD急性发作的敏感度为66.35%,特异度为90.42%、AUC为0.912。结论：不同程度COPD患者血清FIB、RDW、MDW及IL-6的表达水平存在差异,血清FIB、RDW、MDW及IL-6与其肺功能密切相关,联合对急性发作具有一定预测价值。     

Arabidopsis XXT5 gene encodes a putative alpha-1,6-xylosyltransferase that is involved in xyloglucan biosynthesis

The function of a putative xyloglucan xylosyltransferase from Arabidopsis thaliana (At1g74380; XXT5) was studied. The XXT5 gene is expressed in all plant tissues, with higher levels of expression in roots, stems and cauline leaves. A T-DNA insertion in the XXT5 gene generates a readily visible root hair phenotype (root hairs are shorter and form bubble-like extrusions at the tip), and also causes the alteration of the main root cellular morphology. Biochemical characterization of cell wall polysaccharides isolated from xxt5 mutant seedlings demonstrated decreased xyloglucan quantity and reduced glucan backbone substitution with xylosyl residues. Immunohistochemical analyses of xxt5 plants revealed a selective decrease in some xyloglucan epitopes, whereas the distribution patterns of epitopes characteristic for other cell wall polysaccharides remained undisturbed. Transformation of xxt5 plants with a 35S::HA-XXT5 construct resulted in complementation of the morphological, biochemical and immunological phenotypes, restoring xyloglucan content and composition to wild-type levels. These data provide evidence that XXT5 is a xyloglucan alpha-1,6-xylosyltransferase, and functions in the biosynthesis of xyloglucan.     

Salinomycin induces calpain and cytochrome c-mediated neuronal cell death

Salinomycin is a polyether antibiotic with properties of an ionophore, which is commonly used as cocciodiostatic drug and has been shown to be highly effective in the elimination of cancer stem cells (CSCs) both in vitro and in vivo. One important caveat for the potential clinical application of salinomycin is its marked neural and muscular toxicity. In the present study we show that salinomycin in concentrations effective against CSCs exerts profound toxicity towards both dorsal root ganglia as well as Schwann cells. This toxic effect is mediated by elevated cytosolic Na⁺ concentrations, which in turn cause an increase of cytosolic Ca²⁺ by means of Na⁺/Ca²⁺ exchangers (NCXs) in the plasma membrane as well as the mitochondria. Elevated Ca²⁺ then leads to calpain activation, which triggers caspase-dependent apoptosis involving caspases 12, 9 and 3. In addition, cytochrome c released from depolarized mitochondria directly activates caspase 9. Combined inhibition of calpain and the mitochondrial NCXs resulted in significantly decreased cytotoxicity and was comparable to caspase 3 inhibition. These findings improve our understanding of mechanisms involved in the pathogenesis of peripheral neuropathy and are important to devise strategies for the prevention of neurotoxic side effects induced by salinomycin.     

The ecology of marine exploitation in prehistoric Hawaii

Archaeological evidence for prehistoric strategies of marine exploitation in Oceania may be profitably analyzed from an ecological perspective, in which individual sites and assemblages are viewed in the context of adaptation to local environmental constraints. This perspective is illustrated through the contrastive analysis of environment, technology, and faunal remains at three prehistoric Hawaiian sites. Differing strategies of marine exploitation evidenced for each site are shown to reflect local marine environmental conditions. An ecological approach shows greater promise for an understanding of prehistoric adaptation to marine environment than the typological analyses current in much archaeological work on fishing.     

Effects of foliar sprays of azoxystrobin on take-all in wheat

Average percentages of winter wheat plants with severe take‐all were decreased by up to half by azoxystrobin applied as foliar sprays in four field experiments. Decreased take‐all in three of the experiments was associated with increased grain yield but effects on other diseases may have contributed to these responses. Standard fungicide sprays were ineffective. The effects differed, but not consistently, among different cultivars that were tested in three of the experiments. One, two or three sprays of azoxystrobin or kresoxim‐methyl, in autumn, spring or summer, were tested in the fourth experiment. Unlike azoxystrobin, kresoxim‐methyl had no consistent effects but a smaller amount was applied. Two or three sprays of azoxystrobin were more effective than a single spray but their timing was unimportant. Such control of a root disease by a foliar‐applied fungicide is unusual but may help to explain some of the unexpectedly large yield responses to azoxystrobin that have been reported. This relatively broad‐spectrum fungicide may have the potential to contribute to the practical management of take‐all but further research is needed to determine how best to exploit its effects consistently.     

Nitrogen use efficiency by a slow-growing species as affected by CO2 levels, root temperature, N source and availability

This study examines the importance of N source and concentration on plant response to distinct CO₂ concentrations and root temperatures. The experimental design of this work was a factorial combination of: CO₂ concentration, nitrogen concentration, nitrogen source and root temperature. Carob (Ceratonia siliqua L.) was assessed as a potential model of a slow growing Mediterranean species.

The results showed that: 1) biomass increment under high CO₂ varied between 13 and 100 percnt; in relation to plants grown under the same conditions but at ambient CO₂ concentrations, depending on the root temperature and nitrogen source; 2) nitrate-fed plants attained a larger increase in biomass production compared to ammonium-fed ones. This performance seems to be linked to the co-ordinated regulation of the activities of glutamine synthetase and sucrose phosphate synthase. The variations in the magnitude and nature of growth responses to elevated CO₂ observed resulted in substantial changes in the chemical composition of the plant material and consequently in plant nitrogen use efficiency.

Although performed with seedlings and under controlled conditions, this work emphasizes the importance of the nitrogen source used by the plants, a factor rarely taken into consideration when forecasting plant responses to global changes. Particularly, the results presented here, highlight the potential for uncoupling biomass accumulation from increment of air CO₂ concentration and show that more than nitrogen availability N source may offset positive plant growth responses under elevated CO₂ and root temperature.