The N-acylethanolamine-mediated regulatory pathway in plants

While cannabinoids are secondary metabolites synthesized by just a few plant species, N-acylethanolamines (NAEs) are distributed widely in the plant kingdom, and are recovered in measurable, bioactive quantities in many plant-derived products. NAEs in higher plants are ethanolamides of fatty acids with acyl-chain lenghts of C12-C(18) and zero to three C=C bonds. Generally, the most-abundant NAEs found in plants and vertebrates are similar, including NAE 16 : 0, 18 : 1, 18 : 2, and 18 : 3. Like in animal systems, NAEs are formed in plants from N-acylphosphatidylethanolamines (NAPEs), and they are hydrolyzed by an amidase to yield ethanolamine and free fatty acids (FFA). Recently, a homologue of the mammalian fatty acid amide hydrolase (FAAH-1) was identified in Arabidopsis thaliana and several other plant species. Overexpression of Arabidopsis FAAH (AtFAAH) resulted in plants that grew faster, but were more sensitive to biotic and abiotic insults, suggesting that the metabolism of NAEs in plants resides at the balance between growth and responses to environmental stresses. Similar to animal systems, exogenously applied NAEs have potent and varied effects on plant cells. Recent pharmacological approaches combined with molecular-genetic experiments revealed that NAEs may act in certain plant tissues via specific membrane-associated proteins or by interacting with phospholipase D-alpha, although other, direct targets for NAE action in plants are likely to be discovered. Polyunsaturated NAEs can be oxidized via the lipoxygenase pathway in plants, producing an array of oxylipin products that have received little attention so far. Overall, the conservation of NAE occurrence and metabolic machinery in plants, coupled with the profound physiological effects of elevating NAE content or perturbing endogenous NAE metabolism, suggest that an NAE-mediated regulatory pathway, sharing similarities with the mammalian endocannabinoid pathway, indeed exists.     

Inhalation developmental neurotoxicity study of ethylbenzene in Crl-CD rats

BACKGROUND: This study was conducted to evaluate the potential adverse effects of whole-body inhalation exposure of F0 and F1 parental animals from a 2-generation reproduction study of ethylbenzene on nervous system functional and/or morphologic end points in the F2 offspring from four groups of male and female Crl:CD (SD)IGS BR rats. METHODS: Thirty rats/sex/group for F0 and 25/sex/group for F1 were exposed to 0, 25, 100, and 500 ppm ethylbenzene for six hours daily for at least 70 consecutive days prior to mating for the F0 and F1 generations. Inhalation exposure for the F0 and F1 females continued throughout mating and gestation through Gestation Day (GD) 20. On lactation days (LD) 1-4, the F0 and F1 females received no inhalation exposure, but instead were administered ethylbenzene in corn oil via oral gavage at dosages estimated to result in similar internal maternal exposure based upon PBPK modeling estimates (0, 26, 90, and 342 mg/kg/day, respectively, divided into three equal doses, approximately two hours apart). Inhalation exposure of the F0 and F1 females was reinitiated on LD 5 and continued through weaning on postnatal day (PND) 21. Survival, body weights, and physical landmarks were assessed in selected F2 offspring. Neurobehavioral development of one F2-generation treatment derived offspring/sex/litter was assessed in a functional observational battery (FOB; PND 4, 11, 22, 45, and 60), motor activity sessions (PND 13, 17, 21, and 61), acoustic startle testing (PND 20 and 60), a Biel water maze learning and memory task (initiated on PND 26 or 62), and in evaluations of whole-brain measurements and brain morphometric and histologic assessments (PND 21 and 72). RESULTS: There were no adverse effects on reproductive performance in either the F0 or F1 parental generations exposed to up to 500 ppm ethylbenzene [Faber et al. Birth Defects Res Part B 77:10-21, 2006]. In the current developmental neurotoxicity component, parental ethylbenzene exposure did not adversely affect offspring survival, clinical condition, body weight parameters, or acquisition of developmental landmarks of the F2-generation treatment derived offspring. There were no alterations in FOB parameters, motor activity counts, acoustic startle endpoints, or Biel water maze performance in offspring attributed to parental ethylbenzene exposure. A few isolated instances of statistically significant differences obtained in the treatment-derived groups occurred sporadically, and were attributed to unusual patterns of development and/or behavior in the concurrent control group. There were no exposure-related differences in any neuropathology parameters in the F2-generation treatment derived offspring. CONCLUSIONS: The no observed adverse effect level (NOAEL) for maternal reproductive toxicity, developmental toxicity, and developmental neurotoxicity in this study was considered to be 500 ppm/342 mg/kg/day ethylbenzene, the highest exposure level tested in the study.     

An alternative Alcian Blue dye variant for the evaluation of fetal cartilage

BACKGROUND: The most comprehensive evaluation of vertebrate skeletal development involves the use of Alizarin Red S dye to stain ossified bone and various other dyes to stain cartilage. The dye used most widely to stain fetal cartilage in rodents and rabbits is Alcian Blue 8GX. However, the global supply of this specific dye has been exhausted. Several forms of the dye marketed as Alcian Blue 8GX are now available, although they are not synthesized via the original 8GX manufacturing process. METHODS: One new Alcian Blue 8GX form and two Alcian Blue dye variants were evaluated in rats and rabbits using standard staining procedures. The staining quality of these dyes were evaluated relative to the original form of Alcian Blue 8GX based on cartilage uptake of the dye, clarity of the cartilaginous components, staining intensity of the dye, and overall readability of the specimens under stereomicroscopic evaluation. RESULTS: Staining with the newer form of Alcian Blue 8GX resulted in poor staining quality. The Alcian Blue-Pyridine variant performed well, although staining intensity was less than optimal. The Alcian Blue-Tetrakis variant provided staining characteristics that were most similar to the original form of Alcian Blue 8GX. CONCLUSIONS: Alcian Blue-Tetrakis was markedly better in its ability to stain fetal cartilage than the newer form of Alcian Blue 8GX.     

Bodyweight and human capital development: Assessing the impact of obesity on socioemotional skills during childhood in Chile

This article analyzes the effect of bodyweight on socioemotional skills for children aged two to 12 years in Chile. Using an instrumental variable approach and a representative survey, we show that both BMI and obesity are causality related to children’s socioemotional development, even after assuming that our instrument is imperfect. Although we did not find significant differences between boys and girls, we do identify heterogeneous effects by age: the weight penalty for girls starts earlier than for boys. Our findings suggest that early interventions for childhood obesity not only might generate positive impacts on children’s health, but also a greater accumulation of non-cognitive human capital in the future.     

The value of flagship and umbrella species for restoration and sustainable development: Bale monkeys and bamboo forest in Ethiopia

Forest loss and degradation are the most significant threats to terrestrial biodiversity in the tropics. Promoting flagship or umbrella species is a strategy that can be used to conserve intact forests and restore degraded ecosystems, conserve biodiversity, and achieve sustainable development goals. The Bale monkey (Chlorocebus djamdjamensis) is an arboreal, forest-dwelling, threatened primate restricted to a small range in the southern Ethiopian Highlands, which relies mostly on a single species of bamboo (Arundinaria alpina) and prefers bamboo forest habitat. Most of the Bale monkey’s range lies outside protected areas and most of its historical bamboo forest habitat is degraded or destroyed. The conservation of Bale monkeys and bamboo is highly inter-dependent; however, the value of using the Bale monkey as a flagship or umbrella species for forest restoration has not been evaluated. Here we use geographic range overlap and geospatial modeling to evaluate Bale monkeys as a flagship and/or umbrella species. We also assess if conservation intervention on behalf of Bale monkeys can help restore bamboo forest, while simultaneously providing a wide range of socioeconomic and environmental benefits. We found that Bale monkeys share their range with 52 endemic and/or threatened vertebrate species and at least 9 endemic and/or threatened plant species. Our results show that Bale monkeys meet both the flagship and umbrella species criteria to restore bamboo forest and conserve threatened co-occurring species. Since bamboo is fast-growing and can be harvested every year, we suggest that a science-based sustainable harvest and management regime for bamboo would help to improve the livelihood of both the local community and Ethiopians in general without significantly affecting the long-term survival of Bale monkeys and regional biodiversity. Further, a conservation management strategy protecting and restoring bamboo forest has the potential to achieve at least six of the 17 United Nations Sustainable Development Goals.     

干细胞与再生医学技术发展态势研究

20世纪以来,干细胞与再生医学技术一直是国际生物医学领域的热点前沿之一,它为保障人类生命健康、改善人类生存质量和延长人类寿命发挥不可替代的巨大作用。因此,美国、欧洲国家、日本和中国等科技大国均将该领域纳入了国家科研与产业发展的重点战略中,并通过专项扶持、政策补贴、立法保障等方式激励该领域的创新发展。通过对近年来国际科技战略和科技研发态势的梳理分析,发现该领域的国际战略布局规律,揭示我国在该领域的领先优势与弱点,为我国未来干细胞与再生医学技术发展提出相关参考建议。     

CHO细胞基因组中稳定hot spot位点研究进展

近些年来,治疗性重组蛋白类药物是生物制药领域研究的热点。工业化生产中常用于重组蛋白表达的细胞系是中国仓鼠卵巢(Chinese hamster ovary,CHO)细胞。传统CHO细胞系的表达大多数基于随机整合的方式,这可能会使目标基因整合到异染色质区域或者不稳定的染色质区域,导致CHO细胞表达不稳定,需要多轮筛选才能获得理想的表达细胞系。最新研究表明,外源基因在CHO细胞预测/特定的基因组位点中进行特异性整合,可以使重组CHO细胞的表达保持长期一致性和稳定性。CHO细胞基因组中高效稳定的转录整合位点被称为热点(hot spot)。阐述CHO细胞基因组稳定的hot spot位点近几年的研究进展,其中包括热门的hot spot位点,以及如何研究新的hot spot位点的方法。总结如何将外源基因高效定位于预测的CHO细胞hot spot位点,实现高水平稳定的表达重组蛋白,为发现新的有效的hot spot位点,构建稳定表达CHO细胞系提供参考。     

早产儿血清炎性因子与生长发育指标的关系及对新生儿呼吸窘迫综合征的预测研究

摘要 目的：分析早产儿血清炎性因子与生长发育指标的关系及对新生儿呼吸窘迫综合征（RDS）的预测效能。方法：选择2018年1月至2020年10月在我院出生的98例早产儿作为研究对象,根据是否并发RDS,分为RDS组（58例）和非RDS组（40例）。检测两组血清白细胞介素-1β（IL-1β）、IL-6、IL-8、肿瘤坏死因子-α（TNF-α）、降钙素原（PCT）水平,记录生长发育指标,通过Pearson相关性分析早产儿血清炎性因子与生长发育指标的关系,使用受试者工作特征曲线（ROC）分析血清炎性因子对新生儿呼吸窘迫综合征的预测效能。结果：RDS组血清IL-1β、IL-6、IL-8、TNF-α、PCT水平均高于非RDS组（P＜0.05）;RDS组胎龄、出生体重均小于非RDS组（P＜0.05）;经Pearson相关性分析,早产儿血清IL-1β、IL-6、IL-8、TNF-α、PCT水平均与胎龄、出生体重呈负相关（P＜0.05）;经多因素Logistic回归分析,IL-1β、IL-6、IL-8、TNF-α、PCT均是早产儿并发新生儿呼吸窘迫综合征的独立危险因素（P＜0.05）;经ROC曲线分析,IL-1β、IL-6、IL-8、TNF-α联合PCT预测早产儿并发新生儿呼吸窘迫综合征的AUC为0.910。结论：早产儿血清IL-1β、IL-6、IL-8、TNF-α均与胎龄及出生体重密切相关,这些炎性因子联合预测RDS发生的效能较好,值得临床予以重视应用。     

异三聚体G蛋白调控植物生长发育功能研究进展北大核心CSCD

异三聚体GTP结合蛋白(G蛋白)是介导真核生物生长发育及逆境响应的关键信号传导组分。动物和植物异三聚体G蛋白由α、β、γ三个亚基组成。近来研究表明,尽管G蛋白核心组分和基本的生化性质在动物和植物中保守,但植物G蛋白表现出新的调控模式。由于G蛋白参与调控植物种子产量、器官大小、生物和非生物胁迫、氮素利用效率等一系列重要的农艺性状,因此对于G蛋白的研究已经成为植物学领域的研究热点。该文对近年来国内外有关植物异三聚体G蛋白的基本组成及结构、动植物G蛋白的作用模式以及G蛋白在植物生长发育过程中的调控作用和植物在逆境胁迫(干旱、温度和盐)响应中的功能等方面的研究进展进行综述,为今后开展植物G蛋白的相关研究提供参考以及为利用G蛋白改良农作物提供理论基础。