入侵植物三裂叶豚草在中国的潜在适生区预测

[目的] 三裂叶豚草是中国重点防控的入侵植物,研究其潜在的适生区分布格局变化对预警防控具有重要意义。[方法] 基于MaxEnt优化模型预测当前及未来（RCP2.6、RCP4.5、RCP8.5）气候情景下三裂叶豚草潜在的地理分布格局。[结果] 当调控倍频（RM）=3.5,FC（特征组合）=LQH（线性、二次型、片段化组合）时为最优模型,MaxEnt模型的预测结果较准确,受试者工作特征曲线下的面积（AUC值）达0.9287;综合8种途径评估出人类活动因子（hfp,贡献率69%）、等温性（bio3,贡献率8.9%）、温度季节变动系数（bio4,贡献率2.9%）、年降水量（bio12,贡献率7.3%）和海拔（ELEV,贡献率3.7%）是制约三裂叶豚草潜在地理分布的主要环境因子;在当前气候情景下,三裂叶豚草的高适生区主要集中在东北平原、江淮地区、京津冀、山东半岛等经济发达地区。[结论] 在未来气候变化情景下,三裂叶豚草在我国的潜在适生区范围总体呈现不同程度的缩减,即丧失率大于增加率;三裂叶豚草将有向南迁移的趋势;最冷月最低温度（bio6）是最不相似变量分析中出现频次最高的因子,表明温度因素对三裂叶豚草潜在地理分布变迁起到重要制约作用。本研究结果可为三裂叶豚草的预防和控制提供理论基础。     

龙血树叶降血糖活性多糖的纯化及结构解析

龙血树(Dracaena Vandelli ex Linnaeus)是一种热带特有的珍稀药用植物。傣族贝叶经记载龙血树叶具有和血竭相似的医疗功效,且市场反馈显示对糖尿病有一定治疗效果,但其降血糖机制尚未揭示。将柬埔寨龙血树叶在L6大鼠成肌细胞降糖活性模型指导下,经热水浸提、醇沉制备粗多糖,再经Sevag法除蛋白、A-722MP阴离子交换树脂脱色后,上DEAE-52纤维素柱层析和Sephacryl S-100HR凝胶柱分离纯化,得到单一活性组分LZS,利用紫外、红外、核磁共振波谱以及HPAEC-PAD色谱法对LZS的结构进行鉴定。活性组分LZS为7种单糖和柠檬酸组成的一种多糖衍生物,单糖组成为:果糖、葡萄糖、半乳糖、阿拉伯糖、鼠李糖、甘露糖、木糖,摩尔比为54.3∶29.5∶6.9∶6.2∶2.1∶0.7∶0.4,主要由果糖和葡萄糖聚合而成,龙血树叶多糖结构新颖,具有明显的细胞活性。实验结果初步阐明了龙血树叶降糖活性的化学本质,为龙血树叶的利用提供了科学依据。     

PTEN overexpression promotes glioblastoma death through triggering mitochondrial division and inactivating the Akt pathway

Abstract

Objective: PTEN has been acknowledged as an anticancer factor in the progression of glioblastoma. Mitochondrial division has been found to be associated with cancer cell death.

Objective: The aim of our study is to explore whether PTEN attenuates the development of glioblastoma by modulating mitochondrial division.

Materials and methods: PTEN adenovirus was used to overexpress PTEN in U87 cells. Mitochondrial function was detected via western blot and immunofluorescence. Pathway blocker was used to inhibit the Akt activation.

Results: The results of our study demonstrated that PTEN overexpression reduced cell viability by increasing cell apoptosis. At the molecular level, PTEN overexpression activated mitochondrial apoptosis by mediating mitochondrial dysfunction. Furthermore, we found that Drp1-related mitochondrial division was required for PTEN-mediated mitochondrial dysfunction and cell death. Finally, we found that PTEN modulated Drp1-related mitochondrial division via the Akt pathway; inactivation of Akt induced cell death, and mitochondrial damage, similar to the results obtained via PTEN overexpression.

Conclusions: Taken together, our results clarify that the anticancer mechanism of PTEN in glioblastoma is dependent on the activation of Drp1-related mitochondrial division via Akt pathway modulation. This finding might provide new insight into the tumor-suppressive role played by PTEN in glioblastoma.     

25-Hydroxyvitamin D3-Loaded PLA Microspheres: In Vitro Characterization and Application in Diabetic Periodontitis Models

This study aimed at the preparation of a sustained-release 25-hydroxyvitamin D₃ (25OHD) treatment for diabetic periodontitis, a known complication of diabetes. 25OHD-loaded polylactic acid (PLA) microspheres were prepared using oil-in-water emulsion–solvent evaporation method. The prepared microspheres exhibited intact surfaces, with average sizes ranging from 42.3 to 119.4 μm. The encapsulation efficiency ranged from 79.2% (w/w) to 88.5% (w/w), and the drug content was between 15.8% (w/w) and 17.8% (w/w). Drug release from the produced microspheres followed a near-to-zero-order release pattern and lasted over 10 weeks. In an in vitro model of diabetic periodontitis, the abnormal morphological changes and the decrease in the cell viability of bone marrow stromal cells could be effectively attenuated after the 25OHD-loaded microsphere application. Additionally, in a rat model of diabetic periodontitis, alveolar bone loss was inhibited and osteoid formation in the periodontium was promoted upon 25OHD-loaded microsphere treatment. In conclusion, 25OHD-loaded PLA microspheres may provide an effective approach for the treatment of this disease.     

Activated Cyclin-Dependent Kinase 5 Promotes Microglial Phagocytosis of Fibrillar β-Amyloid by Up-regulating Lipoprotein Lipase Expression

Amyloid plaques are crucial for the pathogenesis of Alzheimer disease (AD). Phagocytosis of fibrillar β-amyloid (Aβ) by activated microglia is essential for Aβ clearance in Alzheimer disease. However, the mechanism underlying Aβ clearance in the microglia remains unclear. In this study, we performed stable isotope labeling of amino acids in cultured cells for quantitative proteomics analysis to determine the changes in protein expression in BV2 microglia treated with or without Aβ. Among 2742 proteins identified, six were significantly up-regulated and seven were down-regulated by Aβ treatment. Bioinformatic analysis revealed strong over-representation of membrane proteins, including lipoprotein lipase (LPL), among proteins regulated by the Aβ stimulus. We verified that LPL expression increased at both mRNA and protein levels in response to Aβ treatment in BV2 microglia and primary microglial cells. Silencing of LPL reduced microglial phagocytosis of Aβ, but did not affect degradation of internalized Aβ. Importantly, we found that enhanced cyclin-dependent kinase 5 (CDK5) activity by increasing p35-to-p25 conversion contributed to LPL up-regulation and promoted Aβ phagocytosis in microglia, whereas inhibition of CDK5 reduced LPL expression and Aβ internalization. Furthermore, Aβ plaques was increased with reducing p25 and LPL level in APP/PS1 mouse brains, suggesting that CDK5/p25 signaling plays a crucial role in microglial phagocytosis of Aβ. In summary, our findings reveal a potential role of the CDK5/p25-LPL signaling pathway in Aβ phagocytosis by microglia and provide a new insight into the molecular pathogenesis of Alzheimer disease.Alzheimer disease (AD)¹ is one of the most common neurodegenerative disorders, which is characterized by pathological hallmarks such as neuronal and synaptic loss, neurofibrillary tangles (NFTs), and senile plaques. The intracellular NFTs are mainly composed of hyper-phosphorylated microtubule-associated protein tau, whereas toxic fibrillar β-amyloid (fAβ) as the main component of senile plaques is generated by sequential proteolytic cleavage of trans-membrane β-amyloid precursor protein (APP) by β- and γ-secretases. fAβ can induce oxidative stress-mediated neuronal cell death and cause cognitive impairment in mouse brains (1). Many reports suggest that fAβ induces dysregulation of two pivotal kinases CDK5 (2, 3) and GSK-3 (4), which are crucial regulators of hyperphosphorylated tau and increased production of Aβ from APP, and thereby triggers the cascade of signal transduction events underlying neuronal cell death in AD pathogenesis.As the resident immune cells in the brain, microglia can be activated in response to fAβ and often accumulate around the amyloid deposits in the brains of AD patients. Activated microglia trigger the production of inflammatory factors, reactive oxygen species, and chemokines, which may cause neuronal cell death (5). Furthermore, increasing evidence supports that activated microglia exert a vital beneficial role in the clearance of Aβ by phagocytosis. Many receptors, including scavenger receptor A (SR-A) (6), scavenger receptor class B type I (SR-BI) (7), lipopolysaccharide receptor (CD14) (8), CD33 (9), B-class scavenger receptor CD36 (10), CD47 (11), β1 integrin (12), toll-like receptor 2 (TLR2) (13), and toll-like receptor 4 (TLR4) (14), have been implicated in microglial phagocytosis of fAβ via direct or indirect binding to Aβ. Microglial phagocytosis of fAβ is also regulated by proinflammatory cytokines (15) and chemokine receptor CX3CR1 (16). Farfara et al. reported that the γ-secretase component presenilin, which is responsible for APP cleavage and Aβ production in neurons, is important for microglial fAβ clearance, indicating a dual role for presenilin in neuronal cell death and microglial phagocytosis (17). In addition, accumulating evidence suggests a critical role of lipids and lipoproteins in microglial fAβ phagocytosis and clearance. Lee et al. reported that apolipoprotein E (ApoE) enhances fAβ trafficking and degradation, indicating a role of cholesterol in fAβ degradation (18). After internalization, fAβ is degraded through the lysosome pathway (19, 20). However, the mechanism underlying microglial internalization of fAβ remains unclear.Stable isotope labeling of amino acids in cell culture (SILAC) is an accurate and reproducible mass spectrometry-based quantitative proteomics approach for examining changes in protein expression or post-translational modifications at a large scale (21, 22). Here, we used the SILAC quantitative proteomics strategy to investigate changes in the protein levels in BV2 microglia treated with fAβ. We found that 6 proteins were up-regulated and 7 were down-regulated significantly by Aβ treatment. Interestingly, bioinformatic analysis revealed that most of these up- or down-regulated proteins, including lipoprotein lipase (LPL), were mainly distributed in the cell membrane. We verified that LPL was up-regulated at both gene and protein levels in BV2 and primary microglia in response to fAβ, thereby indicating its role in the microglial phagocytosis of Aβ. Importantly, we further demonstrated that CDK5, which is a critical serine/threonine kinase in the pathogenesis of AD, regulated the expression of LPL and played a critical role in Aβ phagocytosis of microglia. Moreover, we found that increase in the p35-to-p25 conversion contributed to the enhanced CDK5 activity under Aβ stimulus and played a vital role in regulation of LPL expression and microglial Aβ phagocytosis. Our results suggest a role of the CDK5/p25-LPL signaling pathway in Aβ phagocytosis of microglia and provide valuable information to understand the molecular mechanism underlying microglial fAβ phagocytosis.     

Change of eye shape during metamorphosis in two flatfishes, Paralichthys olivaceus and Solea senegalensis, with comparison of eye shape within the Pleuronectiformes

The most remarkable developmental event during metamorphosis in flatfish (Pleuronectiformes) is the migration of their eyes; one eye migrates upwards, then passes through the dorsal midline, and finally stops on the other side. In this study, we determined that the ratio of the movable eye diameter on the transverse axis (DTA) to that on the vertical axis (DVA) increased during the metamorphosis of Paralichthys olivaceus and Solea senegalensis. Based on the recently proposed hypothesis that eye migration of flatfishes is caused by the push force from the proliferated tissue of the suborbital region, we postulated that the eye shape change is a result of the same force. Measurements of eye proportions in 20 species of adult flatfishes revealed that the DTA is constantly larger than the DVA, suggesting that the mechanisms of eye shape change and eye migration driven by proliferating cells in the suborbital tissue are universal among flatfishes.     

Adiponectin: A biomarker for rheumatoid arthritis?

Recent achievements in the biology and the function of adipose tissue have regarded white adipose tissue (WAT) as an important endocrine and secretory organ. Releasing a series of multiple-function mediators, WAT is involved in a wide spectrum of diseases, including not only cardiovascular and metabolic complications, such as atherosclerosis and type 2 diabetes, but also inflammatory- and immune-related disorders, such as rheumatoid arthritis (RA) and osteoarthritis (OA). A large number of these mediators, called adipokines, such as tumor necrosis factor alpha (TNF-α), leptin, adiponectin, resistin, chemerin, interleukin-6 (IL-6), visfatin, and so on have been identified and studied widely. Important advances related to these proteins shed new insights into the pathophysiological mechanisms of many complicated diseases, although details of which remain unclear. Adiponectin, one of the most widely investigated adipokine, has been shown to possess both anti- and pro-inflammatory effects. RA is a chronic systemic inflammatory-related autoimmune disease. Accumulated evidence has demonstrated that cytokines and adipokines play an important role in the pathogenesis of RA. In this review, we have summarized the most recent advances in adiponectin research in the context of RA, focusing primarily on its effect on RA-related cells, its regulation on pro-inflammatory cytokines, as well as its validation as a biomarker for RA.     

Cumulative Effect in Information Diffusion: Empirical Study on a Microblogging Network

Cumulative effect in social contagion underlies many studies on the spread of innovation, behavior, and influence. However, few large-scale empirical studies are conducted to validate the existence of cumulative effect in information diffusion on social networks. In this paper, using the population-scale dataset from the largest Chinese microblogging website, we conduct a comprehensive study on the cumulative effect in information diffusion. We base our study on the diffusion network of message, where nodes are the involved users and links characterize forwarding relationship among them. We find that multiple exposures to the same message indeed increase the possibility of forwarding it. However, additional exposures cannot further improve the chance of forwarding when the number of exposures crosses its peak at two. This finding questions the cumulative effect hypothesis in information diffusion. Furthermore, to clarify the forwarding preference among users, we investigate both structural motif in the diffusion network and temporal pattern in information diffusion process. Findings provide some insights for understanding the variation of message popularity and explain the characteristics of diffusion network.     

Tissue-Specific and Cation/Anion-Specific DNA Methylation Variations Occurred in C. virgata in Response to Salinity Stress

Salinity is a widespread environmental problem limiting productivity and growth of plants. Halophytes which can adapt and resist certain salt stress have various mechanisms to defend the higher salinity and alkalinity, and epigenetic mechanisms especially DNA methylation may play important roles in plant adaptability and plasticity. In this study, we aimed to investigate the different influences of various single salts (NaCl, Na₂SO₄, NaHCO₃, Na₂CO₃) and their mixed salts on halophyte Chloris. virgata from the DNA methylation prospective, and discover the underlying relationships between specific DNA methylation variations and specific cations/anions through the methylation-sensitive amplification polymorphism analysis. The results showed that the effects on DNA methylation variations of single salts were ranked as follows: Na₂CO₃> NaHCO₃> Na₂SO₄> NaCl, and their mixed salts exerted tissue-specific effects on C. virgata seedlings. Eight types of DNA methylation variations were detected and defined in C. virgata according to the specific cations/anions existed in stressful solutions; in addition, mix-specific and higher pH-specific bands were the main type in leaves and roots independently. These findings suggested that mixed salts were not the simple combination of single salts. Furthermore, not only single salts but also mixed salts showed tissue-specific and cations/anions-specific DNA methylation variations.