Complestatin prevents apoptotic cell death: inhibition of a mitochondrial caspase pathway through AKT/PKB activation

Complestatin, a bicyclo hexapeptide from Streptomyces, was isolated as a possible regulator of neuronal cell death. In this study, we report an anti-apoptotic activity of complestatin and its underlying molecular mechanism. Complestatin blocked TRAIL (TNF-related apoptosis-inducing ligand)-induced apoptosis and activation of caspase-3 and -8 at micromolar concentration levels without inhibiting the catalytic activities of these caspases. Complestatin potently induced a rapid and sustained AKT/PKB activation and Bad phosphorylation, resulting in inhibition of mitochondrial cytochrome c release. These anti-apoptotic activities of complestatin were significantly abrogated in cells expressing dominant negative AKT/PKB. Taken together, our results suggest that complestatin prevents apoptotic cell death via AKT/PKB-dependent inhibition of the mitochondrial apoptosis signal pathway. The novel property of complestatin may be valuable for developing new pharmaceutical means that will control unwanted cell death.     

Regulation of biosynthesis and intracellular localization of rice and tobacco homologues of nucleosome assembly protein 1

The nucleosome assembly protein 1 (NAP1) is considered to be a conserved histone chaperone, facilitating the assembly of nucleosomes in all eukaryotes. However, studies in yeast and animal cells also indicated that NAP1 proteins have diverse functions likely independent of nucleosome-assembly activity. Here, we describe the isolation and characterization of cDNAs encoding NAP1-like proteins from the monocotyledon rice ( Oryza sativa L.) and the dicotyledon tobacco ( Nicotiana tabacum L.). Northern-blot analysis demonstrated that the two rice NAP1-like genes are predominantly expressed in stem tissues such as root and shoot apical meristems as well as in young flowers. During the cell cycle, all four tobacco NAP1-like genes are highly expressed, with one of them showing a slightly increased expression at the G1/S transition. These results are consistent with a role for plant NAP1-like proteins in cell division. In vitro binding assays revealed that different NAP1-like proteins bind, with distinct relative binding strengths, to different classes of histone. Intracellular localization analyses showed that some NAP1-like proteins could be targeted into the nucleus whereas others are exclusively cytoplasm-localized. It is thus likely that different plant NAP1-like proteins have distinct functions in vivo. Plant NAP1-like proteins were observed to concentrate around the metaphase plate and in the phragmoplast, suggesting a role in mitotic events and cytokinesis.     

Calmodulin mediates brain-derived neurotrophic factor cell survival signaling upstream of Akt kinase in embryonic neocortical neurons

As a calcium-sensing protein, calmodulin acts as a transducer of the intracellular calcium signal for a variety of cellular responses. Although calcium is an important regulator of neuronal survival during development of the nervous system and is also implicated in the pathogenesis of neurodegenerative disorders, it is not known if calmodulin mediates these actions of calcium. To determine the role of calmodulin in regulating neuronal survival and death, we overexpressed calmodulin with mutations in all four Ca(2+)-binding sites (CaM(1-4)) or with disabled C-terminal Ca(2+)-binding sites (CaM(3,4)) in cultured neocortical neurons by adenoviral gene transfer. Long-term neuronal survival was decreased in neurons overexpressing CaM(1-4) and CaM(3,4), which could not be rescued by brain-derived neurotrophic factor (BDNF). The basal level of Akt kinase activation was decreased, and the ability of BDNF to activate Akt was completely abolished in neurons overexpressing CaM(1-4) or CaM(3,4). In contrast, BDNF-induced activation of p42/44 MAPKs was unaffected by calmodulin mutations. Treatment of neurons with calmodulin antagonists and a phosphatidylinositol 3-kinase inhibitor blocked the ability of BDNF to prevent neuronal death, whereas inhibitors of calcium/ calmodulin-dependent protein kinase II did not. Our findings demonstrate a pivotal role for calmodulin in survival signaling by BDNF in developing neocortical neurons by activating a transduction pathway involving phosphatidylinositol 3-kinase and Akt. In addition, our findings show that the C-terminal Ca(2+)-binding sites are critical for calmodulin-mediated cell survival signaling.     

Membrane properties of rat embryonic multipotent neural stem cells

We have characterized several potential stem cell markers and defined the membrane properties of rat fetal (E10.5) neural stem cells (NSC) by immunocytochemistry, electrophysiology and microarray analysis. Immunocytochemical analysis demonstrates specificity of expression of Sox1, ABCG2/Bcrp1, and shows that nucleostemin labels both progenitor and stem cell populations. NSCs, like hematopoietic stem cells, express high levels of aldehyde dehydrogenase (ALDH) as assessed by Aldefluor labeling. Microarray analysis of 96 transporters and channels showed that Glucose transporter 1 (Glut1/Slc2a1) expression is unique to fetal NSCs or other differentiated cells. Electrophysiological examination showed that fetal NSCs respond to acetylcholine and its agonists, such as nicotine and muscarine. NSCs express low levels of tetrodotoxin (TTX) sensitive and insensitive sodium channels and calcium channels while expressing at least three kinds of potassium channels. We find that gap junction communication is mediated by connexin (Cx)43 and Cx45, and is essential for NSC survival and proliferation. Overall, our results show that fetal NSCs exhibit a unique signature that can be used to determine their location and assess their ability to respond to their environment.     

广西山地农业化背景下鸟类多样性比较

随着农业用地需求增加, 生物多样性受到严重威胁并急剧下降。为探讨农业化对鸟类多样性的影响, 本文在2020年10月至2021年10月期间, 对广西大瑶山、大明山、十万大山3个国家级自然保护区以及周边农田区域内鸟类进行了调查。研究选取森林、近地农田(距离森林较近的农田)、远地农田(距离森林较远的农田) 3种生境, 布设样点共计180个, 并在不同季节(春、夏、秋、冬)对鸟类多样性进行了调查。结果如下: (1) 3种生境物种累积曲线呈先快速上升, 后变为渐近线或增速放缓趋势, 各生境实际调查鸟类物种数与预测值比例均大于60%, 表明鸟类调查充分; (2)共记录到鸟类196种, 隶属于14目54科, 其中雀形目鸟类占比最高(71.4%)。不同生境记录到鸟类种数从多到少依次为: 森林(103)、近地(101)、远地(94); (3)相似性分析结果表明, 森林与近地农田和远地农田间鸟类相似性差异都较大, 近地与远地间鸟类群落更为相似; (4) 3种生境鸟类群落Shannon-Wiener多样性指数在不同季节里均表现为: 远地 > 近地 > 森林; (5)广义线性混合模型结果显示, 两种农田生境鸟类多样性显著高于森林, 而近地和远地农田生境间鸟类多样性无显著差异。研究结果表明, 虽然森林鸟类多样性较低, 但对其特有种具有较高的保护作用; 尽管鸟类对农田生境表现出更高的喜好, 但农田内人为干扰较为频繁, 缺乏相关的保护措施, 应加强对农田鸟类的保护。     

2015年中国植物科学若干领域重要研究进展

2015年中国植物科学研究处于飞速发展的态势, 主要表现在中国植物生命科学家在国际顶级学术刊物发表文章的数量呈现出明显的优势。中国科学家在植物学诸多领域取得了骄人的成果, 如高等植物PSI与捕光天线的超分子复合物晶体结构的解析、水稻感知和耐受寒害机制、乙烯信号转导分子机制研究等。2015年中国生命科学领域十大进展中, 植物科学领域有两项成果入选。值得一提的是, 中国本土科学家因青蒿素的发现与抗疟疾药物新疗法的开创首次获得自然科学领域的诺贝尔奖, 标志着中国植物化学和中药学对人类健康事业的巨大贡献受到国际高度关注, 也标志着中国科学家围绕国家重大需求开展科学技术问题研究模式的有效性和影响力。中国植物科学从跟踪、并行, 逐渐迈入领跑学科发展的方阵。该文对2015年中国本土植物科学若干领域取得的重要研究成果进行了概括性评述, 旨在全面追踪当前中国植物科学领域发展的最新前沿和热点事件, 并与国内读者分享我国科学家所取得的杰出成就。