Multifunctional antistress effects of standardized aqueous extracts from Hippophae rhamnoides L.

This study aims to screen and identify the multi-mechanism antistress effects of an extract of Hippophae rhamnoides L. (HR) leaves on corticosterone (CORT)-induced injury, N-methyl-d-aspartate (NMDA) receptor and serotonin 6 (5-hydroxytryptamine 6, 5-HT₆) receptor activity tests (in vitro), electric foot shock and forced swimming tests (FSTs) (in vivo), and tests for hippocampal CORT and monoamine levels (ex vivo), in search of active principles and underlying mechanisms of action. We confirmed that the water extract of HR (HRW) and various ethanol extracts of HR confer protective effects against CORT-induced impairments in SH-SY5Y cells and antagonistic effects on NMDA receptors and the 5-HT₆ receptor by using primary cultured rat hippocampal neurons and a stable 5-HT₆ receptor-expressing cell line, respectively. In addition, we confirmed the antistress effects of HRW in an electric foot shock stress model in mice and explored the underlying mechanisms of its action. We observed that HRW treatment significantly reversed the reduction in immobility times and increased climbing times in FSTs induced by electric foot shocks in the stress model. The levels of CORT, dopamine, and norepinephrine were increased, and the level of serotonin in the hippocampus was decreased in the electric foot shock stress model. The standardized HRW effectively restored abnormal CORT and monoamine levels in the hippocampus that were induced by stress. The results of the present study demonstrate that the standardized HRW produces novel multifunctional antistress effects.     

保幼激素类似物对家蚕丝腺与脂肪体蛋白质合成的调节作用

应用示踪原子法,研究了家蚕Bombyx mori 5龄幼虫丝腺与脂肪体细胞内蛋白质合成的变化规律及保幼激素类似物(JHA738)的调节作用。从5龄初到龄末,家蚕丝腺细胞内蛋白质合成持续升高,5龄中期、后期的蛋白质合成活性分别是前期的1.60倍和2.86倍;全龄出现2个合成高峰,一个是在5龄72h,为细胞固有蛋白质合成高峰,另一个是在5龄192h,为丝蛋白合成高峰。脂肪体细胞内蛋白质合成作用呈现脉冲式的变化。在5龄前期和中期用JHA处理家蚕(剂量为4μg/条),对丝腺细胞固有蛋白质合成和脂肪体细胞蛋白质合成均表现出抑制作用,而对丝蛋白合成则表现出促进作用。本实验结果为进一步阐明JHA增丝机理提供了直接证据。     

Thermokarst rates intensify due to climate change and forest fragmentation in an Alaskan boreal forest lowland

Lowland boreal forest ecosystems in Alaska are dominated by wetlands comprised of a complex mosaic of fens, collapse‐scar bogs, low shrub/scrub, and forests growing on elevated ice‐rich permafrost soils. Thermokarst has affected the lowlands of the Tanana Flats in central Alaska for centuries, as thawing permafrost collapses forests that transition to wetlands. Located within the discontinuous permafrost zone, this region has significantly warmed over the past half‐century, and much of these carbon‐rich permafrost soils are now within ~0.5 °C of thawing. Increased permafrost thaw in lowland boreal forests in response to warming may have consequences for the climate system. This study evaluates the trajectories and potential drivers of 60 years of forest change in a landscape subjected to permafrost thaw in unburned dominant forest types (paper birch and black spruce) associated with location on elevated permafrost plateau and across multiple time periods (1949, 1978, 1986, 1998, and 2009) using historical and contemporary aerial and satellite images for change detection. We developed (i) a deterministic statistical model to evaluate the potential climatic controls on forest change using gradient boosting and regression tree analysis, and (ii) a 30 × 30 m land cover map of the Tanana Flats to estimate the potential landscape‐level losses of forest area due to thermokarst from 1949 to 2009. Over the 60‐year period, we observed a nonlinear loss of birch forests and a relatively continuous gain of spruce forest associated with thermokarst and forest succession, while gradient boosting/regression tree models identify precipitation and forest fragmentation as the primary factors controlling birch and spruce forest change, respectively. Between 1950 and 2009, landscape‐level analysis estimates a transition of ~15 km² or ~7% of birch forests to wetlands, where the greatest change followed warm periods. This work highlights that the vulnerability and resilience of lowland ice‐rich permafrost ecosystems to climate changes depend on forest type.     

Identifying and monitoring neurons that undergo metamorphosis-regulated cell death (metamorphoptosis) by a neuron-specific caspase sensor (Casor) in <Emphasis Type="Italic">Drosophila melanogaster</Emphasis>

Activation of caspases is an essential step toward initiating apoptotic cell death. During metamorphosis of Drosophila melanogaster, many larval neurons are programmed for elimination to establish an adult central nervous system (CNS) as well as peripheral nervous system (PNS). However, their neuronal functions have remained mostly unknown due to the lack of proper tools to identify them. To obtain detailed information about the neurochemical phenotypes of the doomed larval neurons and their timing of death, we generated a new GFP-based caspase sensor (Casor) that is designed to change its subcellular position from the cell membrane to the nucleus following proteolytic cleavage by active caspases. Ectopic expression of Casor in vCrz and bursicon, two different peptidergic neuronal groups that had been well-characterized for their metamorphic programmed cell death, showed clear nuclear translocation of Casor in a caspase-dependent manner before their death. We found similar events in some cholinergic neurons from both CNS and PNS. Moreover, Casor also reported significant caspase activities in the ventral and dorsal common excitatory larval motoneurons shortly after puparium formation. These motoneurons were previously unknown for their apoptotic fate. Unlike the events seen in the neurons, expression of Casor in non-neuronal cell types, such as glial cells and S2 cells, resulted in the formation of cytoplasmic aggregates, preventing its use as a caspase sensor in these cell types. Nonetheless, our results support Casor as a valuable molecular tool not only for identifying novel groups of neurons that become caspase-active during metamorphosis but also for monitoring developmental timing and cytological changes within the dying neurons.     

Genome-wide Analysis of Kelch Repeat-containing F-box Family

The ubiquitin-dependent protein degradation pathway plays diverse roles in eukaryotes. Previous studies indicate that both F-box and Kelch motifs are common in a variety of organisms. F-box proteins are subunits of E3 ubiquitin ligase complexes called SCFs （SKP1, Cullinl, F-box protein, and Rbxl）; they have an N-terminal F-box motif that binds to SKP1 （S-phase kinase associated protein）, and often have C-terminal protein-protein interaction domains, which specify the protein substrates for degradation via the ubiquitin pathway. One of the most frequently found protein interaction domains in F-box proteins is the Kelch repeat domain. Although both the F-box and Kelch repeats are ancient motifs, Kelch repeats-containing F-box proteins （KFB） have only been reported for human and Arabidopsis previously. The recent sequencing of the rice genome and other plant genomes provides an opportunity to examine the possible evolution history of KFB. We carried out extensive BLAST searches to identify putative KFBs in selected organisms, and analyzed their relationships phylogenetically. We also carried out the analysis of both gene duplication and gene expression of the KFBs in rice and Arabidopsis. Our study indicates that the origin of KFBs occurs before the divergence of animals and plants, and plant KFBs underwent rapid gene duplications.     

曼陀罗茎段愈伤组织诱导和再生植株的研究

本试验以曼陀罗茎段为外植体,在附加不同植物激素组合的培养基中对愈伤组织的诱导和植株再生进行研究。结果表明:采用修改的MS培养基(除去甘氨酸,维生素B1含量增加至0.5mg/L,pH5.5)附加2mg/L2,4-D可由曼陀罗茎段诱导大量胚性愈伤组织;愈伤组织继代选用0.5mg/L2,4-D为宜;不定芽的诱导采用MS培养基(20g蔗糖,8g琼脂,0.1g水解干酪素) 6-BA(0.5mg/L);幼苗进一步转接至1/2MS IBA(0.2mg/L)生根培养基中,可完成曼陀罗茎段愈伤组织诱导和再生植株的组织培养过程。     

六棱大麦HVA1基因在烟草中遗传转化的研究

本研究依据HVA1基因序列克隆六棱大麦HVA1基因cDNA片段,构建Ubiquitin启动子驱动下的植物表达载体pCAMBIA1300-HVA1。然后通过三亲杂交法将重组质粒PCAMBIA1300-HVA1转入农杆菌LBA4404,并采用农杆菌介导法转化烟草。经PCR,PCR-Southern blotting和RT-PCR检测表明HVA1基因已整合进烟草基因组,并在转录水平上获得表达。功能验证的结果显示,转基因植株叶片的保水率提高了近1倍,暗示转基因烟草具有一定的抗旱潜力。     

Engineering lacZ Reporter gene into an ephA8 bacterial artificial chromosome using a highly efficient bacterial recombination system

In this report, we describe an optimized method for generation of ephA8 BAC transgenic mice expressing the lacZ reporter gene under ephA8 regulatory sequences. First, we constructed a targeting vector that carries a 1.2 kb ephA8 DNA upstream of its first exon, a lacZ expression cassette, a kanamycin cassette, and a 0.7 kb ephA8 DNA downstream of its first exon. Second, the targeting vector was electroporated into cells containing the ephA8 BAC and pKOBEGA, in which recombinases induce a homologous recombination between the ephA8 BAC DNA and the targeting vector. Third, the FLP plasmid expressing the Flipase was electroporated into these bacteria to eliminate a kanamycin cassette from the recombinant BAC DNA. The appropriate structures of the modified ephA8 BAC DNA were confirmed by Southern analysis. Finally, BAC transgenic mouse embryos were generated by pronuclear injection of the recombinant BAC DNA. Whole mount X-gal staining revealed that the lacZ reporter expression is restricted to the anterior region of the developing midbrain in each transgenic embryo. These results indicate that the ephA8 BAC DNA contains most, if not all, regulatory sequences to direct temporal and spatial expression of the lacZ gene in vivo.     

Label‐free optical projection tomography for quantitative three‐dimensional anatomy of mouse embryo

Recent progress in three‐dimensional optical imaging techniques allows visualization of many comprehensive biological specimens. Optical clearing methods provide volumetric and quantitative information by overcoming the limited depth of light due to scattering. However, current imaging technologies mostly rely on the synthetic or genetic fluorescent labels, thus limits its application to whole‐body visualization of generic mouse models. Here, we report a label‐free optical projection tomography (LF‐OPT) technique for quantitative whole mouse embryo imaging. LF‐OPT is based on the attenuation contrast of light rather than fluorescence, and it utilizes projection imaging technique similar to computed tomography for visualizing the volumetric structure. We demonstrate this with a collection of mouse embryo morphologies in different stages using LF‐OPT. Additionally, we extract quantitative organ information applicable toward high‐throughput phenotype screening. Our results indicate that LF‐OPT can provide multi‐scale morphological information in various tissues including bone, which can be difficult in conventional optical imaging technique.     

LncRNA‐AK137033 inhibits the osteogenic potential of adipose‐derived stem cells in diabetic osteoporosis by regulating Wnt signaling pathway via DNA methylation

ObjectivesBone tissue engineering based on adipose‐derived stem cells (ASCs) is expected to become a new treatment for diabetic osteoporosis (DOP) patients with bone defects. However, compared with control ASCs (CON‐ASCs), osteogenic potential of DOP‐ASCs is decreased, which increased the difficulty of bone reconstruction in DOP patients. Moreover, the cause of the poor osteogenesis of ASCs in a hyperglycemic microenvironment has not been elucidated. Therefore, this study explored the molecular mechanism of the decline in the osteogenic potential of DOP‐ASCs from the perspective of epigenetics to provide a possible therapeutic target for bone repair in DOP patients with bone defects.Materials and methodsAn animal model of DOP was established in mice. CON‐ASCs and DOP‐ASCs were isolated from CON and DOP mice, respectively. {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 small interfering RNA (SiRNA) and an {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 overexpression plasmid were used to regulate the expression of {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 in CON‐ASCs and DOP‐ASCs in vitro. Lentiviruses that carried shRNA‐{"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 or {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 cDNA were used to knockdown or overexpress {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033, respectively, in CON‐ASCs and DOP‐ASCs in vivo. Hematoxylin and eosin (H&E), Masson''s, alizarin red, and alkaline phosphatase (ALP) staining, micro‐computed tomography (Micro‐CT), flow cytometry, qPCR, western blotting, immunofluorescence, and bisulfite‐specific PCR (BSP) were used to analyze the functional changes of ASCs.ResultsThe DOP mouse model was established successfully. Compared with CON‐ASCs, {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 expression, the DNA methylation level of the sFrp2 promoter region, Wnt signaling pathway markers, and the osteogenic differentiation potential were decreased in DOP‐ASCs. In vitro experiments showed that {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 silencing inhibited the Wnt signaling pathway and osteogenic ability of CON‐ASCs by reducing the DNA methylation level in the sFrp2 promoter region. Additionally, overexpression of {"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 in DOP‐ASCs rescued these changes caused by DOP. Moreover, the same results were obtained in vivo.ConclusionsLncRNA‐{"type":"entrez-nucleotide","attrs":{"text":"AK137033","term_id":"74205820","term_text":"AK137033"}}AK137033 inhibits the osteogenic potential of DOP‐ASCs by regulating the Wnt signaling pathway via modulating the DNA methylation level in the sFrp2 promoter region. This study provides an important reference to find new targets for the treatment of bone defects in DOP patients.