乙肝病毒表面抗原preS1与人肿瘤坏死因子α融合基因的表达

用ＰＣＲ法获得了ＨＢｓＡｇｐｒｅＳ１（１－６５）肽段基因,将该基因融合在肿瘤坏死因子（ｈＴＮＦα）之后,插入表达载体ＰＳＢ－９２中,使融合基因的５′端直接置于大肠肝菌ＰＬ启动子下游,采用３０℃培养,４２℃诱导,获得了ＴＮＦ与ｐｒｅＳ１（１－６５）融合蛋白的表达产物。ＳＤＳ－ＰＡＧＥ电泳显示表达产物为２５ｋＤ,约占细菌总蛋白的３５％。表达产物经Ｗｅｓｔｅｒｎｂｌｏｔ验证,能分别特异地与ｈＴＮＦα抗体与ｐｒｅＳ１抗体结合,稀释复性后,该融合蛋白还具有ＴＮＦ的生理功能（对Ｌ９２９细胞的细胞毒活性）。经ＤＮＡ序列测定,ｐｒｅＳ１（１－６５）肽基因正确地融合在ｈＴＮＦα基因之后。该结果提供了一种制备ｐｒｅＳ１的新方法,为进一步开展治疗肝癌和乙肝的导向药物打下基础。     

TNFalph 和 IL-1bet 靶点抗炎药物筛选细胞模型的构建

目的:构建两个高表达人TNFα和IL-1β细胞系,建立抗炎药物筛选细胞模型。方法:运用PCR的方法从载体pCMVSport-TNFα和p CMVSport-IL1β上扩增目的基因,以亚克隆方法将目的基因分别插入真核表达载体pcDNA3.1和pFLAG-CMV中,用单酶切、PCR扩增和基因测序的方法鉴定重组效果,然后将重组成功的质粒转入HEK293细胞系内,挑选能够稳定表达并遗传的单克隆细胞株,用蛋白免疫印迹(Western blot)法分析其表达效果。结果:三种鉴定方法均显示重组质粒构建成功。Western blot结果显示,细胞株T3、T4均能较高表达炎症因子TNF-α;细胞株I2、I3、I5均能较高表达炎症因子IL-1β。结论:成功构建了TNFα和IL-1β靶标的药物筛选细胞模型,为筛选具有抗炎作用的中药提供了一个新平台。     

Co-Encapsulating the Fusogenic Peptide INF7 and Molecular Imaging Probes in Liposomes Increases Intracellular Signal and Probe Retention

Liposomes are promising vehicles to deliver diagnostic and therapeutic agents to cells in vivo. After uptake into cells by endocytosis, liposomes are degraded in the endolysosomal system. Consequently, the encapsulated cargo molecules frequently remain sequestered in endosomal compartments; this limits their usefulness in many applications (e.g. gene delivery). To overcome this, various fusogenic peptides have been developed to facilitate delivery of liposomally-encapsulated molecules into the cytosol. One such peptide is the pH-sensitive influenza-derived peptide INF7. Liposomal delivery of imaging agents is an attractive approach for enabling cell imaging and cell tracking in vivo, but can be hampered by inadequate intracellular accumulation and retention of probes caused by exocytosis (and possible degradation) of endosome-entrapped probes. Such signal loss could be minimized by facilitating escape of probe molecules from endolysosomal compartments into the cytosol. We investigated the ability of co-encapsulated INF7 to release liposomally-delivered rhodamine fluorophores into the cytosol after endosomal acidification/maturation. We co-encapsulated INF7 and fluorescent rhodamine derivatives having vastly different transport properties to show that after endocytosis by CV1 cells, the INF7 peptide is activated by acidic endosomal pH and facilitates efficient release of the fluorescent tracers into the cytosol. Furthermore, we show that INF7-facilitated escape from endosomes markedly enhanced retention of tracers that cannot be actively extruded from the cytosol. Minimizing loss of intracellular probes improves cellular imaging by increasing the signal-to-noise ratio of images and lengthening the time window that imaging can be performed. In particular, this will enhance in vivo electron paramagnetic resonance imaging, an emergent magnetic resonance imaging modality requires exogenous paramagnetic imaging agents and is highly promising for cellular and molecular imaging.     

Titanium Elastic Nail (TEN) versus Reconstruction Plate Repair of Midshaft Clavicular Fractures: A Finite Element Study

BackgroundThe biomechanical characteristics of midshaft clavicular fractures treated with titanium elastic nail (TEN) is unclear. This study aimed to present a biomechanical finite element analysis of biomechanical characteristics involved in TEN fixation and reconstruction plate fixation for midshaft clavicular fractures.MethodsFinite element models of the intact clavicle and of midshaft clavicular fractures fixed with TEN and with a reconstruction plate were built. The distal clavicle displacement, peak stress, and stress distribution on the 3 finite element models were calculated under the axial compression and cantilever bending.ResultsIn both loading configurations, TEN generated the highest displacement of the distal clavicle, followed by the intact clavicle and the reconstruction plate. TEN showed higher peak bone and implant stresses, and is more likely to fail in both loading configurations compared with the reconstruction plate. TEN led to a stress distribution similar to that of the intact clavicle in both loading configurations, whereas the stress distribution with the reconstruction plate was nonphysiological in cantilever bending.ConclusionsTEN is generally preferable for treating simple displaced fractures of the midshaft clavicle, because it showed a stress distribution similar to the intact clavicle. However, TEN provides less stability, and excessive exercise of and weight bearing on the ipsilateral shoulder should be avoided in the early postoperative period. Fixation with a reconstruction plate was more stable but showed obvious stress shielding. Therefore, for patients with a demand for early return to activity, reconstruction plate fixation may be preferred.     

Prediction Factors of Recurrent Ischemic Events in One Year after Minor Stroke

Background

The risk of a subsequent stroke following a minor stroke is high. However, there are no effective rating scales to predict recurrent stroke following a minor one. Therefore, we assessed the risk factors associated with recurrent ischemic stroke or transient ischemic attack (TIA) within one year of minor stroke onset in order to identify possible risk factors.

Methods

Eight hundred and sixty-three non-cardioembolic ischemic stroke patients in the Chinese IntraCranial AtheroSclerosis Study that presented with minor stroke, defined as an admission National Institutes of Health stroke scale (NIHSS) score of ≤3, were consecutively enrolled in our study. Clinical information and imaging features upon admission, and any recurrent ischemic stroke or TIA within one year was recorded. Cox regression was used to identify risk factors associated with recurrent ischemic stroke or TIA within the year following stroke onset.

Results

A total of 50 patients (6.1%) experienced recurrent ischemic stroke or TIA within one year of minor stroke onset. Multivariate Cox regression model identified lower admission NIHSS score (HR, 1.75; 95% CI, 1.32 to 2.33; P<0.0001), history of coronary heart disease (HR, 2.62; 95% CI, 1.17 to 5.86; P = 0.02), severe stenosis or occlusion of large cerebral artery (HR, 4.68; 95% CI, 1.87 to 11.7; P = 0.001), and multiple acute cerebral infarcts (HR, 2.61; 95% CI, 1.01 to 6.80; P = 0.05) as independent risk factors for recurrent ischemic stroke or TIA within one year.

Conclusions

Some minor stroke patients are at higher risk for recurrent ischemic stroke or TIA. Urgent and intensified therapy may be reasonable in these patients.     

Finite Element Analysis of a New Pedicle Screw-Plate System for Minimally Invasive Transforaminal Lumbar Interbody Fusion

Purpose

Minimally invasive transforaminal lumbar interbody fusion (MI-TLIF) is increasingly popular for the surgical treatment of degenerative lumbar disc diseases. The constructs intended for segmental stability are varied in MI-TLIF. We adopted finite element (FE) analysis to compare the stability after different construct fixations using interbody cage with posterior pedicle screw-rod or pedicle screw-plate instrumentation system.

Methods

A L3–S1 FE model was modified to simulate decompression and fusion at L4–L5 segment. Fixation modes included unilateral plate (UP), unilateral rod (UR), bilateral plate (BP), bilateral rod (BR) and UP+UR fixation. The inferior surface of the S1 vertebra remained immobilized throughout the load simulation, and a bending moment of 7.5 Nm with 400N pre-load was applied on the L3 vertebra to recreate flexion, extension, lateral bending, and axial rotation. Range of motion (ROM) and Von Mises stress were evaluated for intact and instrumentation models in all loading planes.

Results

All reconstructive conditions displayed decreased motion at L4–L5. The pedicle screw-plate system offered equal ROM to pedicle screw-rod system in unilateral or bilateral fixation modes respectively. Pedicle screw stresses for plate system were 2.2 times greater than those for rod system in left lateral bending under unilateral fixation. Stresses for plate were 3.1 times greater than those for rod in right axial rotation under bilateral fixation. Stresses on intervertebral graft for plate system were similar to rod system in unilateral and bilateral fixation modes respectively. Increased ROM and posterior instrumentation stresses were observed in all loading modes with unilateral fixation compared with bilateral fixation in both systems.

Conclusions

Transforaminal lumbar interbody fusion augmentation with pedicle screw-plate system fixation increases fusion construct stability equally to the pedicle screw-rod system. Increased posterior instrumentation stresses are observed in all loading modes with plate fixation, and bilateral fixation could reduce stress concentration.     

一株人参内生1-氨基环丙烷-1-1羧酸(ACC)脱氨酶活性细菌的筛选、鉴定及其对宿主生长的影响

【目的】从人参内生细菌中获得具有1-氨基环丙烷1-羧酸(ACC)脱氨酶活性的菌株,并进行促生效果的验证。【方法】结合初筛和复筛的方法筛选具有ACC脱氨酶活性的人参内生菌株;采用Ashby培养基和固氮酶基因验证其固氮潜能;菌碟法及钼锑抗比色法测定其解磷能力;CAS方法检测产生铁载体能力;通过室内及田间试验测定菌株对人参生长的促进作用。通过形态学、生理生化测定及16S rRNA序列分析明确菌株的分类地位。【结果】从120株人参内生菌中获得了一株具有较高ACC脱氨酶活性的菌株JJ8-3,其酶活性为α-酮丁酸6.7μmol/(mg·h);且具有解磷特性、固氮潜能和产生铁载体能力;能明显促进人参种子及根部的生长;经鉴定菌株JJ8-3为荧光假单胞菌(Pseudomonas fluorescens)。【结论】获得了一株具有ACC脱氨酶活性的人参内生细菌,将为其在促进植物生长中的应用和研究奠定基础。     

小鼠胚胎体外发育培养基中氨基酸含量变化

通过检测哺乳动物早期胚胎体外发育过程中可以消耗或生成某些氨基酸的含量,可以了解胚胎的发育潜能。利用反相高效液相色谱法(RP-HPLC)检测KSOMaa培养基中17种氨基酸含量的变化,了解昆明小白鼠(Mus musculus)植入前胚胎体外培养过程中氨基酸含量的变化,旨在寻找一种能有效支持昆明小鼠胚胎体外发育的培养基氨基酸组成,优化小鼠胚胎体外培养体系。将180枚原核胚分为9组,体外培养至囊胚,分别于胚胎发育不同时期取样做高效液相色谱分析。这些氨基酸在胚胎发育不同时期的培养基中含量变化可分为5种类型:①在2细胞期增加但在4细胞期、8～16细胞期减少,囊胚期又增加的氨基酸(甘氨酸、亮氨酸、苏氨酸、缬氨酸、苯丙氨酸、酪氨酸);②在胚胎发育各个时期均下降(谷氨酸、甲硫氨酸、精氨酸、组氨酸);③在胚胎发育各个时期均增加(丝氨酸、赖氨酸、丙氨酸);④2细胞期含量减少而在其他时期持续增加(天冬氨酸、脯氨酸、色氨酸);⑤囊胚期减少,其他时期都有增加(异亮氨酸)。     

Downregulation of Rap1GAP in Human Tumor Cells Alters Cell/Matrix and Cell/Cell Adhesion

Rap1GAP expression is decreased in human tumors. The significance of its downregulation is unknown. We show that Rap1GAP expression is decreased in primary colorectal carcinomas. To elucidate the advantages conferred on tumor cells by loss of Rap1GAP, Rap1GAP expression was silenced in human colon carcinoma cells. Suppressing Rap1GAP induced profound alterations in cell adhesion. Rap1GAP-depleted cells exhibited defects in cell/cell adhesion that included an aberrant distribution of adherens junction proteins. Depletion of Rap1GAP enhanced adhesion and spreading on collagen. Silencing of Rap expression normalized spreading and restored E-cadherin, β-catenin, and p120-catenin to cell/cell contacts, indicating that unrestrained Rap activity underlies the alterations in cell adhesion. The defects in adherens junction protein distribution required integrin signaling as E-cadherin and p120-catenin were restored at cell/cell contacts when cells were plated on poly-l-lysine. Unexpectedly, Src activity was increased in Rap1GAP-depleted cells. Inhibition of Src impaired spreading and restored E-cadherin at cell/cell contacts. These findings provide the first evidence that Rap1GAP contributes to cell/cell adhesion and highlight a role for Rap1GAP in regulating cell/matrix and cell/cell adhesion. The frequent downregulation of Rap1GAP in epithelial tumors where alterations in cell/cell and cell/matrix adhesion are early steps in tumor dissemination supports a role for Rap1GAP depletion in tumor progression.Mammalian Rap proteins Rap1a/b and Rap2a/b/c are members of the Ras superfamily of small GTPases. Rap proteins are active when bound to GTP and inactive when bound to GDP. Cellular Rap activity is regulated by the concerted action of guanine nucleotide exchange factors that activate Rap (RapGEFs) and Rap-specific GTPase-activating proteins (RapGAPs) that inactivate Rap (reviewed in reference 10). The Rap1GAP family is composed of several members, including Rap1GAP, Rap1GAPII, Spa-1/SIPA1, and E6TP1/SIPA1L1. Several lines of evidence suggest that RapGAPs function as tumor and/or invasion suppressors. Downregulation of E6TP1 by human papillomavirus protein E6 contributes to cervical cancer (20, 21), and Spa-1 deficiency in mice induces a spectrum of myelodysplastic disorders similar to chronic myelogenous leukemia (26). The SPA1 gene was identified as a candidate for the metastasis efficiency modifier locus in mice (38). Although the relevance of this observation to humans is not yet clear, single-nucleotide polymorphisms in the SPA1 gene in human breast tumors have been associated with lymph node involvement and poor survival (15). Intriguingly, Spa-1 interacts with Brd4 (18) and Rrp-1b (13), the protein products of genes associated with patterns of extracellular matrix protein gene expression characteristic of metastatic tumors (14).The RAP1GAP gene maps to 1p35-36, a chromosomal region subject to copy number alterations in human tumors (36, 49). Rap1GAP protein levels are decreased in pancreatic adenocarcinomas (53), papillary thyroid carcinomas (37, 47, 57), and melanomas (56). Rap1GAP downregulation has been shown to arise as a consequence of proteasomal degradation (46), loss of heterozygosity (37, 53), and promoter methylation (56, 57). Mutations of unknown significance in RAP1GAP have been identified in breast cancer (42). Although downregulation of Rap1GAP is frequent in human tumors, the functional significance of decreased Rap1GAP expression is unknown. Up to now, studies assessing the role of Rap1GAP in tumor cells have relied exclusively on overexpression experiments. Overexpression of Rap1GAP in oropharyngeal squamous cell (54) and pancreatic (53) carcinoma lines impaired tumor formation in mouse xenograft models. In vitro, overexpression of Rap1GAP impaired tumor cell proliferation (34, 47, 53, 54, 56) and enhanced apoptosis (34, 53, 56). In some instances, overexpression of Rap1GAP inhibited tumor cell migration and invasion (3, 47, 53, 56), while in others, it enhanced invasion (34). While these studies provide insight into cellular processes that can be deregulated by overexpression, they do not assess the significance of depletion of endogenous Rap1GAP in human tumors.Colorectal cancer (CRC) is one of the leading causes of cancer deaths worldwide. The majority of CRC deaths arise as a consequence of distant metastases, most frequently to the liver. While the genetic basis of CRC is well understood (19, 48), less is known about the events that trigger the transition to metastatic disease. We report that Rap1GAP is highly expressed in normal colonic epithelium and that its expression is profoundly decreased in primary colorectal carcinomas. As one strategy to assess the significance of Rap1GAP depletion, the expression of Rap1GAP was silenced in human colon carcinoma cells. Silencing of Rap1GAP induced marked increases in Rap1 and Rap2 activity, the first evidence that Rap1GAP is an essential negative regulator of Rap GTPases in colon cancer. Rap1 regulates inside-out signaling through integrins (reviewed in references 8, 9, and 11) and is a target of outside-in signaling via cadherins (reviewed in reference 30). Downregulation of Rap1GAP induced profound alterations in cell/matrix and cell/cell adhesion. Suppressing Rap1GAP expression enhanced adhesion and spreading on collagen. Unexpectedly, based on the role of Rap1 in promoting cell/cell adhesion, silencing of Rap1GAP impaired cell/cell adhesion. These findings demonstrate a requirement for regulated Rap activity in the maintenance of epithelial cell structure and demonstrate a heretofore unappreciated role for Rap1GAP in the regulation of cell/cell adhesion. As the dissemination of tumor cells requires the weakening of cell/cell adhesion and an enhanced ability to adhere to collagen-rich interstitial matrices, our studies identify a potential mechanism through which loss of Rap1GAP contributes to tumor progression.     

A Bifunctional Regulatory Element in Human Somatic Wee1 Mediates Cyclin A/Cdk2 Binding and Crm1-Dependent Nuclear Export

Sophisticated models for the regulation of mitotic entry are lacking for human cells. Inactivating human cyclin A/Cdk2 complexes through diverse approaches delays mitotic entry and promotes inhibitory phosphorylation of Cdk1 on tyrosine 15, a modification performed by Wee1. We show here that cyclin A/Cdk2 complexes physically associate with Wee1 in U2OS cells. Mutation of four conserved RXL cyclin A/Cdk binding motifs (RXL1 to RXL4) in Wee1 diminished stable binding. RXL1 resides within a large regulatory region of Wee1 that is predicted to be intrinsically disordered (residues 1 to 292). Near RXL1 is T239, a site of inhibitory Cdk phosphorylation in Xenopus Wee1 proteins. We found that T239 is phosphorylated in human Wee1 and that this phosphorylation was reduced in an RXL1 mutant. RXL1 and T239 mutants each mediated greater Cdk phosphorylation and G₂/M inhibition than the wild type, suggesting that cyclin A/Cdk complexes inhibit human Wee1 through these sites. The RXL1 mutant uniquely also displayed increased nuclear localization. RXL1 is embedded within sequences homologous to Crm1-dependent nuclear export signals (NESs). Coimmunoprecipitation showed that Crm1 associated with Wee1. Moreover, treatment with the Crm1 inhibitor leptomycin B or independent mutation of the potential NES (NESm) abolished Wee1 nuclear export. Export was also reduced by Cdk inhibition or cyclin A RNA interference, suggesting that cyclin A/Cdk complexes contribute to Wee1 export. Somewhat surprisingly, NESm did not display increased G₂/M inhibition. Thus, nuclear export of Wee1 is not essential for mitotic entry though an important functional role remains likely. These studies identify a novel bifunctional regulatory element in Wee1 that mediates cyclin A/Cdk2 association and nuclear export.Despite broad progress in studies of cell cycle control in eukaryotes, advanced models are lacking for the regulation of mitotic entry in human cells. This regulation is pivotal in cell cycle control, and a better understanding of it may be crucial to improving cytotoxic cancer chemotherapy, the mainstay of cancer treatment. Models of mitotic entry in higher eukaryotes revolve around activation of the cyclin B/Cdk1 (cyclin-dependent kinase 1 or Cdc2) complex, which drives the major events of mitosis. A rise in the cyclin B level triggers mitotic entry in Xenopus egg extracts but not in mammalian cells (15, 47). Inhibitory phosphorylation of Cdk1 on the ATP-binding site residue tyrosine 15 (Y15) has been recognized as a key constraint throughout eukaryotes (29, 42). Wee1 and Myt kinases perform this phosphorylation in vertebrate cells, where Wee1 appears to be dominant (34). Kim and Ferrell and others have recently developed an elegant model for ultrasensitive, switch-like inactivation of Wee1 by cyclin B/Cdk1 in a positive feedback loop that contributes to mitotic entry in Xenopus egg extracts (27).Although cyclin A(A2)/Cdk2 is traditionally omitted from models of mitotic entry, accumulating evidence from several different approaches suggests that cyclin A/Cdk complexes play roles. Cyclin A levels rise during S phase and peak in G₂ before falling abruptly in prometaphase of mitosis (60). Microinjection of cyclin A/Cdk2 complexes in human G₂ phase cells was observed to drive mitotic entry (14). Conversely, microinjection of antibodies directed against cyclin A in S-phase cells inhibited mitotic entry without an apparent effect on bulk DNA synthesis (45). In complementary approaches that supported biochemical analyses, cyclin A RNA interference (RNAi) or induction of a dominant negative mutant of Cdk2 (Cdk2-dn), the major cyclin A binding partner, inhibited mitotic entry (13, 15, 21, 37). In these settings, cyclin B/Cdk1 complexes accumulated in inactive, Y15-phosphorylated forms (13, 21, 37). Cdc25 phosphatases, which can reverse this phosphorylation, show reduced activity in this context (37), but increased Cdc25 activity could not readily overcome the arrest (13). RNAi-mediated knockdown of Wee1 was found capable of overriding the arrest mediated by cyclin A RNAi, suggesting that Wee1 is a key rate-limiting factor (13). However, whether and by what mechanisms cyclin A complexes might regulate Wee1 and drive Cdk1 dephosphorylation and mitotic entry have remained unclear.Recently, genetic studies in mice have reinforced these observations while providing evidence for some cell type differences (24). Although Cdk2 is not essential, in its absence Cdk1 binds more cyclin A and E and provides redundant functions (4, 25, 44). Deletion of the cyclin A gene is lethal for embryos and adults (24). Gene deletion in fibroblasts in vitro did not completely abrogate their proliferation but caused S and G₂/M delays. In this setting cyclin E was upregulated, and combined deletion of cyclin E yielded arrest in G₁, S, and G₂/M phases. Cyclin A gene deletion was alone sufficient to block proliferation of hematopoietic stem cells, suggesting that cyclin A is essential for their proliferation.Wee1 is regulated on multiple levels, including inhibitory phosphorylation in the amino-terminal regulatory domain (NRD), residues 1 to 292. This region is predicted to be intrinsically disordered (56), and few functional elements have been identified in it. The cyclin B/Cdk1 complex has been thought to be the principal or exclusive kinase responsible for NRD phosphorylation (18, 27, 28). Two sites in the Xenopus embryonic Wee1 NRD, Thr 104 and Thr 150 (referred to here by the homologous residue, T239, in human somatic Wee1), have been identified as Cdk phosphorylation sites that inhibit Wee1 activity (28). Recent studies of Xenopus somatic Wee1 suggest that T239 phosphorylation may antagonize the function of a surrounding motif, dubbed the Wee box (43). This small, conserved region appears to augment the activity of the carboxy-terminal kinase domain.We show here that cyclin A/Cdk2 complexes directly bind Wee1 as a substrate in human cells. In particular, a conserved cyclin A/Cdk binding RXL motif in the Wee1 NRD is required for efficient T239 phosphorylation. Further analysis revealed that RXL1 is located within a Crm1 binding site that mediates Wee1 export during S and G₂ phases. Cyclin A/Cdk2 activity appears to foster Wee1 export, but this export is not essential for mitotic entry. These findings further define roles of cyclin A/Cdk complexes in regulating Wee1 and mitotic entry in human cells and dissect the mechanisms and consequences of Wee1 redistribution during the run-up to mitosis.