The recombinant beta subunit of C-phycocyanin inhibits cell proliferation and induces apoptosis

C-Phycocyanin (C-PC) from blue-green algae has been reported to have various pharmacological characteristics, including antiinflammatory and anti-tumor activities. In this study, we expressed the beta-subunit of C-PC (ref to as C-POP) in Escherichia coli. We found that the recombinant C-PC/beta has anti-cancer properties. Under the treatment of 5 mu M of the recombinant C-PC/beta, four different cancer cell lines accrued high proliferation inhibition and apoptotic induction. Substantially, a lower response occurred in non-cancer cells. We investigated the mechanism by which C-PC/beta inhibits cancer cell proliferation and induces apoptosis. We found that the C-PC/beta interacts with membrane-associated beta-tubulin and glyceraldehyde-3-phosphate dehydrogenase (GAPDH). Under the treatment of the C-PC/beta, depolymerization of microtubules and actin-filaments were observed. The cells underwent apoptosis with an increase in caspase-3, and caspase-8 activities. The cell cycle was arrested at the G0/G1 phase under the treatment of C-PC/beta. In addition, the nuclear level of GAPDH decreased significantly. Decrease in the nuclear level of GAPDH prevents the cell cycle from entering into the S phase. Inhibition of cancer cell proliferation and induction of apoptosis may potentate the C-POP as a promising cancer prevention or therapy agent. (c) 2006 Elsevier Ireland Ltd. All rights reserved.

肿瘤耐药与心肌肥厚两种生物医学体系的比较蛋白质组学研究

随着人类基因组计划的完成，蛋白质组学研究已成为生命科学乃至自然科学中最活跃的学科领域之一。蛋白质组学将对我们理解后基因组学时代的基因功能有极大的帮助。差异表达蛋白质组学通过对不同样品蛋白质表达水平的比较，已经被广泛地应用在疾病的研究领域。P糖蛋白已经被证实参与介导了在急性粒白血病中发生的多药耐药，然而越来越多的研究结果表明，在急性粒白血病中多药耐药的机制是多因素的。为了寻找白血病肿瘤细胞中与耐药相关的靶蛋白，我们采用蛋白质组学研究技术，对多药耐药细胞系K562／A02的蛋白质表达谱进行了分析。 本研究采用蛋白质组学研究技术，对多药耐药细胞系K562／A02和药物敏感细胞系K562／S的总蛋白质进行双向凝胶电泳（2 DE）的差异分析，结果发现在K562／A02细胞中有41个蛋白质点差异显著，并用基质辅助激光解离飞行时间质谱（MALDI-MS）成功鉴定了大多数的蛋自点。在被鉴定出的差异蛋白质中，有一些是首次发现与耐药相关，包括chloride intracellular charmel，chaperonin，proteindisulfide-isomerase ER6o precursor and constitutive heat shock protein 70等。所得结果不但能够使我们更加深入的理解肿瘤耐药的病理机制，更重要的是通过找到肿瘤细胞发生耐药的标志性蛋白，可以为开发肿瘤耐药预测方法和寻找抗耐药肿瘤靶标新药的线索，同时也为计算机虚拟筛选设计抗耐药肿瘤新药奠定基础。除了详细的研究了K562／A02细胞系差异蛋白质组，我们还采用蛋白质组学的方法，以乳鼠心肌细胞为实验模型，研究在ARs激动的不同清况下心肌细胞蛋白质表达谱的变化。心肌肥厚是心脏工作超负荷的一种代偿反应。目前，越来越多的证据表明ARs在心肌肥厚的发生中起着非常重要的作用，但人们对其机制了解尚不全面。通过检测心肌肥厚时全蛋白表达的变化，将有助于我们全面、深入了解ARs在心肌肥厚中的作用机制。通过严格的2D胶图象分析，蛋白取点后胶内水解，高灵敏度的质谱鉴定及数据库检索，我们成功地进行了乳鼠心肌细胞肥厚为模型的蛋白质组学的研究。本实验通过比较研究不同肾上腺素受体激动剂norePinephrine伽E），phenylephxine（PE）and isoprenaline（ISO）诱导组与未诱导对照组的蛋白质组学变化，分析确定蛋白丰度差异在2倍以上的蛋白质点，并通过MALDI-MS进行蛋白鉴定。20个具有显著差异的蛋白质被鉴定，包括caspase-11，vimeniin，4-hydroxyphenylpyruvic acid dioxygenase，Modl protein，Txndcs protein等，其中一些蛋白在此之前并没发现与心肌肥厚相关，对它们在心肌肥厚中的意义和机制我们将做进一步的探讨。本研究结果将为我们更好理解肾上腺素受体之间以及肾上腺素受体与心肌肥厚之间的关系提供有益的线索，并将为最终发现可应用于临床的新的诊断和治疗心血管疾病的标志性蛋白打下基础。

天花粉蛋白诱导HIV-1 慢性感染细胞凋亡及机制研究

天花粉蛋白（Trichosanthin,TCS）是一种由247 个氨基酸组成的Ⅰ型核糖 体失活蛋白（Ribosome Inactivating Protein，RIP），从葫芦科植物栝楼 (Trichosanthes Kirilowii)球根中提纯获得。它具有广谱的生物学和药学活性， 包括抗肿瘤、免疫抑制、中期引产以及抗病毒活性。上世纪八十年代末， McGrath 等发现TCS 可以抑制HIV-1 在急性感染的T 淋巴细胞和慢性感染的 巨噬细胞中的复制，从而引起了研究者们极大的兴趣。但迄今为止，其抗HIV-1 的作用机制仍不清楚。 我们实验室对TCS 的免疫毒理作用和抗HIV-1 作用进行了多年的研究， 前期工作显示TCS 对HIV-1 的直接作用并不明显，但对于HIV-1 感染细胞却 具有很强的毒性作用。提示TCS 可能通过作用于宿主细胞来发挥其抗HIV-1 活性。在此基础上，我们从细胞方面着手，对TCS 选择性杀伤HIV-1 感染细 胞的作用及机制进行了探讨。首先，通过MTT 法检测发现，相同条件下，TCS 对于H9/HIV-1IIIB 细胞的毒性远远大于其对正常H9 细胞的毒性。其次，流式 细胞仪检测亚二倍体小峰和琼脂糖凝胶电泳检测片断化DNA 的实验证实了 TCS 对H9/HIV-1IIIB 的细胞杀伤作用是通过诱导细胞凋亡实现的。流式细胞仪 的结果显示TCS 以剂量依赖的方式诱导较多的H9/HIV-1IIIB 细胞凋亡，25μ g/mlTCS 作用24h 时，有8.4%的H9 细胞凋亡，而H9/HIV-1IIIB 细胞的凋亡率 则达到24.5%；随着作用浓度的降低，这种差异也在缩小。阳性对照D-Sorbitol 对两种细胞的凋亡率没有明显差别，约为25%。琼脂糖凝胶电泳的结果进一 步证实了这种推测，相同条件下，TCS 诱导H9/HIV-1IIIB 细胞出现更多的DNA 片断化。 TCS 可以选择性的诱导H9/HIV-1IIIB 细胞凋亡，为了进行更深入的机制研 究，我们建立了另外一株HIV-1 慢性感染细胞系，HIV-1 慢性感染的Jurkat 细胞系（Jurkat/HIV-1ⅢB）来验证TCS的作用。发现相同条件下，TCS可以诱 导同等程度的Jurkat/HIV-1ⅢB和Jurkat 细胞凋亡，25μg/mlTCS作用24h 时， 分别有21.08%的Jurkat 细胞和27.27%的Jurkat/HIV-1IIIB 细胞凋亡。以上的结 果说明HIV-1 感染H9 细胞后增强了感染细胞对TCS 的敏感性，而HIV-1 感 染Jurkat 细胞后并不影响其对TCS 的敏感性。根据细胞凋亡途径中是否依赖 线粒体的参与可以将细胞分成TypeⅠ和TypeⅡ两种类型，H9 细胞采取的是 线粒体非依赖性的TypeⅠ型凋亡途径，而Jurkat 细胞则采取线粒体依赖性的 TypeⅡ型凋亡途径。由于Jurkat 细胞对TCS 诱导的凋亡更加敏感，我们推测 HIV-1 感染H9 细胞后，诱导了细胞凋亡途径由TypeⅠ向TypeⅡ型转变。为 此，我们采用流式细胞仪检测了TCS 对凋亡细胞内的线粒体膜电位及 caspase-8 蛋白酶活性的影响，结果显示，H9/HIV-1IIIB、Jurkat 和Jurkat/HIV-1IIIB 细胞对TCS 诱导的凋亡具有相同程度的敏感性，并且伴随着细胞线粒体膜电 位的耗散和caspase-8 蛋白酶的活化；而相同情况下，TCS 对H9 细胞的影响 则很微弱。由此，进一步证实了我们的推测，即HIV-1 感染H9 细胞后，通过 改变细胞内的某些信号，使H9/HIV-1ⅢB细胞的性状更加倾向于Type Ⅱ型细 胞，从而增强其对于TCS 的敏感性.

Survivin表达在高LET射线诱导细胞凋亡中作用机理的初步研究；A Preliminary Study on Action Mechanisms of Survivin Expression in Cell Apoptosis Induced by High-LET Radiation

先前的研究表明,肿瘤细胞中survivin的高表达与细胞对高传能线密度(LET)射线的辐射抗性相关。研究了survivin表达在高LET射线诱导的细胞凋亡中的作用,发现抑制survivin表达对高LETC离子辐射诱导的Bcl-2和Bax表达没有明显的影响。在高LET射线辐照中,survivin可能通过抑制caspase-3和-9活性的途径,抑制了细胞凋亡。

survivin表达对重离子诱导人肝癌HepG2细胞生物学效应的影响

放射治疗是肿瘤三大治疗手段之一（手术治疗、放疗、化疗），如何提高肿瘤细胞的放射敏感性一直是科研人员关注的研究方向。电离辐射导致细胞死亡的主要方式是细胞凋亡，然而肿瘤细胞内往往细胞凋亡信号通路异常，降低了治疗效果。其中细胞内高水平表达的细胞凋亡抑制蛋白（Inhibitor of Apoptosis Protein，IAP）抑制了caspase分子的活性，而caspase分子正是细胞凋亡的执行分子。因此科学家们通过各种手段尤其是RNA干涉的方法以抑制肿瘤细胞内细胞凋亡抑制蛋白的表达及蛋白活性来达到提高肿瘤治疗效果的目的。 Survivin是凋亡抑制蛋白家族的一员，该蛋白在大多数恶性肿瘤中高表达，而在正常组织中检测不到，因此具有组织特异性。Survivin参与肿瘤细胞分化并抑制肿瘤细胞凋亡，它的高表达被证明与很多恶性肿瘤对放射治疗中产生的辐射抗性相关。本文主要研究了不同LET射线辐照下人肝癌HepG2细胞 survivin的表达及其表达对重离子诱导的生物学效应的影响。首先，我们使用不同LET的碳离子束和X射线辐照HepG2细胞，采用标准克隆形成法确定其辐射敏感性，利用流式细胞技术（FCM）检测辐射后细胞周期分布，RT-PCR和western blotting检测survivin的表达。结果显示，人肝HepG2癌细胞经不同LET射线照射，survivin表达是不同的。与低LET的X射线相比，高LET碳离子诱导的细胞损伤和周期阻滞更明显，从而诱导了更强烈的survivin表达。 接着，根据Genbank提供的survivin序列，合成特异性survivin-siRNA寡核苷酸，转染HepG2细胞，抑制survivin的表达。我们发现siRNA转染后诱导了细胞G2/M期阻滞，增加了自发性和辐射诱导的细胞凋亡。在碳离子辐照后，siRNA细胞克隆存活率明显下降。这些结果显示survivin表达是细胞产生高LET辐射抗性的关键因素。最后，我们初步探讨了在细胞凋亡过程中，survivin基因的作用机制。发现抑制survivin表达，对离子束辐射诱导的Bcl-2和Bax表达没有明显的影响。Survivin表达直接抑制了caspase-3和-9的活性，从而抑制了细胞凋亡。以上的实验结果表明：不同LET射线辐照细胞后survivin出现差异表达，与X射线相比，高LET重离子诱导的HepG2细胞中survivin表达更明显，以survivin为靶基因的siRNA技术应用于HepG2细胞，可以极大提高该细胞对重离子辐射的敏感性。本论文研究为临床应用重离子束治疗癌症提供了非常有用的基础数据，同时也为重离子束放射治疗联合基因治疗提供了新的思路

Programmed cell death in Laminaria japonica (Phaeophyta) tissues infected with alginic acid decomposing bacterium

TdT-mediated dUTP-biotin nick end labeling (TUNEL) is a sensitive and valid method for detecting DNA cleavage in programmed cell death (PCD). Using this method, DNA cleavage was observed in Laminaria japonica sporophytic tissues, which were infected with alginic acid decomposing bacterium. It was found that DNA cleavage occurred 5 min after the infection, the fragments with 3'-OH groups of cleaved nuclear DNA increased with time of infection and spread from the infection site. Although no typical DNA ladder (200 bp/ 180 bp) was detected by routine agarose gel electrophoresis, the cleavage of nuclear DNA fragments of 97 similar to 48.5 kb could be detected by pulsed field gel electrophoresis (PFGE). By using CaspGLOW(TM) fluorescein active caspase-3 staining method, caspase-3 activity has been detected in response to the infection of alginic acid decomposing bacterium. Our results are similar to the observations in hypersensitive response (HR) of higher plant, suggesting that the rapid cell death of L. japonica infected by alginic acid decomposing bacterium might be involved in PCD, and indicating that the occurrence of PCD is an active defense process against the pathogen's infection.

文蛤（Meretrix meretrix）幼虫生长发育相关基因的克隆和功能分析

贝类养殖是我国海水养殖业中最重要的组成部分之一。贝类人工大规模养殖中的关键环节是种苗的人工繁育，早期幼虫能否正常生长发育，对幼虫变态和变态后生长率及成活率有很大的影响，直接关系到生产产量和经济效益，所以，了解幼虫发育机制对于生产实践具有重要的指导意义。 文蛤（Meretrix meretrix）是一种在东亚各国沿海和滩涂地区广泛分布的双壳贝类，是我国一种重要的经济品种。本论文以文蛤幼虫为研究对象，分别对文蛤幼虫发育过程中贝壳形成相关的铁蛋白（MmeFer）、营养及变态相关的组织蛋白酶B（MmeCB）及变态过程中细胞凋亡相关的caspase三个基因进行了克隆，分析了基因及编码蛋白在担轮幼虫期（L1）、D形幼虫期（L2）、壳顶幼虫期（L3）和稚贝期（L4）的时空表达特征，解析了其可能的功能，并研究了相应酶类的特异性抑制剂作用对幼虫发育过程的影响，进行了目标蛋白的功能验证，详述如下： 研究结果显示，在文蛤胚胎发育到原肠胚时放入不含铁离子的人工海水中培养，发育成无壳的畸形，随着人工海水中铁离子添加浓度的升高，幼虫长出壳状组织接近正常状态；而发育到L1期幼虫放入不含铁离子的人工海水中培养却可以发育出正常的壳，推测铁和铁代谢相关蛋白在幼虫贝壳初始形成有重要的作用。根据构建的文蛤幼虫cDNA文库中提供的序列信息，从文蛤中克隆了与铁离子代谢密切相关的铁蛋白（MmeFer）的全长cDNA 序列；通过Real time PCR发现，MmeFer mRNA的表达量在贝壳形成前后有明显改变；整体原位杂交结果显示MmeFer mRNA在L1期的表达部位刚好是贝壳生成的起始部位，推断文蛤铁蛋白与文蛤幼虫贝壳初始形成密切相关。 利用文蛤幼虫cDNA文库中的EST信息在幼虫中克隆到文蛤组织蛋白酶B（MmeCB）全长cDNA序列；通过整体原位杂交分析发现MmeCB mRNA在L2至L4期幼虫的消化腺部位表达，而且在L2期的幼虫表皮也有表达，说明MmeCB可能和幼虫消化相关，而且可能参与幼虫从表皮摄取营养的过程。利用MmeCB特异性抑制剂（CA074Me）处理饥饿幼虫，发现其生长受到明显抑制，验证了MmeCB参与幼虫表皮营养代谢的推论。利用免疫组织化学技术，研究了MmeCB蛋白在文蛤幼虫中的时空分布，发现其在L2期幼虫表面和胃部有阳性信号，而在L3期，MmeCB在幼虫面盘基部有强烈的表达，提示MmeCB在文蛤幼虫中不仅起到营养的作用，而且可能和幼虫附着变态有关。利用CA074Me分别处理文蛤胚胎和变态期幼虫，发现抑制MmeCB的活性对胚胎发育和幼虫变态都有显著影响。研究结果提示MmeCB在幼虫发育各阶段均具有重要的生物学功能。 根据caspase在不同物种中的保守区域设计简并引物，在文蛤幼虫中扩增到cDNA序列片段；检测有活性的caspase在文蛤幼虫各发育时期的分布部位，发现其在L1至L3期幼虫中都有分布，说明整个幼虫形态变化过程中都有caspase的参与；细胞凋亡检测结果显示，幼虫主要发生细胞凋亡的部位在L3期幼虫的面盘，即变态过程中要退化的器官，说明细胞凋亡可能是文蛤幼虫变态过程中面盘退化的主要机制；用caspase特异性抑制剂处理变态前幼虫，发现幼虫变态率下降，初步验证了caspase在文蛤幼虫变态过程中的作用。 通过对上述三种基因的研究，分别探讨了文蛤幼虫发育阶段中的几个主要事件（L1期到L2期的贝壳形成、L2到L3期的幼虫营养摄食及L3到L4期的附着变态）相关的基因及其功能，为研究贝类生长发育调控的分子机理提供了新的线索。

Rhein induces apoptosis and cell cycle arrest in human hepatocellular carcinoma BEL-7402 cells

Rhein, an anthraquinone derivative of rhubarb, inhibits the proliferation of various human cancer cells. In this paper, we focused on studying the effects of rhein on human hepatocelluar carcinoma BEL-7402 cells and further understanding the underlying molecular mechanism in an effort to make the potential development of rhein in the treatment of cancers. Using MTT assay and flow cytometry, we demonstrate a critical role of rhein in the suppression of BEL-7402 cell proliferation in a concentration- and time-dependent manner. The increase of apoptosis rate was observed after incubation of BEL-7402 cells with rhein at 50-200 mu M for 48 hours, and the cells exhibit typical apoptotic features including cellular morphological change and chromatin condensation. Moreover, rhein-induced cell cycle S-phase arrest. Additionally, after rhein treatment, expression levels of c-Myc gene were decreased, while those of caspase-3 gene were increased in a dose-dependent manner by using real-time PCR assay. The results demonstrate for the first time that cell cycle S-phase arrest is one of the mechanisms of rhein in inhibition of BEL-7402 cells. Rhein plays its role by inducing cell cycle arrest via downregulation of oncogene c-Myc and apoptosis through the caspase-dependent pathway. It is expected that rhein will be effective and useful as a new agent in hepatocelluar carcinoma treatment in the future.

Altered of apoptotic markers of both extrinsic and intrinsic pathways induced by hepatitis C virus infection in peripheral blood mononuclear cells

Background: Chronic hepatitis C (CHC) has emerged as a leading cause of cirrhosis in the U. S. and across the world. To understand the role of apoptotic pathways in hepatitis C virus (HCV) infection, we studied the mRNA and protein expression patterns of apoptosis-related genes in peripheral blood mononuclear cells (PBMC) obtained from patients with HCV infection.Methods: the present study included 50 subjects which plasma samples were positive for HCV, but negative for human immunodeficiency virus (HIV) or hepatitis B virus (HBV). These cases were divided into four groups according to METAVIR, a score-based analysis which helps to interpret a liver biopsy according to the degree of inflammation and fibrosis. mRNA expression of the studied genes were analyzed by reverse transcription of quantitative polymerase chain reaction (RT-qPCR) and protein levels, analyzed by ELISA, was also conducted. HCV genotyping was also determined.Results: HCV infection increased mRNA expression and protein synthesis of caspase 8 in group 1 by 3 fold and 4 fold, respectively (p < 0.05). in group 4 HCV infection increased mRNA expression and protein synthesis of caspase 9 by 2 fold and 1,5 fold, respectively (p < 0.05). Also, caspase 3 mRNA expression and protein synthesis had level augumented by HCV infection in group 1 by 4 fold and 5 fold, respectively, and in group 4 by 6 fold and 7 fold, respectively (p < 0.05).Conclusions: HCV induces alteration at both genomic and protein levels of apoptosis markers involved with extrinsic and intrinsic pathways.

Estratégias terapêuticas baseadas na modulação da atividade enzimática das caspases

Projeto de Pós-Graduação/Dissertação apresentado à Universidade Fernando Pessoa como parte dos requisitos para obtenção do grau de Mestre em Ciências Farmacêuticas

Mammalian cell cultures as a model system for the determination of cytotoxicity induced by cholesterol oxidation products

Oxysterols are products of cholesterol oxidation, which may be produced endogenously or may be absorbed from the diet where they are commonly found in foods of animal origin. Oxysterols are known to be cyctotoxic to cells in culture and mode of toxicity has been identified as apoptosis in certain cell lines. The cytotoxicity of the oxysterols 25-hydroxycholesterol (25-OH) and 7β-hydroxycholesterol (7β-OH) was examined in two human cell lines, HepG2, a hepatoma cell line, and U937, a monocytic cell line. Both 25-OH and 7β-OH were cytotoxic to the HepG2 cell line but apoptotic cells were not detected and it was concluded that cells underwent necrosis. 25-OH was not cytotoxic to the U937 cell line but it was found to have a cytostatic effect. 7β-OH was shown to induce apoptosis in the U937 line. The mechanism of oxysterol-induced apoptosis has not yet been fully elucidated, however the generation of an oxidative stress and the depletion of glutathione have been associated with the initial stages of the apoptotic process. The concentration of cellular antioxidant enzyme, superoxide dismutase (SOD) was increased in association with 7β-OH induced apoptosis in the U937 cell line. There was no change in the glutathione concentration or the SOD activity of HepG2 cells, which underwent necrosis in the presence of 7β-OH. Many apoptotic pathways center on the activation of caspase-3, which is the key executioner protease of apoptosis. Caspase-3 activity was also shown to increase in association with 7β-OH-induced apoptosis in U937 cells but there was no significant increase in caspase-3 activity in HepG2 cells. DNA fragmentation is regarded as the biochemical hallmark of apoptosis, therefore the comet assay as a measure of DNA fragmentation was assessed as a measure of apoptosis. The level of DNA fragmentation induced by 7β-OH, as measured using the comet assay, was similar for both cell lines. Therefore, it was concluded that the comet assay could not be used to distinguish between 7β-OH-induced apoptosis in U937 cells and 7β-OH-induced necrosis in HepG2 cells. The cytotoxicity and apoptotic potency of oxysterols 25-OH, 7β-OH, cholesterol- 5a,6a-epoxide (a-epoxide), cholesterol-5β,6β-epoxide (β-epoxide), 19-hydroxy-cholesterol (19-OH), and 7-ketocholesterol (7-keto) was compared in the U937 cell line. 7 β-OH, β-epoxide and 7-keto were found to induce apoptosis in U937 cells. 7β-OH-induced apoptosis was associated with a decrease in the cellular glutathione concentration and an increase in SOD activity, 7-keto and β-epoxide did not affect the glutathione concentration or the SOD activity of the cells.a-Epoxide, 19-OH and 25-OH were not cytotoxic to the U937 cell line.

The role of metabolism in the pathogenesis of adherent invasive Escherichia coli (AIEC)

Crohn’s disease (CD) is a chronic, relapsing inflammatory condition affecting the gastrointestinal tract of humans, of which there is currently no cure. The precise etiology of CD is unknown, although it has become widely accepted that it is a multifactorial disease which occurs as a result of an abnormal immune response to commensal enteric bacteria in a genetically susceptible host. Recent studies have shown that a new group of Escherichia coli, called Adherent Invasive Escherichia coli (AIEC) are present in the guts of CD patients at a higher frequency than in healthy subjects, suggesting that they may play a role in the initiation and/or maintenance of the inflammation associated with CD. Two phenotypes define an AIEC and differentiate them from other groups of E. coli. Firstly, AIEC can adhere to and invade epithelial cells; and secondly, they can replicate in macrophages. In this study, we use a strain of AIEC which has been isolated from the colonic mucosa of a CD patient, called HM605, to examine the relationship between AIEC and the macrophage. We show, using a systematic mutational approach, that while the Tricarboxylic acid (TCA) cycle, the glyoxylate pathway, the Entner-Doudoroff (ED) pathway, the Pentose Phosphate (PP) pathway and gluconeogenesis are dispensable for the intramacrophagic growth of HM605, glycolysis is an absolute requirement for the ability of this organism to replicate intracellularly. We also show that HM605 activates the inflammasome, a major driver of inflammation in mammals. Specifically, we show that macrophages infected with HM605 produce significantly higher levels of the pro-inflammatory cytokine IL-1β than macrophages infected with a non-AIEC strain, and we show by immunoblotting that this is due to cleavage of caspase-1. We also show that macrophages infected with HM605 exhibit significantly higher levels of pyroptosis, a form of inflammatory cell death, than macrophages infected with a non-AIEC strain. Therefore, AIEC strains are more pro-inflammatory than non-AIEC strains and this may have important consequences in terms of CD pathology. Moreover, we show that while inflammasome activation by HM605 is independent of intracellular bacterial replication, it is dependent on an active bacterial metabolism. Through the establishment of a genetic screen aimed at identifying mutants which activate the inflammasome to lower levels than the wild-type, we confirm our observation that bacterial metabolism is essential for successful inflammasome activation by HM605 and we also uncover new systems/structures that may be important for inflammasome activation, such as the BasS/BasR two-component system, a type VI secretion system and a K1 capsule. Finally, in this study, we also identify a putative small RNA in AIEC strain LF82, which may be involved in modulating the motility of this strain. Overall this works shows that, in the absence of specialised virulence factors, the ability of AIEC to metabolise within the host cell may be a key determinant of its pathogenesis.

The cytolytic molecules Fas ligand and TRAIL are required for murine thymic graft-versus-host disease.

Thymic graft-versus-host disease (tGVHD) can contribute to profound T cell deficiency and repertoire restriction after allogeneic BM transplantation (allo-BMT). However, the cellular mechanisms of tGVHD and interactions between donor alloreactive T cells and thymic tissues remain poorly defined. Using clinically relevant murine allo-BMT models, we show here that even minimal numbers of donor alloreactive T cells, which caused mild nonlethal systemic graft-versus-host disease, were sufficient to damage the thymus, delay T lineage reconstitution, and compromise donor peripheral T cell function. Furthermore, to mediate tGVHD, donor alloreactive T cells required trafficking molecules, including CCR9, L selectin, P selectin glycoprotein ligand-1, the integrin subunits alphaE and beta7, CCR2, and CXCR3, and costimulatory/inhibitory molecules, including Ox40 and carcinoembryonic antigen-associated cell adhesion molecule 1. We found that radiation in BMT conditioning regimens upregulated expression of the death receptors Fas and death receptor 5 (DR5) on thymic stromal cells (especially epithelium), while decreasing expression of the antiapoptotic regulator cellular caspase-8-like inhibitory protein. Donor alloreactive T cells used the cognate proteins FasL and TNF-related apoptosis-inducing ligand (TRAIL) (but not TNF or perforin) to mediate tGVHD, thereby damaging thymic stromal cells, cytoarchitecture, and function. Strategies that interfere with Fas/FasL and TRAIL/DR5 interactions may therefore represent a means to attenuate tGVHD and improve T cell reconstitution in allo-BMT recipients.

Wee1-regulated apoptosis mediated by the crk adaptor protein in Xenopus egg extracts.

Many of the biochemical reactions of apoptotic cell death, including mitochondrial cytochrome c release and caspase activation, can be reconstituted in cell-free extracts derived from Xenopus eggs. In addition, because caspase activation does not occur until the egg extract has been incubated for several hours on the bench, upstream signaling processes occurring before full apoptosis are rendered accessible to biochemical manipulation. We reported previously that the adaptor protein Crk is required for apoptotic signaling in egg extracts (Evans, E.K., W. Lu, S.L. Strum, B.J. Mayer, and S. Kornbluth. 1997. EMBO (Eur. Mol. Biol. Organ.) J. 16:230-241). Moreover, we demonstrated that removal of Crk Src homology (SH)2 or SH3 interactors from the extracts prevented apoptosis. We now report the finding that the relevant Crk SH2-interacting protein, important for apoptotic signaling in the extract, is the well-known cell cycle regulator, Wee1. We have demonstrated a specific interaction between tyrosine-phosphorylated Wee1 and the Crk SH2 domain and have shown that recombinant Wee1 can restore apoptosis to an extract depleted of SH2 interactors. Moreover, exogenous Wee1 accelerated apoptosis in egg extracts, and this acceleration was largely dependent on the presence of endogenous Crk protein. As other Cdk inhibitors, such as roscovitine and Myt1, did not act like Wee1 to accelerate apoptosis, we propose that Wee1-Crk complexes signal in a novel apoptotic pathway, which may be unrelated to Wee1's role as a cell cycle regulator.

Features of programmed cell death in intact Xenopus oocytes and early embryos revealed by near-infrared fluorescence and real-time monitoring.

Factors influencing apoptosis of vertebrate eggs and early embryos have been studied in cell-free systems and in intact embryos by analyzing individual apoptotic regulators or caspase activation in static samples. A novel method for monitoring caspase activity in living Xenopus oocytes and early embryos is described here. The approach, using microinjection of a near-infrared caspase substrate that emits fluorescence only after its proteolytic cleavage by active effector caspases, has enabled the elucidation of otherwise cryptic aspects of apoptotic regulation. In particular, we show that brief caspase activity (10 min) is sufficient to cause apoptotic death in this system. We illustrate a cytochrome c dose threshold in the oocyte, which is lowered by Smac, a protein that binds thereby neutralizing the inhibitor of apoptosis proteins. We show that meiotic oocytes develop resistance to cytochrome c, and that the eventual death of oocytes arrested in meiosis is caspase-independent. Finally, data acquired through imaging caspase activity in the Xenopus embryo suggest that apoptosis in very early development is not cell-autonomous. These studies both validate this assay as a useful tool for apoptosis research and reveal subtleties in the cell death program during early development. Moreover, this method offers a potentially valuable screening modality for identifying novel apoptotic regulators.