Caspase家族在细胞凋亡中的研究进展

半胱氨酸蛋白酶（caspase）家族成员是近两年来发现的在细胞凋亡过程中起关键作用的酶,对其深入研究有助于揭示细胞凋亡的发生机制,阐明不同疾病的发病机理。本文介绍了Caspase家族及其在细胞凋亡中的研究近况。     

凋亡诱导因子是线粒体内介导核凋亡的最主要蛋白质之一

凋亡诱导因子（apoptosis-inducing factor, AIF）基因定位于X染色体上,其编码产物是一种可直接介导细胞核凋亡的效应分子. 鼠AIF前体蛋白在胞浆中合成后,通过其N端的线粒体定位信号（MLS）有效地穿入线粒体膜间隙,然后在102位甘氨酸处水解掉MLS,其余部分再与黄素腺嘌呤二核苷酸（FAD）结合,并重新折叠成为具有促凋亡潜能的成熟AIF分子,分子质量为57 ku.当凋亡信号刺激时,AIF分子从线粒体释放到胞浆,然后转位到细胞核内,引起染色体核周边凝集和DNA呈大片段断裂（～50 kb）. 该作用不受广谱caspases抑制剂z-VAD.fmk的抑制,也不受Bcl-2过量表达的影响.基因剔除实验表明,AIF蛋白的促凋亡活性是胚胎小鼠形态发生过程中类胚体成腔所必需的,而且是AIF独立作用的结果,可以不依赖caspase-3的活性.因此AIF介导的细胞凋亡可能代表了独立于caspase通路之外的另一条更原始、更保守的凋亡途径.     

蛋白酶与细胞凋亡

凋亡是受遗传因素控制的细胞死亡,其分子机制是进化过程中十分保守,从线虫到人,许多蛋白酶同源物的发现,提示蛋白酶是细胞死亡机制的核心成分。本论述了调控细胞凋亡的蛋白酶,蛋白酶作用的底物及其蛋白酶在细胞凋亡中的作用机制。     

线粒体跨膜电位与细胞凋亡

细胞凋亡作为细胞固有的、受机体严密调控的细胞死亡形式,在多细胞生物体清除衰老细胞及无能细胞等方面发挥重要的作用.近年来,细胞凋亡的研究重点已从细胞核转向线粒体.各种死亡信号诱导线粒体膜通透性改变孔（permeability transition pore, PT pore）开放,引起线粒体跨膜电位下降,导致促凋亡物质释放,继而激活caspase,最终使细胞凋亡.Bcl-2和Bcl-X_L通过对线粒体作用而抑制细胞凋亡,而Bax、Bak与Bad通过调节线粒体而诱导细胞凋亡.     

Survivin反义寡核苷酸诱导SW620细胞凋亡过程中对caspase-3表达的影响

目的：观察survivin反义寡核苷酸（ASODN）对人结肠癌细胞株SW620增殖、凋亡的影响,并初步探讨其分子机制。方法：靶向survivin基因中与caspase-3结合的部位设计、合成反义寡核苷酸并通过脂质体将其转染至人结肠癌细胞SW620中。噻唑蓝（MTT）法观察survivinASODN对SW620细胞增殖的抑制作用,测定IC50;转染36h后,Hoechst33342染色荧光显微镜下观察检测SW620细胞核变化,RT-PCR检测survivinASODN处理后SW620细胞中caspase-3mRNA表达,分光光度法检测caspase-3酶活性．结果：转染8h后,SW620细胞中可见黄绿色荧光均匀分布：不同浓度survivinASODN处理SW620细胞44h后,SW620细胞增殖显著受到抑制,IC50为1×10^-6M。2×10^-7,4×10^-7,6×10^-7,8×10^-7 and1.2×10^-6M的survivinASODN处理后,细胞生长抑制率分别为15．38±0．022％、2404±0．023％、30．87±0．027％、45．02±0．018％和65．01±0．024％：Hoechest33342染色后荧光显微镜下可观察到染色质凝集并出现凋亡小体,RT-PCR检测到caspase-3mRNA表达上调,另外caspase-3酶活性显著升高。结论靶向survivin基因中与caspase-3结合的部位设计合成的survivinASODN可抑制显著结肠癌SW620增殖、诱导细胞凋亡,其机制与诱导caspase-3表达,提高caspase-3酶活性有关。     

红托竹荪多糖诱导肿瘤细胞凋亡的作用初探

探讨红托竹荪多糖对小鼠腹水瘤S180细胞凋亡的作用。分别使用不同浓度的红托竹荪多糖处理S180细胞24h,Western blot法检测Bcl-xl、Bax、caspase-9和Caspase-3等蛋白表达,使用流式细胞仪检测细胞凋亡。Western blot 法检测结果显示Bcl-xl表达量随竹荪多糖剂量增加而降低,Bax表达量则相反,每组Bax/Bcl-xl的比值增加,Caspase-9、Caspase-3表达量增加;流式细胞仪检测结果显示：0、25、50和100mg/L组细胞凋亡率分别为5.12%±0.11%、9.61%±0.61%、16.39%±0.19%和17.05%±0.13%,与对照组相比细胞凋亡率增高,差异具有统计学意义（P<0.05）,推断红托竹荪多糖具有诱导S180细胞凋亡的功能。     

脱氧核糖核酸内切酶与细胞凋亡

哺乳动物细胞广泛存在细胞凋亡。脱氧核糖核酸内切酶(DNase)在细胞凋亡中发挥重要作用,染色质DNA降解、浓缩及细胞核结构的破坏都与DNase有关。目前已发现多种DNase参与不同类型细胞的凋亡。本重点对DNaseⅠ、DNaseⅡ、NUC18、NUC70、AN34、DFF(DFF40/DFF45)等内源性DNase与哺乳动物细胞凋亡的关系作系统的归纳和分析。     

植物细胞凋亡的研究进展

大量的实验研究表明细胞凋亡普遍存在于植物中,对于植物的正常生长发育及病理过程具有十分重要的生物学意义。植物细胞与动物细胞凋亡有许多相似的特征;在凋亡过程中有核酸内切酶的激活以及类caspase的参与;尽管植物细胞与动物细胞凋亡具有相似特征和机制,但其独特的分子调控机理目前尚不清楚 。     

细胞凋亡机制的研究进展

以线虫和哺乳动物为实验材料,综述近年来对细胞凋亡机制的研究进展。     

细胞命运,生死攸关

细胞凋亡是细胞生命活动中一种预定的、并受到严格控制的程序性死亡,它是细胞内一系列促凋亡因子和抗凋亡因子相互作用后获得平衡的结果。细胞凋亡的调控可以发生在表观遗传、转录、翻译、修饰、转运等不同水平,也可以发生在细胞不同的区域,如细胞核、胞质、线粒体、质膜等处。作者近年来发现的新的促/抗凋亡因子从多种不同的角度去诠释细胞凋亡网络的调控。例如,Caspase新的激活机制;凋亡蛋白磷酸化和泛素化修饰以及蛋白通过对中间纤维的影响来诱导线粒体介导的凋亡等等。另外,对凋亡信号如何从胞核流向胞质进而促发线粒体引起的凋亡途径也进行了描述。这些新的凋亡调控机理进一步证明了,细胞凋亡可以发生在细胞生长发育不同的时相和空间,并存在着一个极其复杂的信号传递网络,这一调控网络一旦失去平衡,细胞会引发肿瘤。     

Granzyme M: behind enemy lines

The granule-exocytosis pathway is the major mechanism via which cytotoxic lymphocytes eliminate virus-infected and tumor cells. In this pathway, cytotoxic lymphocytes release granules containing the pore-forming protein perforin and a family of serine proteases known as granzymes into the immunological synapse. Pore-formation by perforin facilitates entry of granzymes into the target cell, where they can activate various (death) pathways. Humans express five different granzymes, of which granzymes A and B have been most extensively characterized. However, much less is known about granzyme M (GrM). Recently, structural analysis and advanced proteomics approaches have determined the primary and extended specificity of GrM. GrM functions have expanded over the past few years: not only can GrM efficiently induce cell death in tumor cells, it can also inhibit cytomegalovirus replication in a noncytotoxic manner. Finally, a role for GrM in lipopolysaccharide-induced inflammatory responses has been proposed. In this review, we recapitulate the current status of GrM expression, substrate specificity, functions, and inhibitors.     

Granzyme B activates procaspase-3 which signals a mitochondrial amplification loop for maximal apoptosis

Granzyme B (GrB), acting similar to an apical caspase, efficiently activates a proteolytic cascade after intracellular delivery by perforin. Studies here were designed to learn whether the physiologic effector, GrB-serglycin, initiates apoptosis primarily through caspase-3 or through BH3-only proteins with subsequent mitochondrial permeabilization and apoptosis. Using four separate cell lines that were either genetically lacking the zymogen or rendered deficient in active caspase-3, we measured apoptotic indices within whole cells (active caspase-3, mitochondrial depolarization [DeltaPsim] and TUNEL). Adhering to these conditions, the following were observed in targets after GrB delivery: (a) procaspase-3-deficient cells fail to display a reduced DeltaPsim and DNA fragmentation; (b) Bax/Bak is required for optimal DeltaPsim reduction, caspase-3 activation, and DNA fragmentation, whereas BID cleavage is undetected by immunoblot; (c) Bcl-2 inhibits GrB-mediated apoptosis (reduced DeltaPsim and TUNEL reactivity) by blocking oligomerization of caspase-3; and (d) in procaspase-3-deficient cells a mitochondrial-independent pathway was identified which involved procaspase-7 activation, PARP cleavage, and nuclear condensation. The data therefore support the existence of a fully implemented apoptotic pathway initiated by GrB, propagated by caspase-3, and perpetuated by a mitochondrial amplification loop but also emphasize the presence of an ancillary caspase-dependent, mitochondria-independent pathway.     

Granzyme M targets topoisomerase II alpha to trigger cell cycle arrest and caspase-dependent apoptosis

Cytotoxic lymphocyte protease granzyme M (GrM) is a potent inducer of tumor cell death. The apoptotic phenotype and mechanism by which it induces cell death, however, remain poorly understood and controversial. Here, we show that GrM-induced cell death was largely caspase-dependent with various hallmarks of classical apoptosis, coinciding with caspase-independent G2/M cell cycle arrest. Using positional proteomics in human tumor cells, we identified the nuclear enzyme topoisomerase II alpha (topoIIα) as a physiological substrate of GrM. Cleavage of topoIIα by GrM at Leu¹²⁸⁰ separated topoIIα functional domains from the nuclear localization signals, leading to nuclear exit of topoIIα catalytic activity, thereby rendering it nonfunctional. Similar to the apoptotic phenotype of GrM, topoIIα depletion in tumor cells led to cell cycle arrest in G2/M, mitochondrial perturbations, caspase activation, and apoptosis. We conclude that cytotoxic lymphocyte protease GrM targets topoIIα to trigger cell cycle arrest and caspase-dependent apoptosis.     

颗粒酶B和胱天蛋白酶-3对肌动蛋白水解作用的体外研究

已知凋亡过程的基本变化之一是细胞骨架的异常,后者在某种程度上决定凋亡细胞的形态学特征.为揭示凋亡相关蛋白酶--颗粒酶B和胱天蛋白酶-3对胞浆型肌动蛋白的水解作用,采用成年猕猴脑组织粗提物作为无细胞体系,以外源性颗粒酶B触发凋亡途径的终末反应.经一系列免疫印迹分析发现:孵育12 h方见β-肌动蛋白被剪切,产生41 ku和15 ku水解片段,并证明该水解反应为颗粒酶B依赖;颗粒酶B活化的内源性胱天蛋白酶-3和重组胱天蛋白酶-3均不能水解脑提取物中的β-肌动蛋白,尽管胱天蛋白酶-3可作用于纯化的肌动蛋白,产生15 ku片段.以上结果提示,内源性β-肌动蛋白对凋亡相关蛋白酶,尤其胱天蛋白酶-3不敏感,这可能与该蛋白质的空间结构特征或脑组织中存在的某种蛋白酶抑制因子有关.     

颗粒酶B和胱天蛋白酶-3对肌动蛋白水解作用的体外研究(英)

已知凋亡过程的基本变化之一是细胞骨架的异常,后者在某种程度上决定凋亡细胞的形态学特征.为揭示凋亡相关蛋白酶——颗粒酶B和胱天蛋白酶-3对胞浆型肌动蛋白的水解作用,采用成年猕猴脑组织粗提物作为无细胞体系,以外源性颗粒酶B触发凋亡途径的终末反应. 经一系列免疫印迹分析发现: 孵育12 h方见β-肌动蛋白被剪切,产生41 ku和15 ku水解片段,并证明该水解反应为颗粒酶B依赖;颗粒酶B活化的内源性胱天蛋白酶-3和重组胱天蛋白酶-3均不能水解脑提取物中的β-肌动蛋白,尽管胱天蛋白酶-3可作用于纯化的肌动蛋白,产生15 ku片段. 以上结果提示,内源性β-肌动蛋白对凋亡相关蛋白酶,尤其胱天蛋白酶-3不敏感,这可能与该蛋白质的空间结构特征或脑组织中存在的某种蛋白酶抑制因子有关.     

Protamine: a unique and potent inhibitor of oligopeptidase B.

Oligopeptidase B is a serine endopeptidase found in prokaryotes, unicellular eukaryotes and higher plants. The enzyme has been shown recently to play a central role in the pathogenesis of several parasitic diseases such as African trypanosomiasis, and to be a potential therapeutic target. This study reports that protamine, a basic peptide rich in arginine, is a potent inhibitor at the nanomolar level of oligopeptidase B from E. coli and wheat. Protamines 1B, 2C, 3A and TP17 displayed similar inhibitory activities and were capable of binding strongly to oligopeptidase B without proteolytic cleavage. The concentration of protamine needed for 50% inhibition (IC50) of oligopeptidase B was 10(4)-fold lower than the IC50 of trypsin. Oligopeptidase B was highly sensitive to inhibition by protamines even in the presence of serum (IC50, 1 microM). These data indicate that protamines might provide information useful for the design of more specific synthetic oligopeptidase B inhibitors.     

Mechanisms of B cell receptor induced apoptosis

B cell receptor (BCR)-mediated apoptosis plays a key role in the negative selection (deletion) of autoreactive B cells. Mechanisms of BCR-mediated apoptosis have been widely studied in cell lines representing both immature (bone marrow) and mature (germinal center) B cells. However, there is much inconsistency and controversy concerning the possible mechanisms of BCR-mediated apoptosis, which may reflect differences in the origin or the maturational stage of the cell line used. Based on recent studies, collapse of mitochondrial membrane potential (Delta Psi m) seems to be an essential event for BCR-mediated apoptosis in both mature and immature cells. The collapse of Delta Psi m is dependent on the synthesis of new proteins, which are involved in the permeability change of mitochondrial membranes. Mitochondrial dysfunction induces activation of caspases, cysteine proteases, which play a central role in apoptosis. However, instead of caspases, other effector proteases, such as cathepsins or calpains, may also be responsible for the organized destruction of cell components seen during BCR-mediated apoptosis.     

活性型粒酶B基因的异位表达导致多核巨细胞产生

粒酶B（granzyme B, GrB）是一种重要的丝氨酸蛋白酶参与细胞毒性T淋巴细胞(CTL)和自然杀伤细胞(NK)介导的细胞杀伤过程.为研究粒酶B在肿瘤细胞中异位表达后能否诱导细胞死亡,将构建的活性型粒酶B（GrBa）基因及其酶活性中心突变型（mGrBa）基因的真核表达载体,以脂质体法瞬时转染HeLa细胞,通过绿色荧光蛋白(GFP)共表达、间接免疫荧光、细胞计数、MTT等方法,观察到GrBa蛋白的异位表达引起多核巨细胞形态异常,并且表达细胞的生长受到抑制.Percoll分离多核巨细胞后,观察到其生长状态较差,是导致生长抑制的直接原因.细胞骨架破坏和具有多极纺锤体的异常有丝分裂,推测是多核巨细胞不断产生的根源.上述结果为GrBa应用于肿瘤基因治疗提供了一定依据.     

两种人粒酶B嵌合基因的表达及对肿瘤细胞的杀伤作用

通过重组PCR构建了抗HER2单链抗体基因、绿脓杆菌外毒素 (PE)转位肽序列和活性型粒酶B(GrBa)基因相融合的sFv2 3e PEⅡ GrBa基因 ,以及N端包含PE部分转位肽序列的PEⅡ GrBa基因 .将这 2种粒酶B嵌合蛋白基因瞬时转染或稳定转染HeLa细胞及SKBR 3细胞 .通过间接免疫荧光、细胞计数、MTT、ELISA等方法 ,观察到细胞浆中表达的PEⅡ GrBa蛋白直接杀伤其表达细胞 ;而sFv2 3e PEⅡ GrBa表达后被分泌至细胞外 ,对产生它的细胞没有杀伤性 ,但能够特异识别并杀伤HER2阳性肿瘤细胞 .结果表明 ,抗肿瘤表面抗原的抗体能够介导靶向识别 ,转位结构域可以辅助效应分子活化、转位至细胞液并杀伤细胞 ,为肿瘤的靶向治疗提供了新的策略 .     

N端融合不同长度转位肽的重组粒酶B抑制细胞生长作用的比较

采用重组PCR法将粒酶B基因的N端信号肽和酸性二肽编码序列去除,与两种不同长度的绿脓杆菌外毒素（PE）转位肽序列分别连接,将它们插入pIND诱导表达载体,通过脂质体法与pVgRXR辅助质粒共转染HeLa细胞,建立了重组PE II-GrBa基因的诱导表达细胞系。松甾酮A诱导后Western印迹检测到目的基因的表达,间接免疫荧光观察到表达细胞出现多核巨细胞的异常形态。两种表达的PE II-GrBa融合蛋白均能够切割粒酶B的细胞内源性和外源性底物,并且使细胞生长速度减慢。其中,PE II-(aa 280358)-GrBa的底物切割能力和生长抑制作用较强。流式细胞仪分析这种抑制作用可能与细胞周期的G2期受到阻遏有关。上述结果证实了PE II-GrBa融合蛋白仍然具有抑制细胞生长的作用,并且较短的转位肽对GrBa活性的影响较小,有助于进一步优化转位肽/细胞毒性效应蛋白重组分子的结构用于肿瘤细胞杀伤。