植物中的细胞程序性死亡

细胞程序性死亡(PCD)对于维持植物的正常生长发育非常重要,目前已成为植物学研究的一个热点。本文综合评述了近年来植物PCD研究的某些进展,包括植物PCD的特征,植物的营养生长、生殖生长以及与环境互作过程中存在的各种PCD及其证据,植物PCD发生的分子机制及其调控等等。对植物PCD研究中有待进一步解决的问题和可能意义提出了自己的见解。     

植物细胞编程性死亡的调控

细胞编程性死亡（PCD）在植物生长发育及植物对环境的适应性方面起重要作用。文章主要从PCD相关基因,信号转导途径,蛋白酶及核酸酶等方面介绍植物细胞编程性死亡的调控。     

颗粒酶A诱导Caspases非依赖性细胞死亡

颗粒酶A(granzyme A,GzmA),是存在于细胞毒性T淋巴细胞(CTL)和天然杀伤细胞(NK细胞)的细胞毒颗粒中含量最多的一种丝氨酸蛋白酶,在穿孔素(perforin)协同作用下通过颗粒胞吐(granule exocytosis)释放进入在杀伤细胞和靶细胞之间形成的免疫突触(immunological synapse),然后进入靶细胞的细胞浆,并在细胞核聚集,诱导一种caspases非依赖性细胞死亡。GzmA靶向作用于一种与内质网结合的特殊的复合体——SET复合体,其包含3种GzmA底物：核小体装配蛋白SET、DNA结合蛋白HMG—2、具有碱基切除修复作用的核酸内切酶Apel。SET复合体还含有一种抑癌蛋白pp32和一种具有脱氧核糖核酸酶(DNase)活性的NM23—H1。当GzmA作用于SET复合体时释放出NM23—H1并激活其DNase活性,也阻断了Apel对DNA损伤的修复作用,在DNA上形成单链的缺刻。这是一种新发现的由GzmA诱导的细胞凋亡途径。     

Plant Proteases Involved in Regulated Cell Death

Each plant genome encodes hundreds of proteolytic enzymes. These enzymes can be divided into five distinct classes: cysteine-, serine-, aspartic-, threonine-, and metalloproteinases. Despite the differences in their structural properties and activities, members of all of these classes in plants are involved in the processes of regulated cell death–a basic feature of eukaryotic organisms. Regulated cell death in plants is an indispensable mechanism supporting plant development, survival, stress responses, and defense against pathogens. This review summarizes recent advances in studies of plant proteolytic enzymes functioning in the initiation and execution of distinct types of regulated cell death.     

细胞自噬在植物细胞程序性死亡中的作用

细胞自噬是真核生物中一种由液泡或溶酶体介导的, 对细胞内物质进行周转的重要代谢机制。在植物中, 细胞自噬作为一种重要的降解手段, 参与营养物质的重新分配、受损蛋白和细胞器的清除及生物和非生物胁迫的响应等过程。此外, 细胞自噬在各种程序性细胞死亡中也起着重要作用, 该文主要综述了近几年来在此方面的研究进展。     

Apoplastic Venom Allergen-like Proteins of Cyst Nematodes Modulate the Activation of Basal Plant Innate Immunity by Cell Surface Receptors

Despite causing considerable damage to host tissue during the onset of parasitism, nematodes establish remarkably persistent infections in both animals and plants. It is thought that an elaborate repertoire of effector proteins in nematode secretions suppresses damage-triggered immune responses of the host. However, the nature and mode of action of most immunomodulatory compounds in nematode secretions are not well understood. Here, we show that venom allergen-like proteins of plant-parasitic nematodes selectively suppress host immunity mediated by surface-localized immune receptors. Venom allergen-like proteins are uniquely conserved in secretions of all animal- and plant-parasitic nematodes studied to date, but their role during the onset of parasitism has thus far remained elusive. Knocking-down the expression of the venom allergen-like protein Gr-VAP1 severely hampered the infectivity of the potato cyst nematode Globodera rostochiensis. By contrast, heterologous expression of Gr-VAP1 and two other venom allergen-like proteins from the beet cyst nematode Heterodera schachtii in plants resulted in the loss of basal immunity to multiple unrelated pathogens. The modulation of basal immunity by ectopic venom allergen-like proteins in Arabidopsis thaliana involved extracellular protease-based host defenses and non-photochemical quenching in chloroplasts. Non-photochemical quenching regulates the initiation of the defense-related programmed cell death, the onset of which was commonly suppressed by venom allergen-like proteins from G. rostochiensis, H. schachtii, and the root-knot nematode Meloidogyne incognita. Surprisingly, these venom allergen-like proteins only affected the programmed cell death mediated by surface-localized immune receptors. Furthermore, the delivery of venom allergen-like proteins into host tissue coincides with the enzymatic breakdown of plant cell walls by migratory nematodes. We, therefore, conclude that parasitic nematodes most likely utilize venom allergen-like proteins to suppress the activation of defenses by immunogenic breakdown products in damaged host tissue.     

活性氧与植物细胞编程性死亡

在各种条件诱导的植物细胞编程性死亡(PCD)过程中都有活性氧的参与,H2O2和O2可能是参与PCD调节的最重要的活性氧.文中概述了活性氧与植物细胞编程性死亡的关系以及活性氧的生成调节和与其它一些信号物质之间可能的相互作用.     

Study of the Lineage and Cell Cycle of Small Micromeres in Embryos of the Sea Urchin, Hemicentrotus pulcherrimus

A study was made of 1st cell cycle of small micromeres, segregated at the 5th cleavage cycle, in the sea urchin embryos of Hemicentrotus pulcherrimus . For identification of small micromeres, the embryos were pulse labeled with 5-bromodeoxyuridine (BrdU) at the 1st cleavage. Using multiparametric microfluorometry equipped with a scanning stage (Tanaka, 1990), DNA content, extent of BrdU incorporation, protein content and the extent of ³H-thymidine labeling were measured on identical individual cells dissociated from an embryo. The findings of the present study are as follows. There is a short period of time between the telophase and onset of DNA replication. The period of DNA replication is 5 hr and after which, asynchronous mitosis takes place to produce 8 cells before hatching. The long S period is 83% the total 6 hr of the cell cycle. The rate of DNA accumulation is quite small during the initial one third of S but increases later in this phase. The degree of chromatin condensation remains high even during the S phase but it is low in large micromeres. The cell cycle may possibly be related causally to the development of small micromeres. The developmental significance of cell cycle duration, particularly that of DNA replication is discussed.     

Mechanisms of Procaspase-8 Activation in the Extrinsic Programmed Cell Death Pathway

Molecular Biology - Caspase-8 performs initiatory functions during the induction of apoptosis through the extrinsic pathway. Apoptosis is a type of programmed cell death that plays an important...     

细胞编程性死亡在高等植物发育中的作用

简要地综述了植物细胞编程性死亡在植物发育、分化、形态建成等生理过程中的作用     

免疫系统中编程性细胞死亡的分子机制

免疫系统中编程性细胞死亡的分子机制郑德先（中国医学科学院基础医学研究所医学分子生物学国家重点实验室,血液学研究所实验血液学国家重点实验室）免疫细胞从其前体细胞发育成熟到抗原应答反应过程中,始终伴随着编程性细胞死亡（ｐｒｏｇｒａｍｍｅｄｃｅｌｌｄｅａｔｈ,ＰＣＤ）或细胞凋亡（ａｐｏｐｔｏｓｉｓ）。没有免疫细胞的编程性死亡,机体就没有健全的免疫防御体系。     

The Cell Cycle and Cell Population Kinetics in the Programmed Cell Death in the Limb-Buds of Normal and 5-Bromodeoxyuridine- Treated Chick Embryos

The cell cycle and cell population kinetics have been analyzed in the interdigital regions of chick limb-buds during the course of programmed cell death both in normal and the 5-bromodeoxyuridine (BrdU)-treated embryos. Our previous study has shown that a single administration of BrdU at day 6 1/3 inhibited the programmed cell death occurring in normal development of limb-buds.
Pulse- as well as continuous labelings with tritiated thymidine (³H-TdR) were used. The results obtained from the analyses made on both normal and experimental embryos have demonstrated the presence of a particular DNA-synthetic period, around day 6 1/3, closely related to the programmed death occurring on day 7 1/3. In normal embryos, new cell populations, which did not belong to any phases of normal cell cycle, made their appearances in the process of programmed cell death. A possible correlation between programmed cell death and the cell cycle has been discussed in relation to the morphogenesis of limbs in both normal and BrdU-treated embryos.     

A Novel Bipartite Centrosome Coordinates the Apicomplexan Cell Cycle

Apicomplexan parasites can change fundamental features of cell division during their life cycles, suspending cytokinesis when needed and changing proliferative scale in different hosts and tissues. The structural and molecular basis for this remarkable cell cycle flexibility is not fully understood, although the centrosome serves a key role in determining when and how much replication will occur. Here we describe the discovery of multiple replicating core complexes with distinct protein composition and function in the centrosome of Toxoplasma gondii. An outer core complex distal from the nucleus contains the TgCentrin1/TgSfi1 protein pair, along with the cartwheel protein TgSas-6 and a novel Aurora-related kinase, while an inner core closely aligned with the unique spindle pole (centrocone) holds distant orthologs of the CEP250/C-Nap protein family. This outer/inner spatial relationship of centrosome cores is maintained throughout the cell cycle. When in metaphase, the duplicated cores align to opposite sides of the kinetochores in a linear array. As parasites transition into S phase, the cores sequentially duplicate, outer core first and inner core second, ensuring that each daughter parasite inherits one copy of each type of centrosome core. A key serine/threonine kinase distantly related to the MAPK family is localized to the centrosome, where it restricts core duplication to once per cycle and ensures the proper formation of new daughter parasites. Genetic analysis of the outer core in a temperature-sensitive mutant demonstrated this core functions primarily in cytokinesis. An inhibition of ts-TgSfi1 function at high temperature caused the loss of outer cores and a severe block to budding, while at the same time the inner core amplified along with the unique spindle pole, indicating the inner core and spindle pole are independent and co-regulated. The discovery of a novel bipartite organization in the parasite centrosome that segregates the functions of karyokinesis and cytokinesis provides an explanation for how cell cycle flexibility is achieved in apicomplexan life cycles.     

The Monocot-Specific Receptor-like Kinase SDS2 Controls Cell Death and Immunity in Rice

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半胱氨酸蛋白酶在植物细胞程序性死亡中的作用

介绍了参与执行与控制植物细胞程序性死亡（PCD）的半胱氨酸蛋白酶的研究进展。     

A Novel Role for Mixed Lineage Kinase 3 (MLK3) in B-Raf Activation and Cell proliferation

The extracellular signal-regulated kinase (ERK) group of MAPKs is essential for cell proliferation, including that stimulated by mitogens, oncogenic ras and raf. The Raf kinases (especially B-Raf) are ERK-specific, mitogen-activated MAP3Ks. Mixed lineage kinase-3 (MLK3) is a MAP3K previously thought to be a selective regulator of the JNK group of MAPKs. Surprisingly, we found that silencing of mlk3 by RNAi suppresses mitogen and cytokine activation not only of JNK but of ERK and p38 as well. Silencing mlk3 also blocks mitogen-stimulated phosphorylation of B-Raf at Thr598 and Ser601—a step required for B-Raf activation. Finally, silencing mlk3 prevents serum-stimulated cell proliferation and the proliferation of tumor cells bearing either oncogenic Ki-Ras or loss of function neurofibromatosis-1 (NF1) or NF2 mutations. The proliferation of tumor cells with activating mutations in B-raf or raf-1 are unaffected by silencing mlk3. These results define a new role for MLK3 in B-Raf activation, ERK signaling and cell proliferation. Accordingly, targeting MLK3 could be beneficial to the treatment of tumors with activated receptor tyrosine kinase or ras mutations, and to the treatment of NF1 or NF2 tumors.     

Silencer of Death Domains Controls Cell Death through Tumour Necrosis Factor-Receptor 1 and Caspase-10 in Acute Lymphoblastic Leukemia

Resistance to apoptosis remains a significant problem in drug resistance and treatment failure in malignant disease. NO-aspirin is a novel drug that has efficacy against a number of solid tumours, and can inhibit Wnt signaling, and although we have shown Wnt signaling to be important for acute lymphoblastic leukemia (ALL) cell proliferation and survival inhibition of Wnt signaling does not appear to be involved in the induction of ALL cell death. Treatment of B lineage ALL cell lines and patient ALL cells with NO-aspirin induced rapid apoptotic cell death mediated via the extrinsic death pathway. Apoptosis was dependent on caspase-10 in association with the formation of the death-inducing signaling complex (DISC) incorporating pro-caspase-10 and tumor necrosis factor receptor 1 (TNF-R1). There was no measurable increase in TNF-R1 or TNF-α in response to NO-aspirin, suggesting that the process was ligand-independent. Consistent with this, expression of silencer of death domain (SODD) was reduced following NO-aspirin exposure and lentiviral mediated shRNA knockdown of SODD suppressed expansion of transduced cells confirming the importance of SODD for ALL cell survival. Considering that SODD and caspase-10 are frequently over-expressed in ALL, interfering with these proteins may provide a new strategy for the treatment of this and potentially other cancers.     

中国科学家在植物程序性细胞死亡领域取得重要成果

程序性细胞死亡不仅在植物生长发育中起重要作用, 而且与植物适应逆境密切相关。近日, 中国科学家在解析植物程序性细胞死亡(PCD)信号通路的研究中取得了突破性进展。