Mitotic chromosome condensation in the sperm nucleus during post fertilization maturation division in urechis eggs

Changes in the morphology of the sperm nucleus in the egg cytoplasm are mong the immediate events in nucleocytoplasmic interactions during early embryogenesis. Soon after its entrance into the egg cytoplasm, the sperm nucleus of various organisms increases in size with the transformation of condensed chromatin to a diffuse state, resembling the chromatin of an interphase nucleus (2, 13, 15, 16). This is followed by a close association or fusion of male and female pronuclei (2, 13, 15, 16). Cytoplasmic influences on nuclear morphology have also been demonstrated clearly in nuclear transplantation and cell fusion studies (10, 11). Reactivation of the nucleus, such as the transplanted brain nucleus in Xenopus egg cytoplasm or the hen erythrocyte nucleus in interphase cytoplasm of HeLa cells, is accompanied by nuclear enlargement and chromatin dispersion (10, 11). However, premature mitotic-like chromosome condensation takes place in the nuclei of sperm or interphase cells fused with mitotic cells (9, 12). Thus, chromosome dispersion and condensation seem to depend on the state of the cytoplasm in which the nucleus is present. These observations imply that the initial morphological changes in the sperm nucleus after fertilization may very well be dependent on the state of maturation of eggs at the time of sperm entry. Unfertilized eggs of Urechis caupo, a marine echiuroid worm, are stored at the diakinesis stage. These eggs complete maturation division after insemination and this is followed by fusion of male and female pronuclei (5, 8). Therefore, Urechis caupo is a suitable organism in which to study the response of the sperm nucleus to the changing state of the egg cytoplasm during and after postfertilization maturation division.     

褐飞虱若虫中肠凋亡细胞的检测

为揭示褐飞虱Niloparvata lugens Stl若虫在发育过程中中肠的凋亡细胞,使用末端脱氧核苷酸转移酶介导的dUTP-生物素断端标记法(TUNEL)进行中肠组织切片检测,结果表明,1～5龄若虫中肠分别存在2%～5%的凋亡细胞。利用4′,6-二脒基-2-苯基吲哚二盐酸(DAPI)染色法检测表明,存在Ⅰ,Ⅱa和Ⅱb期凋亡的细胞核,其特征包括染色体浓缩、边缘化及细胞核碎裂。透射电子显微镜检测结果表明,早期凋亡的细胞呈现染色质浓缩、边缘化特征,晚期凋亡的细胞出现细胞核碎裂、形成凋亡小体及细胞质空泡化等。本研究揭示了在正常发育过程中褐飞虱若虫中肠有少量的细胞发生了凋亡。通过人工干预的方式调控中肠细胞的凋亡进程有可能使之成为防治该水稻害虫的新靶标。     

Programmed cell death of follicular epithelium during the late developmental stages of oogenesis in the fruit flies Bactrocera oleae and Ceratitis capitata (Diptera, Tephritidae) is mediated by autophagy

In the present study, we describe the features of programmed cell death of ovarian follicle cells, occurring during the late developmental stages of oogenesis in the olive fruit fly, Bactrocera oleae and the medfly, Ceratitis capitata. During stage 14, the follicle cells contain autophagic vacuoles, and they do not exhibit caspase activity in all parts of the egg chamber. Their nuclei are characterized by condensed chromatin, accompanied with high- but not low-molecular weight DNA fragmentation events exclusively detected in distinct cells of the anterior pole. These data argue for the presence of an autophagy-mediated cell death program in the ovarian follicle cell layer in both species. The above results are likely associated with the abundant phagocytosis observed at the entry of the lateral oviducts, where numerous cell bodies are massively engulfed by epithelial cells. We strongly believe that during the termination of the above Dipteran oogenesis, an efficient mechanism of absorption of the degenerated follicle cells is selectively activated, in order to prevent the blockage of the ovarioles and thus robustly support the physiological completion of the ovulation process.     

Programmed cell death of the ovarian nurse cells during oogenesis of the silkmoth Bombyx mori

In the present study, we describe the features of programmed cell death of the ovarian nurse cells occurring during vitellogenesis of the silkmoth Bombyx mori. At developmental stage 5, the nurse cells occupy one-half of the follicular volume and obtain a rather spherical shape, while the nurse cell nuclei appear large and elongated, forming impressive projections. At the following stage, stage 6, the nurse cells decrease in size and their shape becomes elliptic. The nuclei remain elongated, being also characterized by large lobes. The lobes of the ramified nurse cell nuclei seem to retain the nucleus in the center of the cell during the dumping of the nurse cell cytoplasm into the growing oocyte. At stage 7, membrane enclosed vacuoles can be easily detected into the nurse cells cytoplasm. Ultrastructural analysis and fluorescent microscopy using mono-dansyl-cadaverine staining of these vacuoles also reveal that they represent autolysosomes. Caspase activity is detected during stage 7, as it is demonstrated by using the Red-VAD-FMK staining reagent. At developmental stages 8 and 9, the nurse cells exhibit chromatin condensation, DNA fragmentation and caspase activity. Finally, during the following stage 10, the nuclear remnants are assembled into apoptotic vesicles, which, after being phagocytosed, are observed in the cytoplasm of adjacent follicle cells. We propose that apoptosis and autophagy operate synergistically during vitellogenesis of B. mori, in order to achieve an efficient and rapid clearance of the degenerated nurse cell cluster.     

Autophagy is required for the degeneration of the ovarian follicular epithelium in higher Diptera

Autophagy is a major pathway for the degradation of long-lived proteins and cytoplasmic organelles and an essential part of programmed cell death, as well. Our findings indicate that programmed cell death of the ovarian follicle cells in the higher Diptera species Bactrocera oleae and Ceratitis capitata manifests features of autophagic cell death. The follicle cells during the developmental stage 14 contain autophagic vacuoles and they do not exhibit caspase activity in any area of the egg chamber. Their nuclei are characterized by condensed chromatin, accompanied with high-but not low-molecular weight DNA fragmentation events exclusively detected in distinct cells of the anterior pole. The above results are likely associated with the abundant phagocytosis observed at the entry of the lateral oviducts, where numerous cell bodies are massively engulfed by epithelial cells. The similarity of the cell death process among B. oleae, C. capitata and Drosophila melanogaster species strongly suggests that autophagy-mediated cell death is conserved in higher Diptera species.     

Actin cytoskeleton reorganization of the apoptotic nurse cells during the late developmental stages of oogenesis in Dacus oleae

In the present study, we demonstrate the actin cytoskeleton reorganization during nurse cells apoptosis of the olive fruit fly Dacus oleae. At the developmental stage 9A of oogenesis, the actin microfilaments are assembled in numerous ring canals and subcortically support all the nurse cells, as is shown by phalloidin-FITC staining. During the following stages, 9B and 10A, this structural pattern remains the same. The developmental stage 10B is characterized by actin microfilament rearrangement and formation of actin cables that are symmetrically organized around the nurse cell nuclei. At stage 11, when the dumping process begins, these actin cables seem to retain each nurse cell nucleus in the cell center, away from blocking the ring canals. The early stage 12 is characterized by an asynchronous nurse cell nuclear chromatin condensation, while at late stage 12 the actin cables become very thick, as adjacent ones overlap one another and traverse the disorganized apoptotic nurse cell nuclei that already have fragmented DNA, as is demonstrated by acridine orange staining and TUNEL assay. Finally, during stage 13, the apoptotic nuclear remnants are phagocytosed by the neighboring follicle cells. The data presented herein compared to previous reported results in Drosophila [Nezis et al., 2000: Eur J Cell Biol 79:610-620], demonstrate that actin cytoskeleton reorganization during nurse cell apoptosis is a developmentally regulated physiological mechanism, phylogenetically conserved in higher Dipteran.     

Modes of programmed cell death during Ceratitis capitata oogenesis

In the present study, we demonstrate the existence of two distinct apoptotic patterns in nurse cells during Ceratitis capitata oogenesis. One is developmentally regulated and normally occurs during stages 12 and 13, and the other is stage specific and is sporadically observed during stages 7 and 8. The pre-apoptotic manifestation of the first pattern begins at stage 11 and is characterized by the formation of actin bundles. Subsequently, at stages 12 and 13, the nurse cell nuclei exhibit condensed chromatin and contain fragmented DNA, as revealed by TUNEL assay. The apoptotic nurse cell remnants are phagocytosed by the neighboring follicle cells at the end of oogenesis during stages 13 and 14. In the second apoptotic pattern, which occurs sporadically during stages 7 and 8, the nurse cells degenerate and are phagocytosed by the follicular epithelium that contains apoptotic cell bodies. The data presented herein, compared to previous reported results in Drosophila melanogaster and Dacus oleae (Nezis et al., 2000, 2001), strongly suggest that nurse cell apoptosis is a developmentally regulated and phylogenetically conserved mechanism in higher Dipteran. They also suggest that, the sporadic apoptotic pattern consists of a possible protective mechanism throughout oogenesis when damaged or abnormal egg chambers, are eliminated before they reach maturity.     

The Ultracytochemical Localzation of Acid Phosphatase Activity in Wheat During Fertilization

No acid phosphatase activity was observed in the mature embryo sac of wheat (Triticum aestivum) except the chalazal cytoplasm Of the central cell before fertilization. During fertilization, acid phosphataseactivity was observed in the following loci: part of chromatin of the egg nucleus and most of the mitochondria in the egg cytoplasm; the perinuclear spaces of the egg and sperm nuclei at the fusion of the egg and sperm nuclei; the chalazal cytoplasm and some vacuoles of the degenerated synergid; two sperm nuclei within the cytoplasm of female cells; the cell wall of each cell of the embryo sac and that of the nucellar cells surrounding the embryo sac. No acid phosphatase was observed in the two-celled proembryo. Dense enzyme reaction product was localized in the chromatin of the free nuclei at early stage of the endosperm. The characteristic of acid phosphatase distribution during fertilization may be associated with the physiological change of the egg Cell, the reorganization of mitochondria in the egg cell cytoplasm, the degeneration of one of the two synergids, the physiological state of the sperm nuclei and the nuclear membrane fusion of the egg and sperm nuclei.     

小麦受精过程中酸性磷酸酶的超微细胞化学定位

小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ ）受精前成熟胚囊,除胚囊中央细胞的合点端细胞质中有酸性磷酸酶外,其余部位均未发现酸性磷酸酶。受精时期,以下部位存在酸性磷酸酶活性：卵细胞的细胞核内一部分染色质和细胞质中大部分线粒体;精、卵核融合时两核的核周腔内;退化助细胞合点端细胞质和一些液泡内;进入雌性细胞中的两个精核;胚囊各成员细胞的细胞壁及胚囊周围珠心细胞的细胞壁。二细胞原胚中未见有酸性磷酸酶。早期胚乳游离核染色质上有酸性磷酸酶。小麦受精过程酸性磷酸酶的分布特点可能与卵细胞生理状态的变化和细胞质中线粒体的改组、助细胞的退化、精核的生理状态以及精核与卵核的核膜融合等有关。     

Ultrastructural aspects and programmed cell death in the tapetal cells of Lathyrus undulatus Boiss

Programmed cell death (PCD) in the tapetum of Lathyrus undulatus L. was analyzed based on light, fluorescence and electron microscopy to characterize its spatial and temporal occurrence. Development and processes of PCD in secretory tapetal cells of Lathyrus undulatus L. were correlated with the sporogenous cells and pollen grains. At early stages of development the tapetal cells appeared similar to pollen mother cells, structurally. Concurrent with meiosis, tapetum expanded both tangentially and radially as vacuoles increased in size. Tapetal cells most fully developed at young microspore stage. However, tapetum underwent substantial changes in cell organization including nucleus morphology monitored by DAPI. The TUNEL staining confirmed the occurrence of intra-nucleosomal DNA cleavage. In addition to nuclear degeneration which is the first hallmark of PCD other diagnostic features were observed at vacuolated microspore stage intensely; such as chromatin condensation at the periphery of the nucleus, nuclear membrane degeneration, chromatin release to the cytoplasm, vacuole collapse according to tonoplast rupture, shrinkage of the cytoplasm, the increase and enlargement of the endoplasmic reticulum cisternae and disruption of the plasma membrane. After vacuole collapse due to possible release of hydrolytic enzymes the cell components degraded. Tapetal cells completely degenerated at bicellular pollen stage.     

Stage-specific apoptotic patterns during Drosophila oogenesis

In the present study we demonstrate the existence of two apoptotic patterns in Drosophila nurse cells during oogenesis. One is developmentally regulated and normally occurs at stage 12 and the other is stage-specific and is sporadically observed at stages 7 and 8 of abnormally developed follicles. The apoptotic manifestation of the first pattern begins at stage 11 and is marked by a perinuclear rearrangement of the actin cytoskeleton and the development of extensive lobes and engulfments of the nurse cell nuclei located proximal to the oocyte. Consequently, at late stage 12 (12C), half of the nurse cell nuclei exhibit condensed chromatin, while at late stage 13 all the nuclei have fragmented DNA, as it is clearly shown by TUNEL assay. Finally, the apoptotic vesicles that are formed during stage 13, are phagocytosed by the neighboring follicle cells and at stage 14 the nurse cell nuclear remnants can be easily detected within the adjacent follicle cell phagosomes. In the second sporadic apoptotic pattern, all the nurse cell nuclei are highly condensed with fragmented DNA, accompanied by a completely disorganized actin cytoskeleton. When we induced apoptosis in Drosophila follicles through an etoposide and staurosporine in vitro treatment, we observed a similar pattern of stage-specific cell death at stages 7 and 8. These observations suggest a possible protective mechanism throughout Drosophila oogenesis that results in apoptosis of abnormal, damaged or spontaneously mutated follicles before they reach maturity.     

Three distinct stages of apoptotic nuclear condensation revealed by time-lapse imaging, biochemical and electron microscopy analysis of cell-free apoptosis

During apoptotic execution, chromatin undergoes a phase change from a heterogeneous, genetically active network to an inert highly condensed form that is fragmented and packaged into apoptotic bodies. We have previously used a cell-free system to examine the roles of caspases or other proteases in apoptotic chromatin condensation and nuclear disassembly. But so far, the role of DNase activity or ATP hydrolysis in this system has not yet been elucidated. Here, in order to better define the stages of nuclear disassembly in apoptosis, we have characterized the apoptotic condensation using a cell-free system and time-lapse imaging. We demonstrated that the population of nuclei undergoing apoptosis in vitro appears to follow a reproducible program of nuclear condensation, suggesting the existence of an ordered biochemical pathway. This enabled us to define three stages of apoptotic chromatin condensation: stage 1 ring condensation; stage 2 necklace condensation; and stage 3 nuclear collapse/disassembly. Electron microscopy revealed that neither chromatin nor detectable subnuclear structures were present inside the stage 1 ring-condensed structures. DNase activity was not essential for stage 1 ring condensation, which could occur in apoptotic extracts depleted of all detectable DNase activity. However, DNase(s) were required for stage 2 necklace condensation. Finally, we demonstrated that hydrolyzable ATP is required for stage 3 nuclear collapse/disassembly. This requirement for ATP hydrolysis further distinguished stage 2 from stage 3. Together, these experiments provide the first steps towards a systematic biochemical characterization of chromatin condensation during apoptosis.     

CD437, a synthetic retinoid, induces apoptosis in human respiratory epithelial cells via caspase-independent mitochondrial and caspase-8-dependent pathways both up-regulated by JNK signaling pathway

The synthetic retinoid-related molecule CD437-induced apoptosis in human epithelial airway respiratory cells: the 16HBE bronchial cell line and normal nasal epithelial cells. CD437 caused apoptosis in S-phase cells and cell cycle arrest in S phase. Apoptosis was abolished by caspase-8 inhibitor z-IETD-fmk which preserved S-phase cells but was weakly inhibited by others selective caspase-inhibitors, indicating that caspase-8 activation was involved. z-VAD and z-IETD prevented the nuclear envelope fragmentation but did not block the chromatin condensation. The disruption of mitochondrial transmembrane potential was also induced by CD437 treatment. The translocation of Bax to mitochondria was demonstrated, as well as the release of cytochrome c into the cytosol and of apoptosis-inducing factor (AIF) translocated into the nucleus. z-VAD and z-IETD did not inhibit mitochondrial depolarization, Bax translocation or release of cytochrome c and AIF from mitochondria. These results suggest that CD437-induced apoptosis is executed by two converging pathways. AIF release is responsible for chromatin condensation, the first stage of apoptotic cell, via a mitochondrial pathway independent of caspase. But final stage of apoptosis requires the caspase-8-dependent nuclear envelope fragmentation. In addition, using SP600125, JNK inhibitor, we demonstrated that CD437 activates the JNK-MAP kinase signaling pathway upstream to mitochondrial and caspase-8 pathways. Conversely, JNK pathway inhibition, which suppresses S-phase apoptosis, did not prevent cell cycle arrest within S phase, confirming that these processes are triggered by distinct mechanisms.     

三尖杉酯碱诱导HL-60细胞程序性死亡过程中的细胞质和细胞核出泡与染色质凝集

本文利用视频显微影像反差增强技术(VideoEnhancement Contrast,VEC)对三尖杉酯碱诱导的单个HL-60活细胞程序死亡(Apo-ptosis,Apo)全过程进行了观察,结果表明每个Apo细胞在染色质凝集前都要发生细胞核的出泡,而每一个核出泡又都是由相应的质出泡所诱导的,但并不是每个质出泡都能诱导核出泡,质出泡的次数远远高于核出泡,提示核、质出泡可能与染色质凝集有关,并且核、质出泡是程序死亡细胞形成Apo小体所必需的。进一步研究则说明核、质出泡与微丝解聚和重组有关。核、质出泡虽可加速细胞程序死亡过程中的染色质凝集,但并不是程序死亡细胞染色质凝集所必需的,提示HL-60细胞程序死亡过程中的核变化和质变化可能是相对独立的。     

Loss of Acinus inhibits oligonucleosomal DNA fragmentation but not chromatin condensation during apoptosis

Chromatin condensation and oligonucleosomal DNA fragmentation are the nuclear hallmarks of apoptosis. A proteolytic fragment of the apoptotic chromatin condensation inducer in the nucleus (Acinus), which is generated by caspase cleavage, has been implicated in mediating apoptotic chromatin condensation prior to DNA fragmentation. Acinus is also involved in mRNA splicing and a component of the apoptosis and splicing-associated protein (ASAP) complex. To study the role of Acinus for apoptotic nuclear alterations, we generated stable cell lines in which Acinus isoforms were knocked down by inducible and reversible RNA interference. We show that Acinus is not required for nuclear localization and interaction of the other ASAP subunits SAP18 and RNPS1; however, knockdown of Acinus leads to a reduction in cell growth. Most strikingly, down-regulation of Acinus did not inhibit apoptotic chromatin condensation either in intact cells or in a cell-free system. In contrast, although apoptosis proceeds rapidly, analysis of nuclear DNA from apoptotic Acinus knockdown cells shows inhibition of oligonucleosomal DNA fragmentation. Our results therefore suggest that Acinus is not involved in DNA condensation but rather point to a contribution of Acinus in internucleosomal DNA cleavage during programmed cell death.     

Chromatin condensation of ovarian nurse and follicle cells is regulated independently from DNA fragmentation during Drosophila late oogenesis

Programmed cell death constitutes a common fundamental incident occurring during oogenesis in a variety of different organisms. In Drosophila melanogaster, it plays a significant role in the maturation process of the egg chamber. In the present study, we have used an in vitro development system for studying the effects of inducers and inhibitors of programmed cell death during the late stages of oogenesis. Treatment of the developing egg chambers with two widely used inducers of cell death, etoposide and staurosporine, blocks further development and induces chromatin condensation but not DNA fragmentation in nurse and follicle cells, as revealed by propidium iodide staining and terminal transferase-mediated dUTP nick-end labeling assay. Moreover, incubation of the developing egg chambers with the caspase-3 inhibitor Z-DEVD-FMK significantly delays development, prevents DNA fragmentation, but does not affect chromatin condensation. The above results demonstrate, for the first time, that chromatin condensation in Drosophila ovarian nurse and follicle cells is a caspase-3-like independent process and is regulated independently from DNA fragmentation.     

Apoptosis as the mode of uterine epithelial cell death during embryo implantation in mice and rats

An ultrastructural study of mouse and rat embryo implantation sites was undertaken to determine whether the uterine luminal epithelial cells surrounding the blastocyst exhibited the morphologic characteristics of apoptotic or necrotic cell death. In both species the epithelial cells exhibited all of the characteristics of apoptosis, including surface blebbing, shrinkage and fragmentation of the cells, condensation of chromatin, and indentation and fragmentation of nuclei. Cytoplasmic organelles remained morphologically intact, and the cytoplasm maintained normal or increased staining density. Also, the epithelial cells and cell fragments were phagocytosed by the adjacent trophoblast cells. The epithelial cells did not exhibit the characteristics of necrotic cell death, such as swollen cells and mitochondria, damaged surface membranes, and disintegrated cytoplasmic organelles. We conclude that uterine epithelial cells surrounding mouse and rat embryos during implantation undergo apoptotic cell death leading to their phagocytosis by trophoblast cells.     

DNA localization in nuclear fragments of apoptotic ameloblasts using anti-DNA immunoelectron microscopy: Programmed cell death of ameloblasts

Ameloblasts responsible for tooth enamel formation are classified into two different phases: secretion and maturation. At the transition between these secretion and maturation stages, a considerable number of cells die. In this study, we examined the morphology of degenerating ameloblasts by conventional electron microscopy, and DNA cleavage in degenerating ameloblast nuclei by the in situ terminal transferase assay. The results suggest that apoptosis (programmed cell death) in ameloblasts, including DNA ligation is induced at the transitional stage. The nuclear fragments, chromatin condensation and DNA relocation in apoptotic nuclei were examined quantitatively by post-embedding anti-DNA immunogold electron microscopy and the in situ terminal transferase assay combined with electron microscopy. Numerical analysis revealed that immunogold labeling density in the condensed chromatin of apoptotic nuclei was comparable on the average to that in the perinuclear heterochromatin of normal nuclei, and that individual apoptotic nuclear fragments exhibited highly variable gold particle density, from fragments with lower density to that of normal heterochromatin, to fragments with densities twice as high as that of normal heterochromatin. The in situ terminal transferase assay combined with electron microscopy detected DNA ends exposed by ultrathin sectioning as well as DNA cleavage by a putative endonuclease. In conclusion, the state of the DNA, including its ligation and degeneration, changes gradually during chromatin condensation and nuclear fragmentation of apoptosis.     

Linking sister chromatid cohesion and apoptosis: role of Rad21

Rad21 is one of the major cohesin subunits that holds sister chromatids together until anaphase, when proteolytic cleavage by separase, a caspase-like enzyme, allows chromosomal separation. We show that cleavage of human Rad21 (hRad21) also occurs during apoptosis induced by diverse stimuli. Induction of apoptosis in multiple human cell lines results in the early (4 h after insult) generation of 64- and 60-kDa carboxy-terminal hRad21 cleavage products. We biochemically mapped an apoptotic cleavage site at residue Asp-279 (D(279)) of hRad21. This apoptotic cleavage site is distinct from previously described mitotic cleavage sites. hRad21 is a nuclear protein; however, the cleaved 64-kDa carboxy-terminal product is translocated to the cytoplasm early in apoptosis before chromatin condensation and nuclear fragmentation. Overexpression of the 64-kDa cleavage product results in apoptosis in Molt4, MCF-7, and 293T cells, as determined by TUNEL (terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end labeling) and Annexin V staining, assaying of caspase-3 activity, and examination of nuclear morphology. Given the role of hRad21 in chromosome cohesion, the cleaved C-terminal product and its translocation to the cytoplasm may act as a nuclear signal for apoptosis. In summary, we show that cleavage of a cohesion protein and translocation of the C-terminal cleavage product to the cytoplasm are early events in the apoptotic pathway and cause amplification of the cell death signal in a positive-feedback manner.