Bcl-2 cleavages at two adjacent sites by different caspases promote cisplatin-induced apoptosis

The protein encoded by bcl-2 proto-oncogene plays an important role in the mitochondria-mediated apoptotic pathway. Although the general role of Bcl-2 is anti-apoptotic, previous work showed that Bcl-2 fragments cleaved by caspases could promote apoptotic process. We report herein that Bcl-2 protein was cleaved to produce two fragments of around 23 kDa in human hepatocarcinoma BEL-7404 cells or in Bcl-2 overexpressing CHO cells induced by cisplatin. Treating cells with the general caspase inhibitor z-VAD-fmk blocked the induced cleavage of Bcl-2. Mutagenesis analyses showed that Bcl-2 was cleaved by caspases at two adjacent recognition sites in the loop domain （YEWD31↓AGD34↓V）, which could be inhibited by caspase-8 and -3 inhibitors, respectively. Overexpression of the carboxyl terminal 23 kDa fragments increased the sensitivity of CHO cells to cisplatin-induced apoptosis. These results indicate that Bcl-2 can be cleaved into two close fragments by different caspases during cisplatin-induced apoptosis, both of which contribute to the acceleration ofapoptotic process.     

ER stress does not cause upregulation and activation of caspase-2 to initiate apoptosis

A recent report claimed that endoplasmic reticulum (ER) stress activates the ER trans-membrane receptor IRE1α, leading to increased caspase-2 levels via degradation of microRNAs, and consequently induction of apoptosis. This observation casts caspase-2 into a central role in the apoptosis triggered by ER stress. We have used multiple cell types from caspase-2-deficient mice to test this hypothesis but failed to find significant impact of loss of caspase-2 on ER-stress-induced apoptosis. Moreover, we did not observe increased expression of caspase-2 protein in response to ER stress. Our data strongly argue against a critical role for caspase-2 in ER-stress-induced apoptosis.     

Reduction of calcium release from the endoplasmic reticulum could only provide partial neuroprotection against beta-amyloid peptide toxicity

Beta-amyloid (Abeta) peptide has been suggested to play important roles in the pathogenesis of Alzheimer's disease (AD). Abeta peptide neurotoxicity was shown to induce disturbance of cellular calcium homeostasis. However, whether modulation of calcium release from the endoplasmic reticulum (ER) can protect neurons from Abeta toxicity is not clearly defined. In the present study, Abeta peptide-triggered ER calcium release in primary cortical neurons in culture is modulated by Xestospongin C, 2-aminoethoxydiphenyl borate or FK506. Our results showed that reduction of ER calcium release can partially attenuate Abeta peptide neurotoxicity evaluated by LDH release, caspase-3 activity and quantification of apoptotic cells. While stress signals associated with perturbations of ER functions such as up-regulation of GRP78 was significantly attenuated, other signaling machinery such as activation of caspase-7 transmitting death signals from ER to other organelles could not be altered. We further provide evidence that molecular signaling in mitochondria play also a significant role in determining neuronal apoptosis because Abeta peptide-triggered activation of caspase-9 was not significantly reduced by attenuating ER calcium release. Our results suggest that neuroprotective strategies aiming at reducing Abeta toxicity should include molecular targets linked to ER perturbations associated with ER calcium release as well as mitochondrial stress.     

Detrimental Type I Interferon Signaling Dominates Protective AIM2 Inflammasome Responses during Francisella novicida Infection

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Bcl-2-regulated apoptosis and cytochrome c release can occur independently of both caspase-2 and caspase-9

Apoptosis in response to developmental cues and stress stimuli is mediated by caspases that are regulated by the Bcl-2 protein family. Although caspases 2 and 9 have each been proposed as the apical caspase in that pathway, neither is indispensable for the apoptosis of leukocytes or fibroblasts. To investigate whether these caspases share a redundant role in apoptosis initiation, we generated caspase-2(-/-)9(-/-) mice. Their overt phenotype, embryonic brain malformation and perinatal lethality mirrored that of caspase-9(-/-) mice but were not exacerbated. Analysis of adult mice reconstituted with caspase-2(-/-)9(-/-) hematopoietic cells revealed that the absence of both caspases did not influence hematopoietic development. Furthermore, lymphocytes and fibroblasts lacking both remained sensitive to diverse apoptotic stimuli. Dying caspase-2(-/-)9(-/-) lymphocytes displayed multiple hallmarks of caspase-dependent apoptosis, including the release of cytochrome c from mitochondria, and their demise was antagonized by several caspase inhibitors. These findings suggest that caspases other than caspases 2 and 9 can promote cytochrome c release and initiate Bcl-2-regulated apoptosis.     

Okadaic acid stimulates caspase-like activities and induces apoptosis of cultured rat mesangial cells

Glomerular mesangial cells play an important role in the development of glomerulosclerosis. Mesangial cell apoptosis has been shown to be involved in different stages of development of glomerulonephritis. The aim of the present study was to evaluate the effect of inhibition of serine/threonine phosphatases by okadaic acid, a shell fish toxin, on rat mesangial cell apoptosis and to examine the molecular mechanisms particularly the role of caspases. Okadaic acid significantly induced mesangial cell apoptosis, as measured by an increase in cytoplasmic nucleosome-associated DNA fragmentation. The induction of apoptosis was dependent on protein synthesis, because cyclohexamide, a protein synthesis inhibitor, blocked okadaic acid-induced apoptosis. In addition, okadaic acid stimulated caspase activities (as measured by caspase substrate peptide hydrolysis) in cultured rat mesangial cells at different time points. After 12 h treatment, okadaic acid caused a modest increase in caspase-8 (IETD-pNAse)(159.3 ± 6.7%) activity, while after 18 h treatment, okadaic acid caused a significant increase in caspase-3 (DEVD-pNAse)(906 ± 245%) activity. Okadaic acid-stimulated caspase-3 activity was inhibited by Z-IETD-FMK (caspase-8 inhibitor) suggesting that the caspase-3 activity is downstream of caspase-8 activity. Both caspase-3 and caspase-8 inhibitors blocked okadaic acid-stimulated apoptosis. These data suggest that inhibition of protein phosphatases by okadaic acid induces apoptosis in rat mesangial cells by activating caspase-3- and -8-like activities and that caspase-3-like activity is downstream of caspase-8-like activity.     

NF-kB 拮抗剂PDTC 对HepG2 细胞的抑制及对caspase-3 表达的影响

目的:研究NF-kB拮抗剂PDTC诱导人肝癌HepG2细胞凋亡及其对凋亡相关基因caspase-3表达的影响,初步探讨其诱导凋亡的可能机制。方法:以不同浓度的PDTC处理人肝癌HepG2细胞,利用MTT法检测对人肝癌HepG2细胞凋亡的影响;利用RT-PCR和Western-blot检测caspase-3mRNA和蛋白的表达。结果:不同浓度PDTC作用人肝癌HepG2细胞不同时间后,能够显著抑制HepG2细胞的生长增殖,存在剂量和时间依赖性(P<0.05);PDTC能够上调HepG2细胞中caspase-3mRNA和蛋白的表达。结论:NF-kB拮抗剂PDTC对人肝癌HepG2细胞产生显著抑制,并能上调HepG2细胞中caspase-3mRNA和蛋白的表达。     

NF-kB拮抗剂PDTC对HepG2细胞的抑制及对caspase-3表达的影响

目的：研究NF-kB拮抗剂PDTC诱导人肝癌HepG2细胞凋亡及其对凋亡相关基因caspase-3表达的影响,初步探讨其诱导凋亡的可能机制。方法：以不同浓度的PDTC处理人肝癌HepG2细胞,利用MTT法检测对人肝癌HepG2细胞凋亡的影响;利用RT-PCR和Western-blot检测caspase-3mRNA和蛋白的表达。结果：不同浓度PDTC作用人肝癌HepG2细胞不同时间后,能够显著抑制HepG2细胞的生长增殖,存在剂量和时间依赖性（P〈0.05）;PDTC能够上调HepG2细胞中caspase-3mRNA和蛋白的表达。结论：NF-kB拮抗剂PDTC对人肝癌HepG2细胞产生显著抑制,并能上调HepG2细胞中caspase-3mRNA和蛋白的表达。     

Teratogen-induced activation of caspase-6 and caspase-7 in early postimplantation mouse embryos

BACKGROUND: Previous work has shown that teratogens such as hyperthermia (HS), 4-hydroperoxycyclophosphamide (4CP), and staurosporine (ST) induce cell death in day 9 mouse embryos by activating the mitochondrial apoptotic pathway. Key to the activation of this pathway is the activation of a caspase cascade involving the cleavage-induced activation of an initiator procaspase, caspase-9, and the downstream effector procaspase, caspase-3. For example, procaspase-3, an inactive proenzyme of 32 kDa is cleaved by activated caspase-9 to generate a large subunit of approximately 17 kDa and a small subunit of approximately 10 kDa. In turn, caspase-3 is known to target a variety of cellular proteins for proteolytic cleavage as part of the process by which dying cells are eliminated. Previous work has also shown that neuroepithelial cells are sensitive to teratogen-induced activation of this pathway and subsequent cell death whereas cells of the heart are resistant. Although caspase-3 is a key effector caspase activated by teratogens, two other effector caspases, caspase-6 and caspase-7, are known; however, their role in teratogen-induced cell death is unknown. METHODS: Because cleavage-induced generation of specific subunits is the most specific assay for activation of caspases, we have used antibodies that recognize the procaspase and one of its active subunits and a Western blot approach to assess the activation of caspase-6 and caspase-7 in day 9 mouse embryos (or heads, hearts and trunks isolated from whole embryos) exposed to HS, 4CP, and ST. To probe the relationship between teratogen-induced activation of caspase-9/caspase-3 and the activation of caspase-6/caspase-7, we used a mitochondrial-free embryo lysate with or without the addition of cytochrome c, recombinant active caspase-3, or recombinant active caspase-9. RESULTS: Western blot analyses show that these three teratogens, HS, 4CP, and ST, induce the activation of procaspase-6 (appearance of the 13 kDa subunit, p13) and caspase-7 (appearance of the 19 kDa subunit, p19) in day 9 mouse embryos. In vitro studies showed that both caspase-6 and caspase-7 could be activated by the addition of cytochrome c to a lysate prepared from untreated embryos. In addition, caspase-6 could be activated by the addition of either recombinant caspase-3 or caspase-9 to a lysate prepared from untreated embryos. In contrast, caspase-7 could be activated by addition of recombinant caspase-3 but only minimally by recombinant caspase-9. Like caspase-9/caspase-3, caspase-6 and caspase-7 were not activated in hearts isolated from embryos exposed to these three teratogens. CONCLUSIONS: HS, 4CP and ST induce the cleavage-dependent activation of caspase-6 and caspase-7 in day 9 mouse embryos. Results using DEVD-CHO, a caspase-3 inhibitor, suggest that teratogen-induced activation of caspase-6 is mediated by caspase-3. In addition, our data suggest that caspase-7 is activated primarily by caspase-3; however, we cannot rule out the possibility that this caspase is also activated by caspase-9. Finally, we also show that teratogen-induced activation of caspase-6 and caspase-7 are blocked in the heart, a tissue resistant to teratogen-induced cell death.     

Non-canonical Caspase-1 Signaling Drives RIP2-Dependent and TNF-α-Mediated Inflammation In Vivo

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Heat Shock Stress Induces Cleavage and Activation of PAK2 in Apoptotic Cells

Heat shock induces a stress response in mammalian cells and can also lead to apoptotic cell death. Here we report that a 36-kDa myelin basic protein (MBP) kinase detected by an in-gel kinase assay can be drastically activated in several cell types by heat shock. Immunoblot analysis revealed that this 36-kDa MBP kinase can be recognized by an antibody against the C-terminal region of a family of p21^Cdc42/Rac-activated kinases (PAKs). By using this antibody and a PAK2-specific antibody against the N-terminal region of PAK2 as tools, we further demonstrated that heat shock can induce cleavage of PAK2 to generate a 36-kDa C-terminal catalytic fragment in mouse Balb/c 3T3 and human Hep 3B cells. The kinetic profile of appearance of the 36-kDa C-terminal catalytic fragment of PAK2 matched exactly with the activation of the 36-kDa MBP kinase in these cells induced by heat shock. In addition, the heat shock-induced cleavage and activation of PAK2 was found to be closely associated with both DNA fragmentation and activation of an ICE/CED-3 family cysteine protease termed caspase-3 in heat shock-treated Hep 3B cells. Moreover, blockage of the activation of caspase-3 by pretreating the cells with two specific tetrapeptidic inhibitors of caspases (Ac-DEVD-cho and Ac-YVAD-cmk) could substantially diminish the extent of heat shock-induced cleavage/activation of PAK2. Overall, our results point out that PAK2 is cleaved and activated during the heat shock-induced apoptotic cell death process and suggest that caspase-3 is involved in this process.     

Caspase deficiency alters the murine gut microbiome

Caspases are aspartate-specific cysteine proteases that have an essential role in apoptosis and inflammation, and contribute to the maintenance of homeostasis in the intestine. These facts, together with the knowledge that caspases are implicated in host-microbe crosstalk, prompted us to investigate the effect of caspase (Casp)1, -3 and -7 deficiency on the composition of the murine gut microbiota. We observed significant changes in the abundance of the Firmicutes and Bacteroidetes phyla, in particular the Lachnospiraceae, Porphyromonodaceae and Prevotellacea families, when comparing Casp-1, -7 and -3 knockout mice with wild-type mice. Our data point toward an intricate relationship between these caspases and the composition of the murine gut microflora.     

Spatio-temporal activation of caspase revealed by indicator that is insensitive to environmental effects

Indicator molecules for caspase-3 activation have been reported that use fluorescence resonance energy transfer (FRET) between an enhanced cyan fluorescent protein (the donor) and enhanced yellow fluorescent protein (EYFP; the acceptor). Because EYFP is highly sensitive to proton (H+) and chloride ion (Cl-) levels, which can change during apoptosis, this indicator's ability to trace the precise dynamics of caspase activation is limited, especially in vivo. Here, we generated an H+- and Cl--insensitive indicator for caspase activation, SCAT, in which EYFP was replaced with Venus, and monitored the spatio-temporal activation of caspases in living cells. Caspase-3 activation was initiated first in the cytosol and then in the nucleus, and rapidly reached maximum activation in 10 min or less. Furthermore, the nuclear activation of caspase-3 preceded the nuclear apoptotic morphological changes. In contrast, the completion of caspase-9 activation took much longer and its activation was attenuated in the nucleus. However, the time between the initiation of caspase-9 activation and the morphological changes was quite similar to that seen for caspase-3, indicating the activation of both caspases occurred essentially simultaneously during the initiation of apoptosis.     

刺五加注射液对豚鼠庆大霉素耳毒性拮抗作用的实验研究

目的：探讨中药刺五加注射液（ASS）对庆大霉素（GM）耳毒性作用的影响及其机制。方法：豚鼠随机分成对照组、GM组、ASS4-GM组和ASS组。采用听性脑干反应（ABR）、透射电镜技术（TEM）、Western blot方法观察用药前后豚鼠的ABR阈值、形态学变化及caspase-3的表达情况。结果：用药后GM组ABR阈值明显升高;ASS组ABR阈值与对照组相比无显著性差异,与GM组和ASS4-GM组相比明显降低。透射电镜观察用药后GM组毛细胞损伤严重,出现了凋亡的形态学特征,而ASS4-GM组损伤较轻。Western blot结果表明用药后GM组豚鼠caspase-3表达明显增加;ASS4-GM组caspase-3的表达稍有升高。结论：刺五加注射液对庆大霉素耳毒性具有拮抗作用,其机制可能是通过抑制caspase-3的表达来实现的。     

凋亡体与细胞凋亡

由细胞色素C（Cytochrome c,Cyt c）、ATP/dATP、凋亡酶激活因子-1（apoptotic protease activating factor-1,Apaf-1）以及procaspase-9（caspase-9的前体）构成的约700 kDa、具有很强的caspase酶激活活性的大分子蛋白复合物——凋亡体（apoptosome）,在哺乳动物线粒体凋亡途径和胚胎发育中至关重要。描述了凋亡体上各因子的结构、功能及其相互关系,线粒体介导的凋亡通路中凋亡体的形成及其调控。     

Caspase-2 is an initiator caspase responsible for pore-forming toxin-mediated apoptosis

Bacterial pathogens modulate host cell apoptosis to establish a successful infection. Pore-forming toxins (PFTs) secreted by pathogenic bacteria are major virulence factors and have been shown to induce various forms of cell death in infected cells. Here we demonstrate that the highly conserved caspase-2 is required for PFT-mediated apoptosis. Despite being the second mammalian caspase to be identified, the role of caspase-2 during apoptosis remains enigmatic. We show that caspase-2 functions as an initiator caspase during Staphylococcus aureus α-toxin- and Aeromonas aerolysin-mediated apoptosis in epithelial cells. Downregulation of caspase-2 leads to a strong inhibition of PFT-mediated apoptosis. Activation of caspase-2 is PIDDosome-independent, and endogenous caspase-2 is recruited to a high-molecular-weight complex in α-toxin-treated cells. Interestingly, prevention of PFT-induced potassium efflux inhibits the formation of caspase-2 complex, leading to its inactivation, thus resisting apoptosis. These results revealed a thus far unknown, obligatory role for caspase-2 as an initiator caspase during PFT-mediated apoptosis.     

Chondroptosis: An immunohistochemical study of apoptosis and Golgi complex in chondrocytes from human osteoarthritic cartilage

The Golgi complex is thought to play an important role in the apoptotic process of osteoarthritic (OA) chondrocytes. However, the exact relationship between modifications of the Golgi complex and apoptosis in human OA cartilage requires to be established. We compared the patterns and immunolabeling intensities for anti-Golgi 58 K protein with apoptosis markers such as TUNEL and caspase-2L in OA cartilage removed from patients during knee total replacement surgery. We observed important modifications in labeling of the Golgi 58 K protein in OA chondrocytes compared with normal cell. Immunohistochemical analysis revealed co-localization between 58 K protein and caspase-2L, suggesting that this enzyme was localized in Golgi complex of OA chondrocytes. In addition, these cells labeled positive with the TUNEL technique, but in different proportions to caspase-2L. Our results support the concept, previously reported, that apoptosis in OA cartilage (chondroptosis) might be a variant of the classical apoptosis.     

羊栖菜多糖通过激活Caspase途径诱导Lovo细胞凋亡

研究了羊栖菜多糖（Sargassum Fusiforme Polysaccharides,SFPS）诱导人大肠癌lovo细胞凋亡及凋亡过程中caspase-3、caspase-8、caspase-9的活性变化。MTT法检测SFPS对lovo细胞增殖的抑制率;通过电镜、琼脂糖凝胶电泳、流式细胞术鉴定细胞凋亡;应用Western印迹法测定caspase-3酶原和caspase-9的变化;RToPCR检测caspase-3 mRNA表达;caspase-3,caspase-8、caspase-9活性检测试剂盒观察caspase-3、caspase-8、caspase-9的活性改变。结果显示,SFPS对lovo细胞增殖有显著抑制作用,经形态变化、DNA条带和流式细胞分析,可见明显的细胞凋亡特征。SFPS处理lovo细胞后,发现caspase-3酶原蛋白表达降低,caspase-3 mRNA高表达,并具有剂量和时间的依赖性。而在检测蛋白中,也发现caspase-9被激活进而形成具有活性的片段。另外,caspase的活性检测也进一步发现caspase-3、caspase-9的活性逐步增高。实验结果提示SFPS在体外诱导lovo胞凋亡,这可能是SFPS抑制肿瘤增殖的机制之一,并且是通过激活启动caspase-9,进而激活下游效应caspase-3的级联反应来实现的。     

Caspase-2: the orphan caspase

Despite an abundance of literature on the role of caspase-2 in apoptosis, there exists much controversy about this protease making it difficult to place caspase-2 correctly in the apoptotic cascade, and hence its role in apoptosis remains unclear. The identification of the PIDDosome as a signaling platform for caspase-2 activation prompted intense investigation into the true role of this orphan caspase. What has emerged is the idea that caspase-2 may not be mandatory for apoptosis and that activation of this caspase in response to some forms of stress has other effects on the cell such as regulation of cell cycle progression. This idea is particularly relevent to the discovery that caspase-2 may act as a tumor suppressor. Here, we discuss the proposed mechanisms through which caspase-2 signals, in particular those involving PIDD, and their impact on cellular fate.