Induction of apoptosis in densovirus infected Aedes aegypti mosquitoes

The mechanism of death in densovirus infected mosquitoes remains unexplored. This study investigated the cellular consequences of densovirus infection in Aedes aegypti mosquitoes after a second generation challenge with a densovirus isolated from adult Aedes albopictus mosquitoes in Thailand (AThDNV). Specimens were analyzed by TUNEL assay, fluorescent in situ hybridization (FISH) and a calorimic assay to detect activation of caspase 3-like activity. After challenge, moribund mosquitoes showed considerable evidence of TUNEL positive cells. The caspase 3-like activity assay showed that the presence of TUNEL positive cells was associated with increased levels of activated caspase 3-like activity in AThDNV infected mosquitoes.     

产碱性蛋白酶芽孢杆菌的鉴定

通过测量比较在碱性蛋白平板上产生的蛋白水解圈直径,从土壤中筛选到一株高产蛋白酶菌株Bacillus sp.HFBL0079,根据生理生化特性、16S rDNA序列,鉴定为B.amyloliquefaciens。其最适培养温度为35°C-37°C,最适生长pH 8.0,在特定培养条件下16 h达到稳定期,菌体生长和蛋白酶合成同步进行。以大豆分离蛋白为氮源时发酵液具有最高酶活。发酵液在pH 10时具有最高酶活,表明为碱性蛋白酶。该菌株产生的碱性蛋白酶可水解多种天然蛋白质,对胶原蛋白水解度高于其他蛋白质,对羽毛角蛋白也有一定水解能力,提示该酶具有一定新颖性。     

Structure determination of lipopeptides from Mycobacterium avium subspecies paratuberculosis and identification of antigenic lipopeptide probes

Mycobacterium avium subspecies paratuberculosis (MAP) causes chronic illnesses mostly in ruminants. MAP infection of intestinal tissue triggers a fatal inflammatory disorder, Johne's disease (paratuberculosis). Development of fast and reliable diagnostic methods for Johne's disease in clinically suspected ruminants requires the discovery of MAP-specific antigens that induce immune responses. Despite a longtime interest in finding such antigens that can detect serum antibody responses with high sensitivity, the antigens currently used for a diagnosis of the MAP infections are the crude extracts from the whole cell. We performed the serum antibody response assay-guided purification of the ethanol extract from MAP isolated from an infected cow. With the results of extensive fractionations and in vitro assays, we identified that arachidyl-d-Phe-N-Me-l-Val-l-Ile-l-Phe-l-Ala-OH (named lipopeptide IIß, 3) exhibited the highest antibody binding activity in serum of a MAP-infected cattle compared with the other lipopeptides isolated from MAP. The absolute chemistry of 3 was determined unequivocally via our high-performance liquid chromatography (HPLC)–amino acid databases. α-Amino lipopeptide IIß and its fluorescent probes were synthesized and evaluated in serum antibody binding activity assays. Lipopeptide IIß-(2S)-NH₂ (9) and its dansyl and fluorescein isothiocyanate (FITC) probes (10 and 11) exhibited antibody-mediated binding activity; thus, such MAP-specific lipopeptide probes can be potential biomarkers for the development of rapid and accurate diagnosis of Johne's disease.     

The deubiquitinase emperor's thumb is a regulator of apoptosis in Drosophila

We have characterized the gene emperor's thumb (et) and showed that it is required for the regulation of apoptosis in Drosophila. Loss-of-function mutations in et result in apoptosis associated with a decrease in the concentration of DIAP1. Overexpression of one form of et inhibits apoptosis, consistent with et having an anti-apoptotic function; however, overexpression of a second form of et induces apoptosis, indicating that the two forms of et may have competing functions. et encodes a protein deubiquitinase, suggesting it regulates apoptosis by controlling the stability of apoptotic regulatory proteins.     

Regulation of apoptosis of rbf mutant cells during Drosophila development

Inactivation of the retinoblastoma gene Rb leads to defects in cell proliferation, differentiation, or apoptosis, depending on specific cell or tissue types. To gain insights into the genes that can modulate the consequences of Rb inactivation, we carried out a genetic screen in Drosophila to identify mutations that affected apoptosis induced by inactivation of the Retinoblastoma-family protein (rbf) and identified a mutation that blocked apoptosis induced by rbf. We found this mutation to be a new allele of head involution defective (hid) and showed that hid expression is deregulated in rbf mutant cells in larval imaginal discs. We identified an enhancer that regulates hid expression in response to developmental cues as well as to radiation and demonstrated that this hid enhancer is directly repressed by RBF through an E2F binding site. These observations indicate that apoptosis of rbf mutant cells is mediated by an upregulation of hid. Finally, we showed that bantam, a miRNA that regulates hid translation, is expressed in the interommatidial cells in the larval eye discs and modulates the survival of rbf mutant cells.     

Suppression of histone deacetylase 3 (HDAC3) enhances apoptosis induced by paclitaxel in human maxillary cancer cells in vitro and in vivo

Inclusion of chemotherapeutic drugs in treatment of patients with newly diagnosed head and neck cancer has improved response rates and prolonged median survival. Nevertheless, most patients with advanced head and neck cancer are destined to relapse and to develop resistance to initially used drugs such as paclitaxel. Consequently, it has been more important in cancer therapy to determine the molecular mechanisms that are related to cell-killing effects of anti-cancer agents or cancer resistance against them. Consequently, we examined whether abrogation of histone deacetylase 3 (HDAC3) expression by anti-sense oligonucleotides (ASOs) potentiates the efficacy of paclitaxel in human maxillary cancer IMC-3 cells. Here, we showed that paclitaxel-induced apoptosis was enhanced significantly by addition of ASOs for HDAC3 in cultured cells. Furthermore, paclitaxel-induced apoptosis in IMC-3 tumors transplanted in nude mice was enhanced significantly by administration of ASOs for HDAC3, thereby suppressing tumor growth. We provide new evidence that HDAC3 is a novel molecular target whose inactivation can potentiate the efficacy of anti-cancer drugs disrupting microtubules such as paclitaxel.     

Production of keratinolytic proteases through bioconversion of feather meal by the Amazonian bacterium Bacillus sp. P45

Extracellular keratinase production by the feather-degrading Amazonian isolate Bacillus sp. P45 was evaluated with various growth substrates. Higher enzyme production occurred with feather meal (FM) in comparison to casein, gelatin, and cheese whey, suggesting the specificity of this strain for the utilization of keratinous substrates. Supplementation of FM medium with carbohydrates reduced enzyme production, probably due to catabolite repression. Increased keratinase yield was achieved when NH₄Cl was added to FM medium. The effects of FM and NH₄Cl concentrations on enzyme production were investigated using a 2² central composite design. Feather meal was the most significant parameter, while NH₄Cl concentrations resulted in slight differences in enzyme yield. In the range studied, optimal concentrations of FM and NH₄Cl were 43-50 g l⁻¹ and 1.8-8.6 g l⁻¹, respectively, resulting in an effective low-cost medium for the production of keratinolytic protease. Crude keratinase showed maximum activity at 50 °C and pH 7.0, and was strongly inhibited by EDTA, indicating the importance of metal ions for activity/stability. The crude keratinase from mesophilic Bacillus sp. P45 could potentially be used in the bioconversion of recalcitrant keratinous wastes through an environmentally friendly and energy-saving process, producing protein hydrolysates with commercial value for utilization as animal feed and fertilizers.     

Leishmania infection inhibits cycloheximide-induced macrophage apoptosis in a strain-dependent manner

Activation of apoptosis is one of the most ancient mechanisms to eliminate intracellular infections; the capacity to subvert this programed cell death provides an adaptive advantage to pathogens that persist in an intracellular environment. Leishmania species are obligate intracellular parasites that primarily reside within host macrophages. We demonstrate here that Leishmania infection protects macrophages from cycloheximide-induced apoptosis in a species and strain specific manner. Our data further reveal that Leishmania phosphoglycans and direct contact between parasites and host cells are required for the inhibitory phenotype.     

Puerariae radix isoflavones and their metabolites inhibit growth and induce apoptosis in breast cancer cells

Puerariae radix (PR) is a popular natural herb and a traditional food in Asia, which has antithrombotic and anti-allergic properties and stimulates estrogenic activity. In the present study, we investigated the effects of the PR isoflavones puerarin, daidzein, and genistein on the growth of breast cancer cells. Our data revealed that after treatment with PR isoflavones, a dose-dependent inhibition of cell growth occurred in HS578T, MDA-MB-231, and MCF-7 cell lines. Results from cell cycle distribution and apoptosis assays revealed that PR isoflavones induced cell apoptosis through a caspase-3-dependent pathway and mediated cell cycle arrest in the G2/M phase. Furthermore, we observed that the serum metabolites of PR (daidzein sulfates/glucuronides) inhibited proliferation of the breast cancer cells at a 50% cell growth inhibition (GI₅₀) concentration of 2.35 μM. These results indicate that the daidzein constituent of PR can be metabolized to daidzein sulfates or daidzein glucuronides that exhibit anticancer activities. The protein expression levels of the active forms of caspase-9 and Bax in breast cancer cells were significantly increased by treatment with PR metabolites. These metabolites also increased the protein expression levels of p53 and p21. We therefore suggest that PR may act as a chemopreventive and/or chemotherapeutic agent against breast cancer by reducing cell viability and inducing apoptosis.     

Induction of apoptosis by protein kinase C pseudosubstrate lipopeptides in several human cells

Intracellular enzymes or receptors are interesting targets for thepharmacomodulation of cellular metabolism. We have previously shown thatmodification of relatively long peptides by a palmitoyl-lysine residue couldfacilitate their delivery into the cytoplasm of living cells. Severalpeptides containing pseudosubstrate sequences of protein kinase C (PKC) havebeen evaluated for their ability to modulate phosphorylation of modelsubstrate, neuronal morphology or tumor necrosis factor secretion. In thiswork we have evaluated the effect of palmitoyl-modified PKC-pseudosubstratepeptides on induction of apoptosis. We have established that these peptidesare able to induce apoptosis in different human cell types (primaryfibroblasts, T- and B-lymphocyte cell lines) as assessed by (terminal deoxynucleotidyl transferase dUTP nick-end labelling) and DNAfragmentation. In contrast, control peptides (non-lipidicPKC-pseudosubstrate peptides and irrelevant lipopeptides) had no or littleeffect on programmed cell death. This work highlights the pharmacologicalinterest of lipopeptides and argues in favor of the potential role of PKC(s)in the cell death machinery.     

Induction of apoptosis by protein kinase C pseudosubstrate lipopeptides in several human cells

Summary Intracellular enzymes or receptors are interesting targets for the pharmacomodulation of cellular metabolism. We have previously shown that modification of relatively long peptides by a palmitoyl-lysine residue could facilitate their delivery into the cytoplasm of living cells. Several peptides containing pseudosubstrate sequences of protein kinase C (PKC) have been evaluated for their ability to modulate phosphorylation of model substrate, neuronal morphology or tumor necrosis factor secretion. In this work we have evaluated the effect of palmitoyl-modified PKC-pseudosubstrate peptides on induction of apoptosis. We have established that these peptides are able to induce apoptosis in different human cell types (primary fibroblasts, T- and B-lymphocyte cell lines) as assessed by (terminal deoxynucleotidyl transferase dUTP nick-end labelling) and DNA fragmentation. In contrast, control peptides (non-lipidic PKC-pseudosubstrate peptides and irrelevant lipopeptides) had no or little effect on programmed cell death. This work highlights the pharmacological interest of lipopeptides and argues in favor of the potential role of PKC(s) in the cell death machinery. K. Thiam and E. Loing have contributed equally to this work.     

Quantitative analysis of the mechanism of DNA binding by Bacillus DnaA protein

DnaA protein has the sole responsibility of initiating a new round of DNA replication in prokaryotic organisms. It recognizes the origin of DNA replication, and initiates chromosomal DNA replication in the bacterial genome. In Gram-negative Escherichia coli, a large number of DnaA molecules bind to specific DNA sequences (known as DnaA boxes) in the origin of DNA replication, oriC, leading to the activation of the origin. We have cloned, expressed, and purified full-length DnaA protein in large quantity from Gram-positive pathogen Bacillus anthracis (DnaA_BA). DnaA_BA was a highly soluble monomeric protein making it amenable to quantitative analysis of its origin recognition mechanisms. DnaA_BA bound DnaA boxes with widely divergent affinities in sequence and ATP-dependent manner. In the presence of ATP, the K_D ranged from 3.8 × 10⁻⁸ M for a specific DnaA box sequence to 4.1 × 10⁻⁷ M for a non-specific DNA sequence and decreased significantly in the presence of ADP. Thermodynamic analyses of temperature and salt dependence of DNA binding indicated that hydrophobic (entropic) and ionic bonds contributed to the DnaA_BA·DNA complex formation. DnaA_BA had a DNA-dependent ATPase activity. DNA sequences acted as positive effectors and modulated the rate (V_max) of ATP hydrolysis without any significant change in ATP binding affinity.     

The zinc finger homeodomain-2 gene of Drosophila controls Notch targets and regulates apoptosis in the tarsal segments

The development of the Drosophila leg is a good model to study processes of pattern formation, cell death and segmentation. Such processes require the coordinate activity of different genes and signaling pathways that progressively subdivide the leg territory into smaller domains. One of the main pathways needed for leg development is the Notch pathway, required for determining the proximo-distal axis of the leg and for the formation of the joints that separate different leg segments. The mechanisms required to coordinate such events are largely unknown. We describe here that the zinc finger homeodomain-2 (zfh-2) gene is highly expressed in cells that will form the leg joints and needed to establish a correct size and pattern in the distal leg. There is an early requirement of zfh-2 to establish the correct proximo-distal axis, but zfh-2 is also needed at late third instar to form the joint between the fourth and fifth tarsal segments. The expression of zfh-2 requires Notch activity but zfh-2 is necessary, in turn, to activate Notch targets such as Enhancer of split and big brain. zfh-2 is controlled by the Drosophila activator protein 2 gene and regulates the late expression of tarsal-less. In the absence of zfh-2 many cells ectopically express the pro-apoptotic gene head involution defective, activate caspase-3 and are positive for acridine orange, indicating they undergo apoptosis. Our results demonstrate the key role of zfh-2 in the control of cell death and Notch signaling during leg development.     

Induction of hsp70, alterations in oxidative stress markers and apoptosis against dichlorvos exposure in transgenic Drosophila melanogaster: Modulation by reactive oxygen species

We examined a hypothesis that reactive oxygen species (ROS) generated by organophosphate compound dichlorvos modulates Hsp70 expression and anti-oxidant defense enzymes and acts as a signaling molecule for apoptosis in the exposed organism. Dichlorvos (0.015–15.0 ppb) without or with inhibitors of Hsp70, superoxide dismutase (SOD) and catalase (CAT) were fed to the third instar larvae of Drosophila melanogaster transgenic for hsp70 (hsp70-lacZ) Bg⁹ to examine Hsp70 expression, oxidative stress and apoptotic markers. A concentration- and time-dependent significant increase in ROS generation accompanied by a significant upregulation of Hsp70 preceded changes in antioxidant defense enzyme activities and contents of glutathione, malondialdehyde and protein carbonyl in the treated organisms. An inhibitory effect on SOD and CAT activities significantly upregulated ROS generation and Hsp70 expression in the exposed organism while inhibition of Hsp70 significantly affected oxidative stress markers induced by the test chemical. A comparison made among ROS generation, Hsp70 expression and apoptotic markers showed that ROS generation is positively correlated with Hsp70 expression and apoptotic cell death end points indicating involvement of ROS in the overall adversity caused by the test chemical to the organism. The study suggests that (a) Hsp70 and anti-oxidant enzymes work together for cellular defense against xenobiotic hazard in D. melanogaster and (b) free radicals may modulate Hsp70 expression and apoptosis in the exposed organism.     

BmICE-2 is a novel pro-apoptotic caspase involved in apoptosis in the silkworm, Bombyx mori

In this study we identified a potential pro-apoptotic caspase gene, Bombyx mori(B. mori)ICE-2 (BmICE-2) which encoded a polypeptide of 284 amino acid residues, including a ¹⁶⁹QACRG¹⁷³ sequence which surrounded the catalytic site and contained a p20 and a p10 domain. BmICE-2 expressed in Escherichia coli (E. coli) exhibited high proteolytic activity for the synthetic human initiator caspase-9 substrates Ac-LEHD-pNA, but little activity towards the effector caspase-3 substrates Ac-DEVD-pNA. When BmICE-2 was transiently expressed in BmN-SWU1 silkworm B. mori cells, we found that the high proteolytic activity for Ac-LEHD-pNA triggered caspase-3-like protease activity resulting in spontaneous cleavage and apoptosis in these cells. This effect was not replicated in Spodoptera frugiperda 9 cells. In addition, spontaneous cleavage of endogenous BmICE-2 in BmN-SWU1 cells could be induced by actinomycin D. These results suggest that BmICE-2 may be a novel pro-apoptotic gene with caspase-9 activity which is involved apoptotic processes in BmN-SWU1 silkworm B. mori cells.     

Phospholipase D mechanism using Streptomyces PLD

Phospholipase D (PLD) plays various roles in important biological processes and physiological functions, including cell signaling. Streptomyces PLDs show significant sequence similarity and belong to the PLD superfamily containing two catalytic HKD motifs. These PLDs have conserved catalytic regions and are among the smallest PLD enzymes. Therefore, Streptomyces PLDs are thought to be suitable models for studying the reaction mechanism among PLDs from other sources. Furthermore, Streptomyces PLDs present advantages related to their broad substrate specificity and ease of enzyme preparation. Moreover, the tertiary structure of PLD has been elucidated only for PLD from Streptomyces sp. PMF. This article presents a review of recently reported studies of the mechanism of the catalytic reaction, substrate recognition, substrate specificity and stability of Streptomyces PLD using various protein engineering methods and surface plasmon resonance analysis.     

A methylene chloride fraction of Saururus chinensis induces apoptosis through the activation of caspase-3 in prostate and breast cancer cells

The aerial parts of Saururus chinensis (SC) have been used for the treatment of edema, fever, jaundice, and inflammatory diseases in Korean folk medicine for centuries. However, the mechanism by which SC exerts these anti-tumorigenic activities in human prostate and breast cancer cells has not yet been fully understood. In this study, we report on the methylene chloride fraction from SC exerting cytotoxicity against prostate and breast cancer cells in a dose-dependent manner. Specifically, SC exerted the most potent cytotoxicity in LNCaP and MCF-7 cells. SC was shown to down-regulate various angiogenetic (VEGF), proliferative (Cyclin D₁), anti-apoptotic (Bcl-2) gene products in these cells. SC also increased the number of annexin V-positive apoptotic bodies and the sub-G1 DNA contents of the cell cycle undergoing apoptosis through caspase-3 activation in both LNCaP and MCF-7 cells. We further confirmed that caspase-3 plays an important role in SC-induced apoptosis in LNCaP and MCF-7 cells through the use of the caspase-3 inhibitor. Moreover, we observed that SC potentiated paclitaxel-induced apoptosis in MCF-7 cells and sauchinone is a major active constituent of SC, which could induce apoptosis in the cells. Taken together, our data provide the evidence that SC induces apoptosis depending on caspase-3 activation and overcomes the natural biological resistance to chemotherapy found in human prostate and breast cancer cells.     

Angiostrongylus cantonensis: apoptosis of inflammatory cells induced by treatment with mebendazole or/and interleukin 12 in mice

Angiostrongylus cantonensis is the major cause of human eosinophilic meningoencephalitis. ICR mice were infected orally with 35 infective larvae and sacrificed at 4-14 days, 25 days or 32 days post infection (dpi) for pathological and immunocytochemical examinations. In the non-treated group, no apoptosis signal was found in the meninges or parenchyma of the brains (4-14 dpi). Only a few apoptotic cells were noticed at 25 dpi (3%) and 32 dpi (10%). In the groups, the animals were given a single dose of mebendazole (20 mg/kg, per os at various times) or injections of interleukin 12 (IL-12) (10 ng/daily, intraperitoneally), all the animals were sacrificed at 14 dpi; the number of apoptotic cells was increased (17-21%). In the group that received a single dose of mebendazole (4 dpi) in combination with IL-12 injections (4-13 dpi), mild meningitis was observed, and most of the infiltrated inflammatory cells were in the apoptotic program (55%). Taken together, apoptosis of the inflammatory cells (most were eosinophils) could be induced when the infected mice were treated with mebendazole or/and IL-12.     

Role of Bmbuffy in hydroxycamptothecine-induced apoptosis in BmN-SWU1 cells of the silkworm, Bombyx mori

Bcl-2 family proteins have been reported previously to play important roles in the mitochondrial apoptotic pathway. Particularly, Bmbuffy has been identified as a key homologue of Bcl-2 in silkworm; however, its exact function is unknown. In this study, we investigated the role of Bmbuffy in hydroxycamptothecine (HCPT)-induced apoptosis of BmN-SWU1 cells. By conducting confocal microscopy studies, we found that Bmbuffy is located on the outer membrane of mitochondria and endoplasmic reticulum (ER). Furthermore, we discovered that the hydrophobic transmembrane domain at the COOH terminus is a putative anchor for the subcellular localization of Bmbuffy. Overexpression of Bmbuffy inhibited cytochrome c release, activation of caspase-3 and cell apoptosis, while RNAi-mediated silencing of Bmbuffy promoted apoptosis. In the absence of a hydrophobic membrane anchor, we revealed that Bmbuffy is unable to block apoptosis. These results indicate that Bmbuffy acts as an anti-apoptotic protein, located on the mitochondrial outer membrane and is involved in the mitochondrial apoptotic pathway. Moreover, in HCPT-induced apoptosis, we showed that the translocation of endogenous Bmp53 from the nucleus to the mitochondria is a slow and progressive process, followed by cytochrome c release. This suggests that mitochondrial Bmp53 accumulation may contribute to membrane permeability. The co-localization of Bmp53 and Bmbuffy suggests the interaction of the two proteins, which was further confirmed by Co-IP assay. In addition, overexpression of Bmp53 increased cytochrome c release and the cell apoptotic rate, whereas Bmbuffy overexpression blocked these. All the data suggest that Bmbuffy functions as an anti-apoptotic protein and interacts with Bmp53 in HCPT-induced apoptosis of silkworm cells.