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101.
102.
Recent studies show that N-, O-diacylethanolamines (DAEs) can be derived by the O-acylation of N-acylethanolamines (NAEs) under physiological conditions. Because the content of NAEs in a variety of organisms increases in response to stress, it is likely that DAEs may also be present in biomembranes. In view of this, a homologous series of DAEs with matched acyl chains (n = 10–20) have been synthesized and characterized. Transition enthalpies and entropies obtained from differential scanning calorimetry show that dry DAEs with even and odd acyl chains independently exhibit linear dependence on the chainlength. Linear least-squares analyses yielded incremental values contributed by each methylene group to the transition enthalpy and entropy and the corresponding end contributions. N-, O-Didecanoylethanolamine (DDEA), N-, O-dilauroylethanolamine (DLEA), and N-, O-dimyristoylethanolamine (DMEA) crystallized in the orthorhombic space group Pbc21 with four symmetry-related molecules in the unit cell. Single-crystal X-ray diffraction studies show that DDEA, DLEA, and DMEA are isostructural and adopt an L-shaped structure with the N-acyl chain and the central ethanolamine moiety being essentially identical to the structure of N-acylethanolamines, whereas the O-acyl chain is linear with all-trans conformation. In all three DAEs, the lipid molecules are organized in a bilayer fashion wherein the N-acyl and O-acyl chains from adjacent layers oppose each other. 相似文献
103.
Nilotpal Roy Tanya Stoyanova Carmen Dominguez-Brauer Hyun Jung Park Srilata Bagchi Pradip Raychaudhuri 《Molecular and cellular biology》2010,30(11):2681-2692
Reactive oxygen species (ROS) is critical for premature senescence, a process significant in tumor suppression and cancer therapy. Here, we reveal a novel function of the nucleotide excision repair protein DDB2 in the accumulation of ROS in a manner that is essential for premature senescence. DDB2-deficient cells fail to undergo premature senescence induced by culture shock, exogenous oxidative stress, oncogenic stress, or DNA damage. These cells do not accumulate ROS following DNA damage. The lack of ROS accumulation in DDB2 deficiency results from high-level expression of the antioxidant genes in vitro and in vivo. DDB2 represses antioxidant genes by recruiting Cul4A and Suv39h and by increasing histone-H3K9 trimethylation. Moreover, expression of DDB2 also is induced by ROS. Together, our results show that, upon oxidative stress, DDB2 functions in a positive feedback loop by repressing the antioxidant genes to cause persistent accumulation of ROS and induce premature senescence.DDB2 is encoded by the nucleotide excision repair (NER) XPE gene (17, 24, 33). Unlike other NER gene-deficient cells or xeroderma pigmentosum (XP) cells, the XPE cells exhibit only a mild deficiency in NER (55). However, because of its high affinity for cyclobutane pyrimidine dimers (CPDs) and 6-4 photoproducts, several studies implicated DDB2 in the early damaged-DNA recognition step of NER (61). However, a direct role of DDB2 in NER is a point of controversy (28, 41, 57). Lower organisms (yeasts), in which other XP genes are conserved, apparently do not encode a DDB2 homolog (55, 64). We showed that DDB2 associates with Cul4, a component of an E3 ubiquitin ligase complex that is now known to involve the DDB2 binding protein DDB1 as its adapter (48). The Cul4-DDB1 E3 ligase associates with a number of substrate-specific adapter proteins to target substrates for ubiquitination (30, 35). DDB2 is believed to be one of those substrate adapters, which allows Cul4-DDB1 to target specific proteins. Two studies suggested that the Cul4A-DDB1-DDB2 complex could participate in the ubiquitination of histones, indicating a role of DDB2 in chromatin remodeling (23, 59). Other investigators suggested a role of Cul4A-DDB1-DDB2 in the ubiquitination of XPC (15, 52). We recently found that DDB2 is involved also in targeting p21 for proteolysis and demonstrated that DDB2 stimulated NER by regulating the level of p21 (51).It was shown elsewhere that DDB2−/− mouse embryonic fibroblasts (MEFs) are resistant to UV-induced apoptosis (20, 21). Recently, we extended those observations by demonstrating that DDB2−/− MEFs or DDB2-deficient human cells are resistant to apoptosis induced by a variety of DNA-damaging agents (50). Moreover, DDB2−/− MEFs are deficient in E2F1-induced apoptosis. The resistance to apoptosis is linked also to high-level accumulation of p21 because deletion of p21 restored apoptosis. The polyubiquitination of p21 is significantly reduced in DDB2-deficient cells (50), suggesting that after DNA damage DDB2 plays a key role in polyubiquitinating p21. Also, we observed evidence for a physical association between DDB2 and p21, which was increased in UV-irradiated cells (50), indicating that DDB2 plays a direct role in targeting p21 for proteolysis after DNA damage. These observations provided evidence that DDB2, in addition to stimulating NER, plays a significant role in terminating DNA damage checkpoint, allowing cells with extensive DNA damage to undergo apoptosis.In addition to its role in the inhibition of cell cycle and apoptosis, p21 has been implicated also in cellular senescence, as its level increases in senescent cells (7). Cellular senescence is defined as a proliferative arrest of a cell after a limited number of cell divisions while the cell remains metabolically and synthetically active (6, 63). Senescence can be triggered by both extrinsic factors such as oncogenic stress, DNA damage, oxidative stress, and culture shock and intrinsic factors such as telomere regression in human cells (19). When grown in cell culture medium, human diploid fibroblasts undergo 60 to 80 population doublings, after which they cease proliferation as a result of telomere erosion and enter into the stage of replicative senescence characterized by enlarged and flattened morphology, increased granularity, and enhanced senescence-associated β-galactosidase (SA-β-Gal) activity (13). In contrast, telomere length does not limit the ability of the murine fibroblasts to proliferate in culture. It was shown that the supraphysiological level of oxygen or reactive oxygen species (ROS) under which the cells are grown led murine fibroblasts to senesce (39). ROS accumulation or oxidative stress induces the senescent phenotype in response to oncogenic stress as well as in response to DNA-damaging agents (56). These pathways have been termed premature senescence, which recapitulates molecular features of replicative senescence. Premature senescence induced by oncogene expression is a significant mechanism of tumor suppression involving the Ink4a/Arf locus (47). Moreover, DNA damage-induced premature senescence is significant, as many anticancer drugs have been shown to induce premature senescence of tumor cells (12, 44).Because DDB2−/− MEFs express p21 at a high level, we expected those cells to undergo premature senescence at an earlier passage than the wild-type (WT) MEFs. Surprisingly, we found that DDB2−/− MEFs escape senescence at a very high frequency. Moreover, DDB2−/− MEFs or DDB2-deficient human cells are resistant to premature senescence induced by a variety of agents, including oncogenic stress, exogenous oxidative stress, and DNA damage. The lack of premature senescence in the presence of high-level p21, especially after DNA damage, suggests that DDB2 functions in the senescence program through a mechanism that is downstream of the p21 pathway senescence. Here we show that DDB2 participates in the senescence program by inducing persistent accumulation of ROS. 相似文献
104.
105.
Benny Hung-Junn Chang Lan Li Pradip Saha Lawrence Chan 《Journal of lipid research》2010,51(8):2132-2142
We previously showed that adipose differentiation related protein (Adfp)-deficient mice display a 60% reduction in hepatic triglyceride (TG) content. In this study, we investigated the role of ADFP in lipid and glucose homeostasis in a genetic obesity model, Lepob/ob mice. We bred Adfp−/− mice with Lepob/ob mice to create Lepob/ob/Adfp−/− and Lepob/ob/Adfp+/+ mice and analyzed the hepatic lipids, lipid droplet (LD) morphology, LD protein composition and distribution, lipogenic gene expression, and VLDL secretion, as well as insulin sensitivity of the two groups of mice. Compared with Lepob/ob/Adfp+/+ mice, Lepob/ob/Adfp−/− mice displayed an increased VLDL secretion rate, a 25% reduction in hepatic TG associated with improvement in fatty liver grossly and microscopically with a change of the size of LDs in a proportion of the hepatocytes and a redistribution of major LD-associated proteins from the cytoplasmic compartment to the LD surface. There was no detectable change in lipogenic gene expression. Lepob/ob/Adfp−/− mice also had improved glucose tolerance and insulin sensitivity in both liver and muscle. The alteration of LD size in the liver of Lepob/ob/Adfp−/− mice despite the relocation of other LDPs to the LD indicates a nonredundant role for ADFP in determining the size and distribution of hepatic LDs. 相似文献
106.
Manno CS Pierce GF Arruda VR Glader B Ragni M Rasko JJ Rasko J Ozelo MC Hoots K Blatt P Konkle B Dake M Kaye R Razavi M Zajko A Zehnder J Rustagi PK Nakai H Chew A Leonard D Wright JF Lessard RR Sommer JM Tigges M Sabatino D Luk A Jiang H Mingozzi F Couto L Ertl HC High KA Kay MA 《Nature medicine》2006,12(3):342-347
We have previously shown that a single portal vein infusion of a recombinant adeno-associated viral vector (rAAV) expressing canine Factor IX (F.IX) resulted in long-term expression of therapeutic levels of F.IX in dogs with severe hemophilia B. We carried out a phase 1/2 dose-escalation clinical study to extend this approach to humans with severe hemophilia B. rAAV-2 vector expressing human F.IX was infused through the hepatic artery into seven subjects. The data show that: (i) vector infusion at doses up to 2 x 10(12) vg/kg was not associated with acute or long-lasting toxicity; (ii) therapeutic levels of F.IX were achieved at the highest dose tested; (iii) duration of expression at therapeutic levels was limited to a period of approximately 8 weeks; (iv) a gradual decline in F.IX was accompanied by a transient asymptomatic elevation of liver transaminases that resolved without treatment. Further studies suggested that destruction of transduced hepatocytes by cell-mediated immunity targeting antigens of the AAV capsid caused both the decline in F.IX and the transient transaminitis. We conclude that rAAV-2 vectors can transduce human hepatocytes in vivo to result in therapeutically relevant levels of F.IX, but that future studies in humans may require immunomodulation to achieve long-term expression. 相似文献
107.
Phosphate specific transporter (Pst) in bacteria is involved in phosphate transport. Pst is a multisubunit system which belongs to the ABC family of transporters. The import function of this transporter is known to be operative at media phosphate concentrations below the millimolar range. However, we found amplification of this transporter in a laboratory generated ciprofloxacin resistant Mycobacterium smegmatis colony (CIPr) which was grown in a condition when phosphate scavenging function of this operon was inoperative. Our results therefore argue the role of this ABC importer in conferring high level of fluoroquinolone resistance in CIPr. 相似文献
108.
Polystyrene, polypropylene, and polyethylene surfaces were activated by exposing 1-fluoro-2-nitro-4-azidobenzene coated surface to sunlight. Sunlight intensity of 26,300 lux was found optimum beyond which no appreciable increase in activation was observed. Five-minutes sunlight exposure gave better activated surface than 5 min 365-nm UV light exposure. The efficacy of sunlight-mediated activated surfaces was demonstrated by covalently immobilizing proteins onto them. Horseradish peroxidase when immobilized onto the sunlight-activated surfaces showed more than twofold increase in immobilization than the surface without activation. Thus, sunlight being a versatile, eco-friendly, and clean energy source can be a potential alternative for activation of inert surface for covalent attachment of biomolecule such as protein, DNA, or carbohydrate. 相似文献
109.
Tiwari S Kishan KV Chakrabarti T Chakraborti PK 《The Journal of biological chemistry》2004,279(42):43595-43603
Nucleoside diphosphate kinase (NdK) is a ubiquitous enzyme in both prokaryotes and eukaryotes and is primarily involved in the maintenance of cellular nucleotide pools. We have cloned ndk from Mycobacterium tuberculosis strain H37Ra and expressed it in Escherichia coli as a fusion protein with glutathione S-transferase. The purified protein, following thrombin cleavage and gel permeation chromatography, was found to be hexameric with a monomeric unit molecular mass of approximately 16.5 kDa. The protein exhibited nucleotide binding, divalent cation-dependent autophosphorylation, and phosphate transfer ability from nucleoside triphosphate to nucleoside diphosphate. Although UDP inhibited the catalytic activity of the recombinant protein, the classic inhibitors, like cromoglycate, 5'-adenosine 3'-phosphate, and adenosine 3'-phosphate 5'-phosphosulfate, had no effect on the activity. Among three histidine residues in the protein, His-117 was found to be essential for autophosphorylation. However, in subsequent phosphate transfer, we observed that His-53 had a significant contribution. Consistent with this observation, substitution of His-53 with either Ala or Gln affected the ability of the recombinant protein to complement NdK function in Pseudomonas aeruginosa. Furthermore, mutational analysis established critical roles for Tyr-50 and Arg-86 of the M. tuberculosis protein in maintaining phosphotransfer ability. 相似文献
110.
Sai V. Chitti Taeyoung Kang Pamali Fonseka Akbar L. Marzan Sarah Stewart Sanjay Shahi Kyle Bramich Ching-Seng Ang Mohashin Pathan Sriram Gummadi Suresh Mathivanan 《Proteomics》2023,23(15):2100314
Cancer cachexia is a wasting syndrome characterised by the loss of fat and/or muscle mass in advanced cancer patients. It has been well-established that cancer cells themselves can induce cachexia via the release of several pro-cachectic and pro-inflammatory factors. However, it is unclear how this process is regulated and the key cachexins that are involved. In this study, we validated C26 and EL4 as cachexic and non-cachexic cell models, respectively. Treatment of adipocytes and myotubes with C26 conditioned medium induced lipolysis and atrophy, respectively. We profiled soluble secreted proteins (secretome) as well as small extracellular vesicles (sEVs) released from cachexia-inducing (C26) and non-inducing (EL4) cancer cells by label-free quantitative proteomics. A total of 1268 and 1022 proteins were identified in the secretome of C26 and EL4, respectively. Furthermore, proteomic analysis of sEVs derived from C26 and EL4 cancer cells revealed a distinct difference in the protein cargo. Functional enrichment analysis using FunRich highlighted the enrichment of proteins that are implicated in biological processes such as muscle atrophy, lipolysis, and inflammation in both the secretome and sEVs derived from C26 cancer cells. Overall, our characterisation of the proteomic profiles of the secretory factors and sEVs from cachexia-inducing and non-inducing cancer cells provides insights into tumour factors that promote weight loss by mediating protein and lipid loss in various organs and tissues. Further investigation of these proteins may assist in highlighting potential therapeutic targets and biomarkers of cancer cachexia. 相似文献