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Polyclonal antibodies against rabbit skeletal muscle phosphatases C-I and C-II were raised in goats and in mice. The goat polyclonal antibodies to phosphatases C-I and C-II were examined for their ability to immunoblot the purified enzymes and crude rabbit muscle extracts. In preparations of phosphatases C-I and C-II that were apparently homogeneous, the expected ca. 35- to 38-kDa polypeptides were immunoblotted, but, in addition, immunoblotting of a 67-kDa polypeptide was observed. Both the antisera blotted only the 67-kDa polypeptide in crude rabbit muscle extracts and not the expected 35- to 38-kDa polypeptides. These findings are qualitatively similar to those reported previously (D.L. Brautigan et al. (1985) J. Biol. Chem. 260, 4295-4305) where immunoblotting experiments with a sheep antisera to phosphatase C-I indicated that the ca. 35-kDa polypeptide originates from a 70-kDa precursor. On further investigation, it was found that our antisera were strongly immunoreactive to rabbit serum albumin. The antisera blotted purified rabbit albumin, but not bovine serum albumin. After passage through a rabbit albumin-Sepharose column, the antisera lost immunoreactivity to rabbit albumin, and no longer blotted the ca. 70-kDa band in muscle extracts or in purified enzyme preparations. These findings show that the phosphatase preparations contained traces of albumin which produced a strong antigenic reaction. Production of antisera in BALB/c mice produced similar results; i.e., an antibody to the low-molecular-weight phosphatases was produced that was also a strong antibody to rabbit albumin. This antibody could be removed by affinity adsoption on rabbit albumin-Sepharose columns. In addition, the antibodies to phosphatase C-I displayed no cross-reactivity to phosphatase C-II, while antibodies to C-II showed no cross-reactivity to phosphatase C-I by immunoblotting methods. 相似文献
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Exposure of certain photoactive dyes to light prior to their use in biological systems (preactivation) has been shown to result in formation of long-lived cytotoxic photoproducts. The cytotoxic species responsible for the biological activity of preactivated merocyanine 540 (pMC540) appears to be a hydroperoxide generated by oxidation of ground-state dye by singlet molecular oxygen, formed via energy transfer from triplet excited-state dye to oxygen. A positive correlation (r = .93) exists between the levels of hydroperoxides and percent of tumor cells killed upon exposure to pMC540. Exposure of bovine serum albumin (BSA) (0.5 mg/mL) to pMC540 (0.2 mg/mL-1 mg/mL) results in loss of tryptophan fluorescence and 345 nm emission, suggesting a probable role of either hydroxyl (.OH) or .OH + superoxide (O2-). Polyacrylamide gel electrophoresis indicates fragmentation of treated BSA. Aggregation of pMC540-treated BSA is not detected. Bityrosine production is not observed. A dose-dependent decrease in BSA solubility is observed in treated samples, suggesting an increase in hydrophobicity. Amino acid analysis of BSA treated with pMC540 shows loss of some amino acids residues. The data presented here suggest that photoproducts of MC540 derived via the process of preactivation may mediate their effect (at least in part) by reactive oxygen species. 相似文献
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Recent advances have highlighted the complex web of biological mechanisms and pathways involved in oncogenic transformation and maintenance of the cancer phenotype. To that end, a number of key factors have been identified and thoroughly investigated over the past couple of decades, such as redox regulation of cell fate decisions, cellular metabolism and bioenergetics, autophagy induction as a survival signal, and how these pathways interplay with oncogene-induced transformation. This has been particularly well documented for oncoprotein Ras-induced carcinogenesis, and recent reports provide ample evidence to indicate a well-coordinated crosstalk between these diverse cellular pathways in the process of cancer initiation and progression. Here we provide a brief summary of the recent advances in the field to illustrate the dual role of autophagy as a tumor suppressor and as a survival mechanism required for cancer maintenance as well as its implication in the complex relationship between Ras-mediated carcinogenesis, mitochondrial metabolism, cellular redox status and bioenergetics. 相似文献
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The small chaperone protein Hsp27 confers resistance to apoptosis, and therefore is an attractive anticancer drug target. We report here a novel mechanism underlying the tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) sensitizing activity of the small molecule , an inactive analog of the phosphoinositide 3-kinase inhibitor inhibitor LY303511, in HeLa cells that are refractory to TRAIL-induced apoptosis. On the basis of the fact that LY294002 is derived from LY303511, itself derived from quercetin, and earlier findings indicating that quercetin and LY294002 affected Hsp27 expression, we investigated whether LY294002 sensitized cancer cells to TRAIL via a conserved inhibitory effect on Hsp27. We provide evidence that upon treatment with LY303511, Hsp27 is progressively sequestered in the nucleus, thus reducing its protective effect in the cytosol during the apoptotic process. LY303511-induced nuclear translocation of Hsp27 is linked to its sustained phosphorylation via activation of p38 kinase and MAPKAP kinase 2 and the inhibition of PP2A. Furthermore, Hsp27 phosphorylation leads to the subsequent dissociation of its large oligomers and a decrease in its chaperone activity, thereby further compromising the death inhibitory activity of Hsp27. Furthermore, genetic manipulation of Hsp27 expression significantly affected the TRAIL sensitizing activity of LY303511, which corroborated the Hsp27 targeting activity of LY303511. Taken together, these data indicate a novel mechanism of small molecule sensitization to TRAIL through targeting of Hsp27 functions, rather than its overall expression, leading to decreased cellular protection, which could have therapeutic implications for overcoming chemotherapy resistance in tumor cells. LY303511相似文献
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Abscisic acid and sucrose regulate tomato and strawberry fruit ripening through the abscisic acid‐stress‐ripening transcription factor
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A permissive apoptotic environment: function of a decrease in intracellular superoxide anion and cytosolic acidification. 总被引:3,自引:0,他引:3
Shazib Pervaiz Marie-Véronique Clément 《Biochemical and biophysical research communications》2002,290(4):1145-1150
Reactive oxygen species are involved in cellular processes as diverse as proliferation and cell death. At concentrations that do not overwhelm the cellular antioxidant defense systems, reactive oxygen species such as superoxide anion can inhibit death signaling. The sensitivity of cells to apoptotic triggers is significantly increased upon decreasing intracellular superoxide concentration. The critical determinant is the tight intracellular balance between superoxide and hydrogen peroxide levels, and a shift from the tightly regulated physiological ratio could impact cellular response to death stimuli. A shift toward hydrogen peroxide leads to activation of the effector components of the cells' apoptotic machinery by inducing reduction of the intracellular milieu and a drop in cytosolic pH, thereby creating a facilitative environment for efficient death execution. Hence, we propose that a permissive apoptotic milieu is a function of decreased intracellular superoxide concentration and cytosolic acidification. 相似文献
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Irshad Ahmed Hajam Pervaiz Ahmad Dar Elamurugan Appavoo Subodh Kishore Veerakyathappa Bhanuprakash Kondabattula Ganesh 《PloS one》2015,10(12)
Bacterial ghosts (BGs) are empty cell envelopes derived from Gram-negative bacteria. They not only represent a potential platform for development of novel vaccines but also provide a tool for efficient adjuvant and antigen delivery system. In the present study, we investigated the interaction between BGs of Escherichia coli (E. coli) and bovine monocyte-derived dendritic cells (MoDCs). MoDCs are highly potent antigen-presenting cells and have the potential to act as a powerful tool for manipulating the immune system. We generated bovine MoDCs in vitro from blood monocytes using E. coli expressed bovine GM-CSF and IL-4 cytokines. These MoDCs displayed typical morphology and functions similar to DCs. We further investigated the E. coli BGs to induce maturation of bovine MoDCs in comparison to E. coli lipopolysaccharide (LPS). We observed the maturation marker molecules such as MHC-II, CD80 and CD86 were induced early and at higher levels in BG stimulated MoDCs as compared to the LPS stimulated MoDCs. BG mediated stimulation induced significantly higher levels of cytokine expression in bovine MoDCs than LPS. Both pro-inflammatory (IL-12 and TNF-α) and anti-inflammatory (IL-10) cytokines were induced in MoDCs after BGs stimulation. We further analysed the effects of BGs on the bovine MoDCs in an allogenic mixed lymphocyte reaction (MLR). We found the BG-treated bovine MoDCs had significantly (p<0.05) higher capacity to stimulate allogenic T cell proliferation in MLR as compared to the LPS. Taken together, these findings demonstrate the E. coli BGs induce a strong activation and maturation of bovine MoDCs. 相似文献
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Resveratrol, a polyphenolic phytoalexin, is one of the most extensively studied natural products, with wide ranging biological
activity and tremendous clinical potential. First identified from fruits and plants, in particular grapes and wines, its positive
effects on a variety of disease states have been unraveled over the past decade or so. Most noticeable are its anti-thrombogenic,
anti-inflammatory, cardio-protective, neuro-protective, anti-aging, and cancer preventive and therapeutic activities. Recent
data also indicate that depending upon the concentration/dose, resveratrol can trigger or block cell death signaling in tumor
cells. Considering the heightened interest in this compound, here we present a short review on the biological activity of
this remarkable compound, with a specific focus on its effects on cell survival and death signals. 相似文献