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Kassis J Radinsky R Wells A 《The international journal of biochemistry & cell biology》2002,34(7):762-775
Induced migration of tumor cells is generally considered to be one critical step in cancer progression to the invasive and metastatic stage. The implicit caveat of studies that show this is that other, unknown, signaling pathways and biophysical events are actually the operative rate-limiting steps, and not motility per se. Thus, to examine the hypothesis that motility is a single, but overall rate-limiting function required for invasion, disparate motility processes need be blocked with concordant effects on tumor invasion. Recently, we and others have described two signaling pathways that are critical to growth factor-induced motility but not mitogenesis. The key molecular switches are phospholipase C-gamma (PLCgamma) and calpain for cytoskeletal reorganization and rear detachment, respectively. We examined this hypothesis in a highly invasive tumor, bladder carcinoma. Three different human tumor cell lines, 253J-B-V, UMUC and T-24, were tested for invasiveness in vitro by transmigration of a Matrigel barrier. Inhibiting PLCgamma with the pharmacologic agent U73122 or the molecular dominant-negative PLCz construct reduced both invasiveness and motility. The same was noted when calpain was blocked using calpain inhibitor I (ALLN). These results demonstrate that one interventional target for limiting invasion is not necessarily an individual motility pathway but rather cell migration per se. 相似文献
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Adenylate cyclase activity and 3′, 5′ cyclic adenosinemonophosphate (cAMP) have been followed through the heat-synchronized cell cycle of Tetrahymena pyriformis. While the specific activity of adenylate cyclase remained essentially constant throughout the cycle, cAMP oscillated (between 10 and 50 pmoles/mg protein) through two cycles. Minima were observed at each division ( border) and maxima at each border. Each heat shock caused slight temporary reduction in cyclase activity. Further observations suggest to us that adenylate cyclase shows conformational changes in response to temperature-induced alterations and to changes in lipid composition of membranes. 相似文献
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Changes in the ultrastructure of the tegument of Echinococcus multilocularis protoscoleces during complement-mediated lysis in vitro was studied using transmission and scanning electron microscopy. It was found that the total disintegration of protoscoleces by complement proceeds through formation of ‘tegumental bubbles’ and disruption of the external plasma membrane. This sequence of events was evident in the appearance of numerous loose membrane fragments and vesicles, the lifting of the external unit membrane of the microtriches and the release of organelles from the distal cytoplasm. Subsequent events, such as the appearance of a ‘fuzzy’ coat and disruption of the basement membrane, were probably due to autolysis. 相似文献
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To elucidate the nature and kinetics of DNA strand breaks caused by low-energy Auger electron emitters, we compared the yields of DNA breaks in supercoiled pUC19 DNA in the presence of the (.)OH scavenger dimethyl sulfoxide (DMSO) after the decay of (125)I (1) in proximity to DNA after minor-groove binding ((125)I-iodoHoechst 33342, (125)IH) and (2) at a distance from DNA ((125)I-iodoantipyrine, (125)IAP). DMSO is efficient at protecting supercoiled plasmid DNA from the decay of (125)I free in solution (dose modification factor, DMF = 59 +/- 4) and less effective when the (125)I decays occur close to DNA (DMF = 3.8 +/- 0.3). This difference is due mainly to the inability of DMSO to protect DNA from the double-strand breaks produced by groove-bound (125)I (DMF = 1.0 +/- 0.2). Additionally, the fragmentation of plasmid DNA beyond the production of single-strand and double-strand breaks that is seen after the decay of (125)IH and not (125)IAP (Kassis et al., Radiat. Res. 151, 167-176, 1999) cannot be modified by DMSO. These results demonstrate that the mechanisms underlying double-strand breaks caused by the decay of (125)IH differ in nature from those caused by the decay of (125)IAP. 相似文献
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Rouached H Berthomieu P El Kassis E Cathala N Catherinot V Labesse G Davidian JC Fourcroy P 《The Journal of biological chemistry》2005,280(16):15976-15983
The C-terminal region of sulfate transporters from plants and animals belonging to the SLC26 family members shares a weak but significant similarity with the Bacillus sp. anti-anti-sigma protein SpoIIAA, thus defining the STAS domain (sulfate transporter and anti-sigma antagonist). The present study is a structure/function analysis of the STAS domain of SULTR1.2, an Arabidopsis thaliana sulfate transporter. A three-dimensional model of the SULTR1.2 STAS domain was built which indicated that it shares the SpoIIAA folds. Moreover, the phosphorylation site, which is necessary for SpoIIAA activity, is conserved in the SULTR1.2 STAS domain. The model was used to direct mutagenesis studies using a yeast mutant defective for sulfate transport. Truncation of the whole SULTR1.2 STAS domain resulted in the loss of sulfate transport function. Analyses of small deletions and mutations showed that the C-terminal tail of the SULTR1.2 STAS domain and particularly two cysteine residues plays an important role in sulfate transport by SULTR1.2. All the substitutions made at the putative phosphorylation site Thr-587 led to a complete loss of the sulfate transport function of SULTR1.2. The reduction or suppression of sulfate transport of the SULTR1.2 mutants in yeast was not due to an incorrect targeting to the plasma membrane. Both our three-dimensional modeling and mutational analyses strengthen the hypothesis that the SULTR1.2 STAS domain is involved in protein-protein interactions that could control sulfate transport. 相似文献
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Decreased frequency of cytomegalovirus (CMV)-specific CD4+ T lymphocytes in simian immunodeficiency virus-infected rhesus macaques: inverse relationship with CMV viremia 总被引:1,自引:0,他引:1
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The frequency of cytomegalovirus (CMV)-specific CD4+ T lymphocytes was determined in CMV-seropositive rhesus macaques with or without simian immunodeficiency virus (SIV) infection by using the sensitive assays of intracellular cytokine staining and gamma interferon ELISPOT. Both techniques yielded 3- to 1,000-fold-higher frequencies of CMV-specific CD4+ T lymphocytes than traditional proliferative limiting dilution assays. The median frequency of CMV-specific CD4+ T lymphocytes in 23 CMV-seropositive SIV-negative macaques was 0.63% (range, 0.16 to 5.8%). The majority of CMV-specific CD4+ T lymphocytes were CD95(pos) and CD27(lo) but expressed variable levels of CD45RA. A significant reduction (P < 0.05) in the frequency of CMV-specific CD4+ T lymphocytes was observed in pathogenic SIV-infected macaques but not in macaques infected with live attenuated strains of SIV. CMV-specific CD4+ T lymphocytes were not detected in six of nine pathogenic SIV-infected rhesus macaques. CMV DNA was detected in the plasma of four of six of these macaques but in no animal with detectable CMV-specific CD4+ T lymphocytes. In pathogenic SIV-infected macaques, loss of CMV-specific CD4+ T lymphocytes was not predicted by the severity of CD4+ T lymphocytopenia. Neither was it predicted by the pre-SIV infection frequencies of CD45RA(neg) or CCR5(pos) CMV-specific CD4+ T lymphocytes. However, the magnitude of activation, as evidenced by the intensity of CD40L expression on CMV-specific CD4+ T lymphocytes pre-SIV infection, was three- to sevenfold greater in the two macaques that subsequently lost these cells after SIV infection than in the two macaques that retained CMV-specific CD4+ T lymphocytes post-SIV infection. Future longitudinal studies with these techniques will facilitate the study of CMV pathogenesis in AIDS. 相似文献
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Amer Elias Hala Kassis Suha Abd Elkader Natasha Gritsenko Alessio Nahmad Hodaya Shir Liana Younis Atheer Shannan Hideki Aihara Gali Prag Ezra Yagil Mikhail Kolot 《Nucleic acids research》2020,48(22):12804
HK022 coliphage site-specific recombinase Integrase (Int) can catalyze integrative site-specific recombination and recombinase-mediated cassette exchange (RMCE) reactions in mammalian cell cultures. Owing to the promiscuity of the 7 bp overlap sequence in its att sites, active ‘attB’ sites flanking human deleterious mutations were previously identified that may serve as substrates for RMCE reactions for future potential gene therapy. However, the wild type Int proved inefficient in catalyzing such RMCE reactions. To address this low efficiency, variants of Int were constructed and examined by integrative site-specific recombination and RMCE assays in human cells using native ‘attB’ sites. As a proof of concept, various Int derivatives have demonstrated successful RMCE reactions using a pair of native ‘attB’ sites that were inserted as a substrate into the human genome. Moreover, successful RMCE reactions were demonstrated in native locations of the human CTNS and DMD genes whose mutations are responsible for Cystinosis and Duchene Muscular Dystrophy diseases, respectively. This work provides a steppingstone for potential downstream therapeutic applications. 相似文献
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