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101.
Panya Sae-Lim Han Mulder Bjarne Gjerde Heikki Koskinen Marie Lillehammer Antti Kause 《PloS one》2015,10(8)
Rainbow trout is farmed globally under diverse uncontrollable environments. Fish with low macroenvironmental sensitivity (ES) of growth is important to thrive and grow under these uncontrollable environments. The ES may evolve as a correlated response to selection for growth in one environment when the genetic correlation between ES and growth is nonzero. The aims of this study were to quantify additive genetic variance for ES of body weight (BW), defined as the slope of reaction norm across breeding environment (BE) and production environment (PE), and to estimate the genetic correlation (r
g(int, sl)) between BW and ES. To estimate heritable variance of ES, the coheritability of ES was derived using selection index theory. The BW records from 43,040 rainbow trout performing either in freshwater or seawater were analysed using a reaction norm model. High additive genetic variance for ES (9584) was observed, inferring that genetic changes in ES can be expected. The coheritability for ES was either -0.06 (intercept at PE) or -0.08 (intercept at BE), suggesting that BW observation in either PE or BE results in low accuracy of selection for ES. Yet, the r
g(int, sl) was negative (-0.41 to -0.33) indicating that selection for BW in one environment is expected to result in more sensitive fish. To avoid an increase of ES while selecting for BW, it is possible to have equal genetic gain in BW in both environments so that ES is maintained stable. 相似文献
102.
Laura Zuccaro Cinzia Tesauro Barbara Cerroni Alessio Ottaviani Birgitta Ruth Knudsen Kannan Balasubramanian Alessandro Desideri 《Analytical biochemistry》2014
A high-sensitivity assay has been developed for the detection of human topoisomerase I with single molecule resolution. The method uses magnetic sepharose beads to concentrate rolling circle products, produced by the amplification of DNA molecules circularized by topoisomerase I and detectable with a confocal microscope as single and discrete dots, once reacted with fluorescent probes. Each dot, corresponding to a single cleavage–religation event mediated by the enzyme, can be counted due to its high signal/noise ratio, allowing detection of 0.3 pM enzyme and representing a valid method to detect the enzyme activity in highly diluted samples. 相似文献
103.
104.
Ubaldo E Martinez-Outschoorn Renee M Balliet Dayana B Rivadeneira Barbara Chiavarina Stephanos Pavlides Chenguang Wang Diana Whitaker-Menezes Kristin M Daumer Zhao Lin Agnieszka K Witkiewicz Neal Flomenberg Anthony Howell Richard G Pestell Erik S Knudsen Federica Sotgia Michael P Lisanti 《Cell cycle (Georgetown, Tex.)》2010,9(16):3256-3276
Loss of stromal fibroblast caveolin-1 (Cav-1) is a powerful single independent predictor of poor prognosis in human breast cancer patients, and is associated with early tumor recurrence, lymph node metastasis and tamoxifen-resistance. We developed a novel co-culture system to understand the mechanism(s) by which a loss of stromal fibroblast Cav-1 induces a “lethal tumor microenvironment.” Here, we propose a new paradigm to explain the powerful prognostic value of stromal Cav-1. In this model, cancer cells induce oxidative stress in cancer-associated fibroblasts, which then acts as a “metabolic” and “mutagenic” motor to drive tumor-stroma co-evolution, DNA damage and aneuploidy in cancer cells. More specifically, we show that an acute loss of Cav-1 expression leads to mitochondrial dysfunction, oxidative stress and aerobic glycolysis in cancer associated fibroblasts. Also, we propose that defective mitochondria are removed from cancer-associated fibroblasts by autophagy/mitophagy that is induced by oxidative stress. As a consequence, cancer associated fibroblasts provide nutrients (such as lactate) to stimulate mitochondrial biogenesis and oxidative metabolism in adjacent cancer cells (the “Reverse Warburg effect”). We provide evidence that oxidative stress in cancer-associated fibroblasts is sufficient to induce genomic instability in adjacent cancer cells, via a bystander effect, potentially increasing their aggressive behavior. Finally, we directly demonstrate that nitric oxide (NO) over-production, secondary to Cav-1 loss, is the root cause for mitochondrial dysfunction in cancer associated fibroblasts. In support of this notion, treatment with anti-oxidants (such as N-acetyl-cysteine, metformin and quercetin) or NO inhibitors (L-NAME) was sufficient to reverse many of the cancer-associated fibroblast phenotypes that we describe. Thus, cancer cells use “oxidative stress” in adjacent fibroblasts (1) as an “engine” to fuel their own survival via the stromal production of nutrients and (ii) to drive their own mutagenic evolution towards a more aggressive phenotype, by promoting genomic instability. We also present evidence that the “field effect” in cancer biology could also be related to the stromal production of ROS and NO species. eNOS-expressing fibroblasts have the ability to downregulate Cav-1 and induce mitochondrial dysfunction in adjacent fibroblasts that do not express eNOS. As such, the effects of stromal oxidative stress can be laterally propagated, amplified and are effectively “contagious”—spread from cell-to-cell like a virus—creating an “oncogenic/mutagenic” field promoting widespread DNA damage.Key words: caveolin-1, cancer associated fibroblasts, oxidative stress, reactive oxygen species (ROS), mitochondrial dysfunction, autophagy, nitric oxide (NO), DNA damage, aneuploidy, genomic instability, anti-oxidant cancer therapy, the “field effect” in cancer biology 相似文献
105.
A. Sverdrup E. Kjellsby ‡ P. G. Krüger † R. Fløysand F. R. Knudsen § P. S. Enger § G. Serck-Hanssen K. B. Helle 《Journal of fish biology》1994,45(6):973-995
The postulated harmful effects of underwater detonations of explosives on the vascular endothelium in farmed Atlantic salmon were assessed under controlled conditions. Acclimated salmon were exposed to a series of 10 underwater explosions over 70 min, each of ≃2 MPa in pressure amplitude, in a laboratory tank. No mortality occurred immediately or during the subsequent 7 days of observation. The response to each of the 10 detonations was cessation of swimming for a few minutes and failure to express a flight reaction.
Structurally, the vascular endothelium of the ventral aorta (VA) and the coeliaco mesenteric artery (CMA) revealed signs of injury within the first 30 min after the experimental shock. In contrast to vessels from the controls, the injury was further aggravated by the mounting procedure for tension recording. The endothelial impairment was temporary, persisting throughout the first days while being restored after 1 week.
Functionally, the cholinergic and adrenergic vasoconstrictor responses in the CMA were markedly reduced during the first day after the shock. These responses were similar to those observed in the endothelium probed CMA of controls. The loss of structural integrity and the reduced functional responses indicated a temporary impairment of the vascular endothelium in response to this experimental simulation of a seismic shock.
The primary stress hormones, adrenaline and cortisol, were not immediately elevated in plasma, but revealed different patterns of delayed increases. The head kidney content of catecholamines was not altered by the acoustic shock, while the atrial uptake of both calecholamines declined progressively during the 48 h of observation. Plasma chloride was not affected. 相似文献
Structurally, the vascular endothelium of the ventral aorta (VA) and the coeliaco mesenteric artery (CMA) revealed signs of injury within the first 30 min after the experimental shock. In contrast to vessels from the controls, the injury was further aggravated by the mounting procedure for tension recording. The endothelial impairment was temporary, persisting throughout the first days while being restored after 1 week.
Functionally, the cholinergic and adrenergic vasoconstrictor responses in the CMA were markedly reduced during the first day after the shock. These responses were similar to those observed in the endothelium probed CMA of controls. The loss of structural integrity and the reduced functional responses indicated a temporary impairment of the vascular endothelium in response to this experimental simulation of a seismic shock.
The primary stress hormones, adrenaline and cortisol, were not immediately elevated in plasma, but revealed different patterns of delayed increases. The head kidney content of catecholamines was not altered by the acoustic shock, while the atrial uptake of both calecholamines declined progressively during the 48 h of observation. Plasma chloride was not affected. 相似文献
106.
107.
Schjetne KW Fredriksen AB Bogen B 《Journal of immunology (Baltimore, Md. : 1950)》2007,178(7):4169-4176
Ligation of CD40 induces maturation of dendritic cells (DC) and could be a useful target for vaccines. In this study, we have constructed two types of Ab-based vaccine constructs that target mouse CD40. One type is a recombinant Ab with V regions specific for CD40 and has defined T cell epitopes inserted into its C region. The other type is a homodimer, each chain of which is composed of a targeting unit (single-chain fragment variable targeting CD40), a dimerization motif, and an antigenic unit. Such proteins bound CD40, stimulated maturation of DC, and enhanced primary and memory T cell responses. When delivered i.m. as naked DNA followed by electroporation, the vaccines induced T cell responses against MHC class II-restricted epitopes, Ab responses, and protection in two tumor models (myeloma and lymphoma). Two factors apparently contributed to these results: 1) agonistic ligation of CD40 and induction of DC maturation, and 2) delivery of Ag to APC and presentation on MHC class II molecules. These results highlight the importance of agonistic targeting of Ag to CD40 for induction of long-lasting and protective immune responses. 相似文献
108.
Hede MS Petersen RL Frøhlich RF Krüger D Andersen FF Andersen AH Knudsen BR 《Journal of molecular biology》2007,365(4):1076-1092
Prompted by the close relationship between tyrosine recombinases and type IB topoisomerases we have investigated the ability of human topoisomerase I to resolve the typical intermediate of recombinase catalysis, the Holliday junction. We demonstrate that human topoisomerase I catalyzes unidirectional resolution of a synthetic Holliday junction substrate containing two preferred cleavage sites surrounded by DNA sequences supporting branch migration. Deleting part of the N-terminal domain (amino acid residues 1-202) did not affect topoisomerase I resolution activity, whereas a topoisomerase I variant lacking both the N-terminal domain and amino acid residues 660-688 of the linker domain was unable to resolve the Holliday junction substrate. The inability of the double deleted variant to mediate resolution correlated with the inability of this enzyme to introduce concomitant cleavage at the two preferred cleavage sites in a single Holliday junction substrate, which is a prerequisite for resolution. As determined by the gel electrophoretic mobility of native enzyme or enzyme crosslinked by disulfide bridging, the double deleted mutant existed almost entirely in a dimeric form. The impairment of this enzyme in performing double cleavages on the Holliday junction substrate may be explained by only one cleavage competent active site being formed at a time within the dimer. The assembly of only one active site within dimers is a well-known characteristic of the tyrosine recombinases. Hence, the obtained results may suggest a recombinase-like active site assembly of the double deleted topoisomerase I variant. Taken together the presented results consolidate the relationship between type IB topoisomerases and tyrosine recombinases. 相似文献
109.
Gromadski KB Schümmer T Strømgaard A Knudsen CR Kinzy TG Rodnina MV 《The Journal of biological chemistry》2007,282(49):35629-35637
The interactions of elongation factor 1A (eEF1A) from Saccharomyces cerevisiae with elongation factor 1Balpha (eEF1Balpha), guanine nucleotides, and aminoacyl-tRNA were studied kinetically by fluorescence stopped-flow. eEF1A has similar affinities for GDP and GTP, 0.4 and 1.1 microm, respectively. Dissociation of nucleotides from eEF1A in the absence of the guanine nucleotide exchange factor is slow (about 0.1 s(-1)) and is accelerated by eEF1Balpha by 320-fold and 250-fold for GDP and GTP, respectively. The rate constant of eEF1Balpha binding to eEF1A (10(7)-10(8) M (-1) s(-1)) is independent of guanine nucleotides. At the concentrations of nucleotides and factors prevailing in the cell, the overall exchange rate is expected to be in the range of 6 s(-1), which is compatible with the rate of protein synthesis in the cell. eEF1A.GTP binds Phe-tRNA(Phe) with a K(d) of 3 nm, whereas eEF1A.GDP shows no significant binding, indicating that eEF1A has similar tRNA binding properties as its prokaryotic homolog, EF-Tu. 相似文献
110.
Cerantola V Vionnet C Aebischer OF Jenny T Knudsen J Conzelmann A 《The Biochemical journal》2007,401(1):205-216
Synthesis of VLCFAs (very long chain fatty acids) and biosynthesis of DHS (dihydrosphingosine) both are of vital importance for Saccharomyces cerevisiae. The bulk of VLCFAs and DHS are used for ceramide synthesis by the Lag1p (longevity-assurance gene 1)/Lac1p (longevity-assurance gene cognate 1)/Lip1p (Lag1p/Lac1p interacting protein) ceramide synthase. LAG1 and LAC1 are redundant but LIP1 is essential. Here we show that 4Delta (lag1Deltalac1Deltaypc1Deltaydc1Delta) cells devoid of all known endogenous ceramide synthesis pathways are unviable but can be rescued by the expression of Lass5, a mouse LAG1 homologue. Ceramide synthase activity of 4Delta.Lass5 cells only utilizes C16 and C18 fatty acids and does not require the help of Lip1p, an essential cofactor of Lag1p/Lac1p. HPLC-electrospray ionization-MS/MS analysis demonstrated that in IPCs (inositolphosphorylceramides) of 4Delta.Lass5, the very long chain fatty acids (C26 and C24) account for <1% instead of the normal >97%. Notwithstanding, IPCs incorporated into glycosylphosphatidylinositol anchors of 4Delta.Lass5 show normal mobility on TLC and the ceramide- and raft-dependent traffic of Gas1p (glycophospholipid-anchored surface protein) from endoplasmic reticulum to Golgi remains almost normal. Moreover, the biosynthesis of C24:0 fatty acids remains essential. Thus, C(24:0) and dihydrosphingosine are both necessary for survival of yeast cells even if they utilize C16 and C18 fatty acids for sphingolipid biosynthesis. 相似文献