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141.
H JMP Verhagen D C de Leeuw M GM Roemer F Denkers W Pouwels A Rutten P H Celie G J Ossenkoppele G J Schuurhuis L Smit 《Cell death & disease》2014,5(6):e1300
Despite high remission rates after chemotherapy, only 30–40% of acute myeloid leukemia (AML) patients survive 5 years after diagnosis. This extremely poor prognosis of AML is mainly caused by treatment failure due to chemotherapy resistance. Chemotherapy resistance can be caused by various features including activation of alternative signaling pathways, evasion of cell death or activation of receptor tyrosine kinases such as the insulin growth factor-1 receptor (IGF-1R). Here we have studied the role of the insulin-like growth factor-binding protein-7 (IGFBP7), a tumor suppressor and part of the IGF-1R axis, in AML. We report that IGFBP7 sensitizes AML cells to chemotherapy-induced cell death. Moreover, overexpression of IGFBP7 as well as addition of recombinant human IGFBP7 is able to reduce the survival of AML cells by the induction of a G2 cell cycle arrest and apoptosis. This effect is mainly independent from IGF-1R activation, activated Akt and activated Erk. Importantly, AML patients with high IGFBP7 expression have a better outcome than patients with low IGFBP7 expression, indicating a positive role for IGFBP7 in treatment and outcome of AML. Together, this suggests that the combination of IGFBP7 and chemotherapy might potentially overcome conventional AML drug resistance and thus might improve AML patient survival.Only 30–40% of acute myeloid leukemia (AML) patients survive 5 years after diagnosis.1 This extremely poor prognosis is mainly caused by treatment failure due to chemotherapy resistance. This resistance is often a multifactorial phenomenon that can include enhanced expression or activation of receptor tyrosine kinases such as the insulin growth factor-1 receptor (IGF-1R).2, 3 The IGF-1R stimulates proliferation, protects cells from apoptosis and has been implicated in the development and maintenance of various cancers.4, 5 Several oncogenes require an intact IGF-1R pathway for their transforming activity6 and moreover, disruption or inhibition of IGF-1R activity has been shown to inhibit the growth and motility of a wide range of cancer cells in vitro and in mouse models.4, 5 IGF-1Rs are membrane receptors and binding of their ligand, the insulin-like growth factor-1 (IGF-1), results in receptor phosphorylation and activation of MAPK and PI3K/Akt signaling.4 Importantly, IGF-1, normally produced by the liver and bone marrow stromal cells, can stimulate the proliferation of cancer cells in vitro and genetic manipulations that reduce IGF-1 signaling can lead to decreased tumor growth.7, 8In hematological malignancies, a role for IGF-1 signaling has been demonstrated in multiple myeloma (MM) where it stimulates growth and potently mediates survival.9 Several anti-IGF-1R strategies have been shown to inhibit MM growth.10, 11 In AML, expression of the IGF-1R and IGF-1 was detected in AML cell lines and primary AML blasts and stimulation with IGF-1 can promote the growth of AML cells.12, 13, 14 In addition, neutralizing IGF-1R antibodies and the tyrosine kinase inhibitors (TKIs) NVP-AEW541 and NVP-ADW742, have been shown to inhibit proliferation and to induce apoptosis.15, 16In addition to its mitogenic and anti-apoptotic roles, directly influencing tumor development, IGF-1R appears to be a critical determinant of response to numerous anti-cancer therapies, including TKIs and chemotherapy.2, 3, 17, 18, 19, 20, 21, 22 In AML, activated IGF-1R signaling has been linked to cytarabine resistance, a drug included in every AML treatment schedule.17 Notably, in several cancer cell lines, a small subpopulation of drug-tolerant cancer cells exists that maintains their viability, after treatment with a lethal drug dose, via engagement of the IGF-1R.18The activity of the IGF-1R is tightly controlled at multiple levels, including their processing, endocytosis, trafficking and availability of its ligands.4 Ligand bioavailability is partly controlled by the family of secreted insulin-like growth factor-binding protein (IGFBP1 to IGFBP6), which can bind to IGFs therewith regulating the interaction of these ligands to their receptors. However, as IGFBPs are able to induce IGF-dependent and IGF-independent effects, the results of several studies on their role in cancer cell survival appeared to be controversial and complex.23, 24 In addition to IGFBPs, various IGFBP-related proteins have been identified.23, 25 One of these is the IGFB-related protein 1, also known as insulin-like growth factor-binding protein-7 (IGFBP7). IGFBP7 has 30% homology to IGFBP1 to IGFBP6 in its N-terminal domain and functions predominantly as a tumor suppressor.23, 24, 25, 26 In contrast to IGFBP1 to IGFBP6, which bind to the IGFs,23 IGFBP7 is a secreted protein that can directly bind to the IGF-1R and thereby inhibits its activity.27 The abundance of IGFBP7 is inversely correlated with tumor progression in hepatocellular carcinoma.28 Importantly, decreased expression of IGFBP7 has been associated with therapy resistance29, 30 and increasing IGFBP7 levels can inhibit melanoma and breast cancer growth.31, 32 IGFBP7 was originally identified as being involved in Raf-mediated apoptosis and senescence33 and also has been shown to induce senescence in mesenchymal stromal cells.34We established that IGFBP7 induces a cell cycle block and apoptosis in AML cells and cooperates with chemotherapy in the induction of leukemia cell death. AML patients with low IGFBP7 expression have a worse outcome than patients with high IGFBP7 expression, indicating that AML patients might benefit from a combination therapy consisting of chemotherapy and IGFBP7. Our results define IGFBP7 as a focus to enhance chemotherapy efficacy and improve AML patient survival. 相似文献
142.
Lindsay Pelzer Trevor Moraes Michael J. Ellison Wei Xiao 《Biochemical and biophysical research communications》2009,378(3):563-568
Ubiquitin conjugating enzyme variants (Uev) Uev1 and Mms2 share >90% sequence identity but with distinct biological functions. Here, we report the monomeric and heterodimeric crystal structures of Uev1 and comparison with that of Mms2. Uev1 alone or in complex with Ubc13 is nearly identical with the corresponding Mms2 structures, except in one surface area containing 7/14 amino acid variations. To probe the biological significance of this unique region, we raised monoclonal antibodies specifically recognizing this region of Uev1, but not of Mms2. Epitope mapping and site-specific mutagenesis revealed at least two distinct epitopes within this region. These data collectively suggest the existence of cellular proteins capable of distinguishing Uev1 from Mms2 and directing the Ubc13-Uev complex to different pathways. 相似文献
143.
144.
Background
The foodborne, gram-positive pathogen, Listeria monocytogenes, is capable of causing lethal infections in compromised individuals. In the post genomic era of L. monocytogenes research, techniques are required to identify and validate genes involved in the pathogenicity and environmental biology of the organism. The aim here was to develop a widely applicable method to tag L. monocytogenes strains, with a particular emphasis on the development of multiple strain competitive index assays. 相似文献145.
Interaction of the intron-encoded mobility endonuclease I-PpoI with its target site. 总被引:3,自引:0,他引:3
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Endonucleases encoded by mobile group I introns are highly specific DNases that induce a double-strand break near the site to which the intron moves. I-PpoI from the acellular slime mold Physarum polycephalum mediates the mobility of intron 3 (Pp LSU 3) in the extrachromosomal nuclear ribosomal DNA of this organism. We showed previously that cleavage by I-PpoI creates a four-base staggered cut near the point of intron insertion. We have now characterized several further properties of the endonuclease. As determined by deletion analysis, the minimal target site recognized by I-PopI was a sequence of 13 to 15 bp spanning the cleavage site. The purified protein behaved as a globular dimer in sedimentation and gel filtration. In gel mobility shift assays in the presence of EDTA, I-PpoI formed a stable and specific complex with DNA, dissociating with a half-life of 45 min. By footprinting and interference assays with methidiumpropyl-EDTA-iron(II), I-PpoI contacted a 22- to 24-bp stretch of DNA. The endonuclease protected most of the purines found in both the major and minor grooves of the DNA helix from modification by dimethyl sulfate (DMS). However, the reactivity to DMS was enhanced at some purines, suggesting that binding leads to a conformational change in the DNA. The pattern of DMS protection differed fundamentally in the two partially symmetrical halves of the recognition sequence. 相似文献
146.
Dunkley Katie Ellison Amy R. Mohammed Ryan S. van Oosterhout Cock Whittey Kathryn E. Perkins Sarah E. Cable Jo 《Coral reefs (Online)》2019,38(2):321-330
Coral Reefs - Cleaning interactions, which involve a cleaner removing ectoparasites and other material from the body of a heterospecific (client), are iconic symbiotic interactions observed on... 相似文献
147.
Stephen LR Ellison Claire A English Malcolm J Burns Jacquie T Keer 《BMC biotechnology》2006,6(1):33-11
Background
Accurate quantification of DNA using quantitative real-time PCR at low levels is increasingly important for clinical, environmental and forensic applications. At low concentration levels (here referring to under 100 target copies) DNA quantification is sensitive to losses during preparation, and suffers from appreciable valid non-detection rates for sampling reasons. This paper reports studies on a real-time quantitative PCR assay targeting a region of the human SRY gene over a concentration range of 0.5 to 1000 target copies. The effects of different sample preparation and calibration methods on quantitative accuracy were investigated. 相似文献148.
Mutations in active-site residues of the uracil-DNA glycosylase encoded by vaccinia virus are incompatible with virus viability. 总被引:2,自引:0,他引:2
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The D4R gene of vaccinia virus encodes a functional uracil-DNA glycosylase that is essential for viral viability (D. T. Stuart, C. Upton, M. A. Higman, E. G. Niles, and G. McFadden, J. Virol. 67:2503-2513, 1993), and a D4R mutant, ts4149, confers a conditional lethal defect in viral DNA replication (A. K. Millns, M. S. Carpenter, and A. M. DeLange, Virology 198:504-513, 1994). The mutant ts4149 protein was expressed in vitro and assayed for uracil-DNA glycosylase activity. Less than 6% of wild-type activity was observed at permissive temperatures, but the ts4149 protein was completely inactive at the nonpermissive temperature. Mutagenesis of the ts4149 gene back to wild type (Arg-179-->Gly) restored full activity. The ts4149 protein was considerably reduced in lysates of cells infected at the permissive temperature, and its activity was undetectable, even in the presence of the uracil glycosylase inhibitor protein, which inhibits the host uracil-DNA glycosylases but not that of vaccinia virus. Thus the ts4149 protein is thermolabile, correlating uracil removal with vaccinia virus DNA replication. Three active-site amino acids of the vaccinia virus uracil-DNA glycosylase were mutated (Asp-68-->Asn, Asn-120-->Val, and His-181-->Leu), producing proteins that were completely defective in uracil excision but still retained the ability to bind DNA. Each mutated D4R gene was transfected into vaccinia virus ts4149-infected cells in order to assess the recombination events that allowed virus survival at 40 degrees C. Genetic analysis and sequencing studies revealed that the only viruses to survive were those in which recombination eliminated the mutant locus. We conclude that the uracil cleavage activity of the D4R protein is essential for its function in vaccinia virus DNA replication, suggesting that the removal of uracil residues plays an obligatory role. 相似文献
149.
The evolutionary origin of the pinnipeds (seals, sea lions, and walruses)
is still uncertain. Most authors support a hypothesis of a monophyletic
origin of the pinnipeds from a caniform carnivore. A minority view suggests
a diphyletic origin with true seals being related to the mustelids (otters
and ferrets). The phylogenetic relationships of the walrus to other
pinniped and carnivore families are also still particularly problematic.
Here we examined the relative support for mono- and diphyletic hypotheses
using DNA sequence data from the mitochondrial small subunit (12S) rRNA and
cytochrome b genes. We first analyzed a small group of taxa representing
the three pinniped families (Phocidae, Otariidae, and Odobenidae) and
caniform carnivore families thought to be related to them. We inferred
phylogenetic reconstructions from DNA sequence data using standard
parsimony and neighbor-joining algorithms for phylogenetic inference as
well as a new method called spectral analysis (Hendy and Penny) in which
phylogenetic information is displayed independently of any selected tree.
We identified and compensated for potential sources of error known to lead
to selection of incorrect phylogenetic trees. These include sampling error,
unequal evolutionary rates on lineages, unequal nucleotide composition
among lineages, unequal rates of change at different sites, and
inappropriate tree selection criteria. To correct for these errors, we
performed additional transformations of the observed substitution patterns
in the sequence data, applied more stringent structural constraints to the
analyses, and included several additional taxa to help resolve long,
unbranched lineages in the tree. We find that there is strong support for a
monophyletic origin of the pinnipeds from within the caniform carnivores,
close to the bear/raccoon/panda radiation. Evidence for a diphyletic origin
was very weak and can be partially attributed to unequal nucleotide
compositions among the taxa analyzed. Subsequently, there is slightly more
evidence for grouping the walrus with the eared seals versus the true
seals. A more conservative interpretation, however, is that the walrus is
an early, but not the first, independent divergence from the common
pinniped ancestor.
相似文献
150.
Tiffany A. Yap Lauren Gillespie Silas Ellison Sandra V. Flechas Michelle S. Koo Ari E. Martinez Vance T. Vredenburg 《EcoHealth》2016,13(1):145-150
Batrachochytrium dendrobatidis (Bd), an amphibian fungal pathogen, has infected >500 species and caused extinctions or declines in >200 species worldwide. Despite over a decade of research, little is known about its invasion biology. To better understand this, we conducted a museum specimen survey (1910–1997) of Bd in amphibians on 11 California islands and found a pattern consistent with the emergence of Bd epizootics on the mainland, suggesting that geographic isolation did not prevent Bd invasion. We propose that suitable habitat, host diversity, and human visitation overcome isolation from the mainland and play a role in Bd invasion. 相似文献