833 research outputs found
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Cycling of Cs in soil and vegetation of a flood plain 30 years after initial contamination
FAS and NF-κB signalling modulate dependence of lung cancers on mutant EGFR
Human lung adenocarcinomas with activating mutations in EGFR (epidermal growth factor receptor) often respond to treatment with EGFR tyrosine kinase inhibitors (TKIs), but the magnitude of tumour regression is variable and transient. This heterogeneity in treatment response could result from genetic modifiers that regulate the degree to which tumour cells are dependent on mutant EGFR. Through a pooled RNA interference screen, we show that knockdown of FAS and several components of the NF-κB pathway specifically enhanced cell death induced by the EGFR TKI erlotinib in EGFR-mutant lung cancer cells. Activation of NF-κB through overexpression of c-FLIP or IKK (also known as CFLAR and IKBKB, respectively), or silencing of IκB (also known as NFKBIA), rescued EGFR-mutant lung cancer cells from EGFR TKI treatment. Genetic or pharmacologic inhibition of NF-κB enhanced erlotinib-induced apoptosis in erlotinib-sensitive and erlotinib-resistant EGFR-mutant lung cancer models. Increased expression of the NF-κB inhibitor IκB predicted for improved response and survival in EGFR-mutant lung cancer patients treated with EGFR TKI. These data identify NF-κB as a potential companion drug target, together with EGFR, in EGFR-mutant lung cancers and provide insight into the mechanisms by which tumour cells escape from oncogene dependence
Fatty Acids Derived from Royal Jelly Are Modulators of Estrogen Receptor Functions
Royal jelly (RJ) excreted by honeybees and used as a nutritional and medicinal agent has estrogen-like effects, yet the compounds mediating these effects remain unidentified. The possible effects of three RJ fatty acids (FAs) (10-hydroxy-2-decenoic-10H2DA, 3,10-dihydroxydecanoic-3,10DDA, sebacic acid-SA) on estrogen signaling was investigated in various cellular systems. In MCF-7 cells, FAs, in absence of estradiol (E2), modulated the estrogen receptor (ER) recruitment to the pS2 promoter and pS2 mRNA levels via only ERβ but not ERα, while in presence of E2 FAs modulated both ERβ and ERα. Moreover, in presence of FAs, the E2-induced recruitment of the EAB1 co-activator peptide to ERα is masked and the E2-induced estrogen response element (ERE)-mediated transactivation is inhibited. In HeLa cells, in absence of E2, FAs inhibited the ERE-mediated transactivation by ERβ but not ERα, while in presence of E2, FAs inhibited ERE-activity by both ERβ and ERα. Molecular modeling revealed favorable binding of FAs to ERα at the co-activator-binding site, while binding assays showed that FAs did not bind to the ligand-binding pocket of ERα or ERβ. In KS483 osteoblasts, FAs, like E2, induced mineralization via an ER-dependent way. Our data propose a possible molecular mechanism for the estrogenic activities of RJ's components which, although structurally entirely different from E2, mediate estrogen signaling, at least in part, by modulating the recruitment of ERα, ERβ and co-activators to target genes
Adipose tissue pathways involved in weight loss of cancer cachexia
White adipose tissue (WAT) constitutes our most expandable tissue and largest
endocrine organ secreting hundreds of polypeptides collectively termed adipokines.
Changes in WAT mass induce alterations in adipocyte secretion and function, which
are linked to disturbed whole-body metabolism. Although the mechanisms controlling
this are not clear they are dependent on changes in gene expression, a complex process
which is regulated at several levels. Results in recent years have highlighted the role of
small non-coding RNA molecules termed microRNAs (miRNAs), which regulate gene
expression via post-transcriptional mechanisms. The aim of this thesis was to
characterize global gene expression levels and describe novel miRNAs and adipokines
controlling the function of human WAT in conditions with pathological increases or
decreases in WAT mass. Obesity and cancer cachexia were selected as two models
since they are both clinically relevant and characterized by involuntary changes in
WAT mass.
In Study I, expressional analyses were performed in subcutaneous WAT from cancer
patients with or without cachexia and obese versus non-obese subjects. In total, 425
transcripts were found to be regulated in cancer cachexia. Pathway analyses based on
this set of genes revealed that processes involving extracellular matrix, actin
cytoskeleton and focal adhesion were significantly downregulated, whereas fatty acid
metabolism was upregulated comparing cachectic with weight-stable cancer subjects.
Furthermore, by overlapping these results with microarray data from an obesity study,
many transcripts were found to be reciprocally regulated comparing the two conditions.
This suggests that WAT gene expression in cancer cachexia and obesity are regulated
by similar, albeit opposing, mechanisms.
In Study II, the focus was on the family of
fibroblast growth factors (FGFs), members of which have recently been implicated in
the development of obesity and insulin resistance. A retrospective analysis of global
gene expression data identified several FGFs (FGF1/2/7/9/13/18) to be expressed in
WAT. However, only one, FGF1, was actively secreted from WAT and predominantly
so from the adipocyte fraction. Moreover, FGF1 release was increased in obese
compared to non-obese subjects, but was not normalized by weight loss. Although the
clinical significance of these findings is not yet clear, it can be hypothesized that FGF1
may play a role in WAT growth, possibly by promoting fat cell proliferation and/or
differentiation.
In Study III, we identified adipose miRNAs regulated in obesity. Out
of eleven miRNAs regulated by changes in body fat mass, ten controlled the production
of the pro-inflammatory chemoattractant chemokine (C-C motif) ligand 2 (CCL2)
when overexpressed in fat cells and for two, miR-126 and -193b, signaling circuits
were defined.
In Study IV, a novel adipokine, semaphorin 3C (SEMA3C), was
identified by combining transcriptome and secretome data. Detailed studies focusing on
SEMA3C revealed that this factor was secreted from adipocytes and induced the
expression of extracellular matrix and matricellular genes in preadipocytes.
Furthermore, SEMA3C mRNA levels correlated with interstitial fibrosis and insulin
resistance in WAT derived from subjects with a wide range in BMI.
In summary, the results presented in this thesis have delineated transcriptional
alterations in WAT in two clinically relevant conditions, obesity and cancer cachexia.
This has allowed the identification of novel adipokines and microRNAs with potential
pathophysiological importance. These findings form the basis for further studies aiming
at understanding the central role of WAT in disorders associated with metabolic
complications
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Correlation of radioactive waste treatment costs and the environmental impact of waste effluents in the nuclear fuel cycle for use in establishing ''as low as practicable'' guides: nuclear fuel reprocessing
MicroRNA-196a links human body fat distribution to adipose tissue extracellular matrix composition
Abstract
Background: Abdominal fat mass is associated with metabolic risk whilst gluteal femoral fat is paradoxically protective. MicroRNAs are known to be necessary for adipose tissue formation and function but their role in regulating human fat distribution remains largely unexplored.
Methods: An initial microarray screen of abdominal subcutaneous and gluteal adipose tissue, with validatory qPCR, identified microRNA-196a as being strongly differentially expressed between gluteal and abdominal subcutaneous adipose tissue.
Findings: We found that rs11614913, a SNP within pre-miR-196a-2 at the HOXC locus, is an eQTL for miR-196a expression in abdominal subcutaneous adipose tissue (ASAT). Observations in large cohorts showed that rs11614913 increased waist-to-hip ratio, which was driven specifically by an expansion in ASAT. In further experiments, rs11614913 was associated with adipocyte size. Functional studies and transcriptomic profiling of miR-196a knock-down pre-adipocytes revealed a role for miR-196a in regulating pre-adipocyte proliferation and extracellular matrix pathways.
Interpretation: These data identify a role for miR-196a in regulating human body fat distribution.: This work was supported by the Medical Research Council and Novo Nordisk UK Research Foundation (G1001959) and Swedish Research Council. We acknowledge the OBB-NIHR Oxford Biomedical Research Centre and the British Heart Foundation (BHF) (RG/17/1/32663). Work performed at the MRC Epidemiology Unit was funded by the United Kingdom's Medical Research Council through grants MC_UU_12015/1, MC_PC_13046, MC_PC_13048 and MR/L00002/1
Performance Analysis of Data Traffic in Small Cells Networks with User Mobility
We analyze the impact of inter-cell mobility on data traffic performance in dense networks with small cells. To this end, a multi-class queuing system with impatience is proposed as a generic model that captures mobility through the sojourn time of users in the cell. We provide mathematical proofs for the stability and the regularity of this multi-class queuing system. We then show how the performance of a homogeneous network is amenable to the application of the generic model to a single representative cell. This model is applied to derive the throughput of both mobile and static users, along with the handover probability. Numerical evaluation and simulation results are provided to assess the accuracy of the approach; we show, in particular, that both classes of users benefit from a throughput gain induced by the opportunistic displacement of mobile users among cells
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Correlation of radioactive waste treatment costs and the environmental impact of waste effluents in the nuclear fuel cycle for use in establishing ''as low as practicable'' guides: fabrication of light-water reactor fuel from enriched uranium dioxide
Recommended from our members
Correlation of radioactive waste treatment costs and the environmental impact of waste effluents in the nuclear fuel cycle for use in establishing ''as low as practicable'' guides: fabrication of light-water reactor fuels containing plutonium
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