The list of long non-coding RNAs (lncRNAs) involved in the p53 pathway of the DNA damage response is rapidly expanding, but whether lncRNAs have a role in maintaining the de novo structure of DNA is unknown. Here, we demonstrate that the p53-responsive lncRNA GUARDIN is important for maintaining genomic integrity under steady-state conditions and after exposure to exogenous genotoxic stress. GUARDIN is necessary for preventing chromosome end-to-end fusion through maintaining the expression of telomeric repeat-binding factor 2 (TRF2) by sequestering microRNA-23a. Moreover, GUARDIN also sustains breast cancer 1 (BRCA1) stability by acting as an RNA scaffold to facilitate the heterodimerization of BRCA1 and BRCA1-associated RING domain protein 1 (BARD1). As such, GUARDIN silencing triggered apoptosis and senescence, enhanced cytotoxicity of additional genotoxic stress and inhibited cancer xenograft growth. Thus, GUARDIN may constitute a target for cancer treatment.
Sulforaphane (SFN) is a natural isothiocyanate that is present in cruciferous vegetables such as broccoli and cabbage. Previous studies have shown that SFN is effective in preventing carcinogenesis induced by carcinogens in rodents, which is related in part to its potent anti-inflammation properties. In the present study, we compared the anti-inflammatory effect of SFN on LPS-stimulated inflammation in primary peritoneal macrophages derived from Nrf2 (+/+) and Nrf2 mice. Pretreatment of SFN in Nrf2 (+/+) primary peritoneal macrophages potently inhibited LPS-stimulated mRNA expression, protein expression and production of TNFα, IL-1β, Cox-2 and iNOS. HO-1 expression, which is significantly augmented in LPS-stimulated Nrf2 (+/+) primary peritoneal macrophages by SFN. Interestingly, the anti-inflammatory effect was attenuated in Nrf2 (−/−) primary peritoneal macrophages. We concluded that SFN exerts its anti-inflammatory activity mainly via activation of Nrf2 in mouse peritoneal macrophages.
The tumor suppressor p53 is activated in response to cellular stress to prevent malignant transformation by activation of the DNA repair machinery to preserve the cell, or by induction of apoptosis to eliminate the cell should the damage prove irrevocable. The gene encoding p53 frequently undergoes inactivating mutations in many human cancers, but WT p53 is often expressed at high levels in melanoma, which, as judged from the malignant nature of the disease, fails to act as an effective tumor suppressor. Here we show that p53 directly up-regulates microRNA-149* (miR-149*) that in turn targets glycogen synthase kinase-3α, resulting in increased expression of Mcl-1 and resistance to apoptosis in melanoma cells. Although deficiency in miR-149* undermined survival of melanoma cells and inhibited melanoma growth in a mouse xenograft model, elevated expression of miR-149* was found in fresh human metastatic melanoma isolates, which was associated with decreased glycogen synthase kinase-3α and increased Mcl-1. These results reveal a p53-dependent, miR-149*–mediated pathway that contributes to survival of melanoma cells, provides a rational explanation for the ineffectiveness of p53 to suppress melanoma, and identifies the expression of miR-149* as a mechanism involved in the increased expression of Mcl-1 in melanoma cells.
A reduced
PRF mechanism was proposed for combustion simulations
of PRF and diesel/gasoline fuels based on the latest LLNL mechanism.
The reduced PRF mechanism consists of 73 species and 296 reactions.
The major reaction pathways of the detailed mechanism were mostly
retained in the reduced mechanism, which ensures its predictive capability,
the ability to be extended to other fuels, and the high computational
efficiency of the reduced mechanism. The important reaction pathways
and reactions in the reduced mechanism are identified and discussed.
Furthermore, the reaction rates of two reactions, HO2 +
OH = HO2 + O2 and HO2 + HO2 = H2O2 + O2, in the hydrogen submechanism
are discussed and updated. The reduced mechanism was validated with
measured ignition delays, laminar flame speeds, premixed flame species
concentrations, jet stirred reactor and shock tube species profiles,
and PRF fuel HCCI and PPCI combustion and diesel/gasoline direct injection
spray combustion data. The reduced mechanism predicts well the ignition
timings, flame speeds, and important species concentrations under
various validation conditions and shows reliable performance under
different engine validation conditions. The overall results suggest
that the current mechanism can provide reliable predictions for PRF
and diesel/gasoline combustion CFD simulations.
Inositol polyphosphate 5-phosphatases can terminate downstream signalling of phosphatidylinositol-3 kinase; however, their biological role in the pathogenesis of cancer is controversial. Here we report that the inositol polyphosphate 5-phosphatase, phosphatidylinositol 4,5-bisphosphate 5-phosphatase, has a tumour suppressive role in melanoma. Although it is commonly downregulated in melanoma, overexpression of phosphatidylinositol 4,5-bisphosphate 5-phosphatase blocks Akt activation, inhibits proliferation and undermines survival of melanoma cells in vitro, and retards melanoma growth in a xenograft model. In contrast, knockdown of phosphatidylinositol 4,5-bisphosphate 5-phosphatase results in increased proliferation and anchorage-independent growth of melanocytes. Although DNA copy number loss is responsible for downregulation of phosphatidylinositol 4,5-bisphosphate 5-phosphatase in a proportion of melanomas, histone hypoacetylation mediated by histone deacetylases HDAC2 and HDAC3 through binding to the transcription factor Sp1 at the PIB5PA gene promoter appears to be another commonly involved mechanism. Collectively, these results establish the tumour suppressive role of phosphatidylinositol 4,5-bisphosphate 5-phosphatase and reveal mechanisms involved in its downregulation in melanoma.
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