Niall Barron scite author profile

Skeletal muscle contraction increases intracellular ATP turnover, calcium flux, and mechanical stress, initiating signal transduction pathways that modulate peroxisome proliferator-activated receptor γ coactivator-1α (PGC-1α)-dependent transcriptional programmes. The purpose of this study was to determine if the intensity of exercise regulates PGC-1α expression in human skeletal muscle, coincident with activation of signalling cascades known to regulate PGC-1α transcription. Eight sedentary males expended 400 kcal (1674 kj) during a single bout of cycle ergometer exercise on two separate occasions at either 40% (LO) or 80% (HI) ofV O 2 peak . Skeletal muscle biopsies from the m. vastus lateralis were taken at rest and at +0, +3 and +19 h after exercise. Energy expenditure during exercise was similar between trials, but the high intensity bout was shorter in duration (LO, 69.9 ± 4.0 min; HI, 36.0 ± 2.2 min, P < 0.05) and had a higher rate of glycogen utilization (P < 0.05). PGC-1α mRNA abundance increased in an intensity-dependent manner +3 h after exercise (LO, 3.8-fold; HI, 10.2-fold, P < 0.05). AMP-activated protein kinase (AMPK) (2.8-fold, P < 0.05) and calcium/calmodulin-dependent protein kinase II (CaMKII) phosphorylation (84%, P < 0.05) increased immediately after HI but not LO. p38 mitogen-activated protein kinase (MAPK) phosphorylation increased after both trials (∼2.0-fold, P < 0.05), but phosphorylation of the downstream transcription factor, activating transcription factor-2 (ATF-2), increased only after HI (2.4-fold, P < 0.05). Cyclic-AMP response element binding protein (CREB) phosphorylation was elevated at +3 h after both trials (∼80%, P < 0.05) and class IIa histone deacetylase (HDAC) phosphorylation increased only after HI (2.0-fold, P < 0.05). In conclusion, exercise intensity regulates PGC-1α mRNA abundance in human skeletal muscle in response to a single bout of exercise. This effect is mediated by differential activation of multiple signalling pathways, with ATF-2 and HDAC phosphorylation proposed as key intensity-dependent mediators.

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Steroid Receptor RNA Activator Stimulates Proliferation as Well as Apoptosis In Vivo

Lanz

Chua

Barron

et al. 2003

Molecular and Cellular Biology

137

130

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Steroid receptor RNA activator (SRA) is an RNA that coactivates steroid hormone receptor-mediated transcription in vitro. Its expression is strongly up-regulated in many human tumors of the breast, uterus, and ovary, suggesting a potential role in pathogenesis. To assess SRA function in vivo, a transgenic-mouse model was generated to enable robust human SRA expression by using the transcriptional activity of the mouse mammary tumor virus long terminal repeat. Transgenic SRA was expressed in the nuclei of luminal epithelial cells of the mammary gland and tissues of the male accessory sex glands. Distinctive evidence for SRA function in vivo was obtained from the elevated levels of estrogen-controlled expression of progesterone receptor in transgenic mammary glands. Although overexpression of SRA showed strong promoting activities on cellular proliferation and differentiation, no alterations progressed to malignancy. Epithelial hyperplasia was accompanied by increased apoptosis, and preneoplastic lesions were cleared by focal degenerative transformations. In bitransgenic mice, SRA also antagonized ras-induced tumor formation. This work indicates that although coactivation of steroid-dependent transcription by SRA is accompanied by a proliferative response, overexpression is not in itself sufficient to induce turmorigenesis. Our results underline an intricate relationship between the different physiological roles of steroid receptors in conjunction with the RNA activator in the regulation of development, tissue homeostasis, and reproduction.Cancer is still a major cause of morbidity in humans due to the limited arsenal of therapies available. This lack of treatment options reflects a dearth in both general and specific scientific knowledge of tumorigenesis that exists largely because we still have not identified all the key molecular players responsible for controlled gene expression.We have previously reported the isolation and functional characterization of a novel transcriptional coactivator, steroid receptor RNA activator (SRA) (18). SRA acts as an RNA transcript by regulating eukaryotic gene expression mediated by the steroid receptors (SRs), which play critical roles in eukaryotic development, metabolism, reproduction, and disease (23, 45). In mammalian tissue culture cells, recombinant SRA showed potent coactivation activity with the receptors for androgens (AR), estrogens (ER), glucocorticoids, and progestins (PR). However, no evidence has yet been obtained for a direct binding of SRA to SRs. We found SRA in a protein complex together with SRC coactivators and therefore proposed that SRA-containing ribonucleoprotein complexes accentuate transcriptional specificity by integrating coregulator activities upon selective binding to SRs (18). Endorsing this model, SRA was shown to associate with the DEAD box proteins p72/p68 to act as an ER␣-specific ribonucleoprotein coactivator complex, which stimulates the amino-terminal activation domain of the receptor while concurrently integrating SRC/p160-mediated AF2 coa...

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Copper Phenanthrene Oxidative Chemical Nucleases

et al. 2014

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Here we report the synthesis and isolation of a series of bis-chelate Cu(2+) phenanthroline-phenazine cationic complexes of [Cu(DPQ)(Phen)](2+), [Cu(DPPZ)(Phen)](2+), and [Cu(DPPN)(Phen)](2+) (where Phen = 1,10-phenanthroline, DPQ = dipyridoquinoxaline, DPPZ = dipyridophenazine, and DPPN = benzo[i]dipyridophenazine). These compounds have enhanced DNA recognition relative to the well-studied chemical nuclease, [Cu(Phen)2](2+) (bis-Phen), with calf thymus DNA binding constants of DPQ and DPPZ agents (∼10(7) M(bp)(-1)) being the highest currently known for Cu(2+) phenanthrene compounds. Complex DNA binding follows DPQ ≈ DPPZ > DPPN > bis-Phen, with fluorescence quenching and thermal melting experiments on poly[d(A-T)2] and poly[d(G-C)2] supporting intercalation at both the minor and major groove. Phenazine complexes, however, show enhanced targeting and oxidative cleavage on cytosine-phosphate-guanine-rich DNA and have comparable in vitro cytotoxicity toward the cisplatin-resistant ovarian cancer line, SKOV3, as the clinical oxidative DNA-damaging drug doxorubicin (Adriamycin). In this study we also describe how a novel "on-chip" method devised for the Bioanalyser 2100 was employed to quantify double-stranded DNA damage, with high precision, by the complex series on pUC19 DNA (49% A-T, 51% G-C). Both DPQ and bis-Phen complexes are highly efficient oxidizers of pUC19, with DPQ being the most active of the overall series. It is apparent, therefore, that oxidative chemical nuclease activity on homogeneous canonical DNA is not entirely dependent on dynamic nucleotide binding affinity or intercalation, and this observation is corroborated through catalytic interactions with the superoxide anion radical and Fenton breakdown of hydrogen peroxide.

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Engineering CHO cell growth and recombinant protein productivity by overexpression of miR-7

Barron

Kumar

Sánchez

et al. 2011

Journal of Biotechnology

106

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MiRNA-29a regulates the expression of numerous proteins and reduces the invasiveness and proliferation of human carcinoma cell lines

Muniyappa

Dowling

Henry

et al. 2009

European Journal of Cancer

109

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Subsequent studies using siRNA to knock down several candidate proteins from the 2D DIGE experiment identified RAN (a member of the RAS oncogene family) which significantly reduced the invasive capability of a model lung cancer cell line.We conclude that miR-29a has a significant anti-invasive and anti-proliferative effect on lung cancer cells in vitro and functions as an anti-oncomir. This function is likely mediated through the post-transcriptional fine tuning of the cellular levels of several proteins, both directly and indirectly, and in particular we provide some evidence that RAN represents one of these.

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Niall Barron

Exercise intensity-dependent regulation of peroxisome proliferator-activated receptor γ coactivator-1α mRNA abundance is associated with differential activation of upstream signalling kinases in human skeletal muscle

Steroid Receptor RNA Activator Stimulates Proliferation as Well as Apoptosis In Vivo

Copper Phenanthrene Oxidative Chemical Nucleases

Engineering CHO cell growth and recombinant protein productivity by overexpression of miR-7

MiRNA-29a regulates the expression of numerous proteins and reduces the invasiveness and proliferation of human carcinoma cell lines

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