774 research outputs found
Oxidants induce transcriptional activation of manganese superoxide dismutase in glomerular cells
Oxidants induce transcriptional activation of manganese superoxide dismutase in glomerular cells. Cultured rat glomerular mesangial and epithelial cells and bovine glomerular endothelial cells were exposed to various concentrations of hydrogen peroxide (H2O2). Mesangial cells treated with 10 to 100 µM H2O2 for 24 hours showed a two- to ninefold increase in Mn-SOD mRNA expression associated with significantly (P < 0.005) increased Mn-SOD activity (22.2 ± 1.2 and 12.2 ± 0.7 µ/mg protein for H2O2 100 µM treated and untreated cells, respectively). In contrast, expression of Cu-Zn SOD and β-actin mRNA was not affected by H2O2. Induction of Mn-SOD mRNA by H2O2 was inhibited by actinomycin-D (4 µM) treatment. Glomerular endothelial cells also showed an increase in Mn-SOD mRNA expression following 100 µM H2O2 treatment, as did glomerular epithelial cells following treatment with 500 and 1000 µM H2O2 but not with 100 µM. Transcriptional activity of the Mn-SOD gene was assessed with a fusion reporter gene consisting of a luciferase gene (pGL2P) and a 1.2 kb fragment from the rat Mn-SOD genomic DNA (-806 to +408 bp of the transcription initiation site, -806:+408). The construct was transfected into rat glomerular mesangial and epithelial cells. Mesangial and epithelial cells transfected with pGL2P (-806:+408) and treated with H2O2 (100 µM and 1 mM for mesangial and epithelial cells, respectively) demonstrated some threefold increase in luciferase activity, whereas cells transfected with pGL2P lacking the Mn-SOD fragment did not show changes in luciferase activity following H2O2 treatment. Other oxidants, namely α- and β-naphthoflavone (50 µM to mesangial cells) and puromycin aminonucleoside (25 to 50 µg/ml to epithelial cells), also induced transcriptional activation (2- to 5-fold increase) in these cells. Thus, Mn-SOD levels in glomerular cells are enhanced when they are exposed to oxidant stress, and this up-regulation involves transcriptional activation. Further, the Mn-SOD gene contains enhancer element(s) which respond to diverse oxidant stress. The inducibility by oxidants of local Mn-SOD demonstrates that glomerular SOD may play a decisive role in the pathogenesis of glomerular injuries in which the balance between oxidants and antioxidants is critical
Beta3-Adrenoceptor Agonists: Possible Role in the Treatment of Overactive Bladder
In the present review article, we present an overview of beta-adrenoceptor (β-AR) subtype expression at the mRNA and receptor protein levels in the human detrusor, the in vitro and in vivo bladder function of the β3-AR, the in vivo effect of β3-AR agonists on detrusor overactivity in animal models, and the available results of clinical trials of β3-AR agonists for treating overactive bladder (OAB). There is a predominant expression of β3-AR mRNA in human bladder, constituting 97% of total β-AR mRNA. Also, functionally, the relaxant response of human detrusor to catecholamines is mainly mediated through the β3-ARs. Moreover, the presence of β1-, β2-, and β3-AR mRNAs in the urothelium and suburothelial layer of human bladder has been identified. Stimulation of urothelial β-ARs results in the release of nitric oxide and an unknown substance inhibiting detrusor contractions from the urothelium. Intravenous application of CL316,243, a selective β3-AR agonist, in rats selectively inhibits mechano-sensitive Aδ-fiber activity of the primary bladder afferents. A number of selective β3-AR agonists are currently being evaluated in clinical trials for OAB with promising preliminary results. In conclusion, the β3-AR agonists are the most notable alternative class of agents to antimuscarinics in the pharmacological treatment of OAB. The β3-AR agonists act to facilitate bladder storage function probably through at least two mechanisms: first, direct inhibition of the detrusor, and second, inhibition of bladder afferent neurotransduction
Pulmonary fibrosis—an uncommon manifestation of anti-myeloperoxidase-positive systemic vasculitis?
Small vessel vasculitides such as microscopic polyangiitis and Wegener’s granulomatosis commonly involve the kidney and lung, with alveolar haemorrhage being the commonest manifestation of pulmonary involvement. Here we describe a patient who developed acute renal failure and pulmonary haemorrhage with positive autoantibodies against myeloperoxidase 1 year after a diagnosis of usual interstitial pneumonia had been made and we discuss the uncommon association of pulmonary fibrosis and anti-myeloperoxidase positive vasculitis
Impact of the Ce states in the electronic structure of the intermediate-valence superconductor CeIr
The electronic structure of the -based superconductor
was studied by photoelectron spectroscopy. The energy distribution of the
states were revealed by the resonant
photoelectron spectroscopy. The states were mostly distributed
in the vicinity of the Fermi energy, suggesting the itinerant character of the
states. The contribution of the states to the
density of states (DOS) at the Fermi energy was estimated to be nearly half of
that of the states, implying that the states
have a considerable contribution to the DOS at the Fermi energy. The
core-level and X-ray absorption spectra were
analyzed based on a single-impurity Anderson model. The number of the
states in the ground state was estimated to be ,
which is much larger than the values obtained in the previous studies (i.e.,
).Comment: 9 pages, 4 figures, accepted to Electronic Structur
Role of the node in controlling traffic of cadmium, zinc, and manganese in rice
Heavy metals are transported to rice grains via the phloem. In rice nodes, the diffuse vascular bundles (DVBs), which enclose the enlarged elliptical vascular bundles (EVBs), are connected to the panicle and have a morphological feature that facilitates xylem-to-phloem transfer. To find a mechanism for restricting cadmium (Cd) transport into grains, the distribution of Cd, zinc (Zn), manganese (Mn), and sulphur (S) around the vascular bundles in node I (the node beneath the panicle) of Oryza sativa ‘Koshihikari’ were compared 1 week after heading. Elemental maps of Cd, Zn, Mn, and S in the vascular bundles of node I were obtained by synchrotron micro-X-ray fluorescence spectrometry and electron probe microanalysis. In addition, Cd K-edge microfocused X-ray absorption near-edge structure analyses were used to identify the elements co-ordinated with Cd. Both Cd and S were mainly distributed in the xylem of the EVB and in the parenchyma cell bridge (PCB) surrounding the EVB. Zn accumulated in the PCB, and Mn accumulated around the protoxylem of the EVB. Cd was co-ordinated mainly with S in the xylem of the EVB, but with both S and O in the phloem of the EVB and in the PCB. The EVB in the node retarded horizontal transport of Cd toward the DVB. By contrast, Zn was first stored in the PCB and then efficiently transferred toward the DVB. Our results provide evidence that transport of Cd, Zn, and Mn is differentially controlled in rice nodes, where vascular bundles are functionally interconnected
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