Short sleep duration was associated with weight gain and the development of obesity over 1 year in men, but not in women.
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We have demonstrated that chronic stimulation of the prostaglandin E 2 -cAMP-dependent protein kinase A (PKA) signal pathway plays a critical role in intimal cushion formation in perinatal ductus arteriosus (DA) through promoting synthesis of hyaluronan. We hypothesized that Epac, a newly identified effector of cAMP, may play a role in intimal cushion formation (ICF) in the DA distinct from that of PKA. In the present study, we found that the levels of Epac1 and Epac2 mRNAs were significantly up-regulated in the rat DA during the perinatal period. A specific EP4 agonist, ONO-AE1-329, Prostaglandin E 2 (PGE 2 )3 is the most potent vasodilatory lipid mediator in the ductus arteriosus (DA), a fetal arterial connection between the pulmonary artery and the descending aorta (1). PGE 2 increases the intracellular concentration of cAMP, which activates cAMP-dependent protein kinase A (PKA), resulting in vasodilation in the DA (1, 2). In addition to its vasodilatory effect, our recent study has identified that chronic PGE 2 stimulation has another essential effect on DA development, namely intimal cushion formation (ICF) (3). Briefly, via EP4, a predominant PGE 2 receptor in the DA, the PGE 2 -cAMP-PKA stimulation up-regulates hyaluronic acid (HA) synthases, which increases HA production. Accumulation of HA then promotes smooth muscle cell (SMC) migration into the subendothelial layer to form intimal thickening. ICF then leads to luminal narrowing, helping adhesive occlusion of the vascular lumen and thus complete anatomical closure of the DA.A new target of cAMP, i.e. an exchange protein activated by cAMP, has recently been discovered; it is called Epac (4).
L-buthionine (S,R)-sulfoximine (BSO), an inhibitor of glutathione (GSH) synthesis, was administered to mice via drinking water for 14 days in order to establish an animal model with continuously depleted levels of GSH. No toxicity was observed at 20 mM BSO, even though a significant decrease in liver weight was observed at 30 mM BSO. GSH levels in the liver, kidney, brain, lung, heart, spleen, pancreas, small intestine, large intestine, skeletal muscle, plasma and blood cells from mice given 20 mM of BSO were all less than those from the control mice continuously throughout a 24-hr period. The ratios of the GSH levels to that of the control were 46.4% and 16.7% in the liver and kidney, respectively, suggesting a decrease in GSH conjugation activity in vivo by GSH depletion. Liver cytochrome P450 content and UDP-glucuronosyltransferase activity to p-nitrophenol were not influenced by the BSO dosing. To confirm the adequacy of this GSH-depletion model, 0.125 or 0.25% of acetaminophen (APAP) was administered via diet to this model for 14 days. Nine out of the ten mice given both 20 mM BSO and 0.25% APAP died on Day 2, and remarkable necrosis was observed in the hepatocytes and renal tubular epithelium. Moreover, focal necrosis of hepatocytes with proliferation of fibroblasts was observed on Day 15 in some mice coadministered 20 mM BSO and 0.125% APAP. However, no toxicity was observed in mice given APAP alone. Based on these results, a mouse given 20 mM of BSO via drinking water for 14 days was concluded to be an animal model with continuously depleted levels of GSH in various organs without toxicity. This model shows high susceptibility to toxicity induced by chemicals which are metabolized to electrophilic and reactive metabolite(s), such as APAP.
The pK values of thermospermine, a novel asymmetric tetraamine (4,8-diazadodecane-l,12-diamine), have been determined for the first time by the conventional titration method with subsequent data analyses. It was found to be the most basic polyamine among naturally occurring tetraamines. The I5N N M R titration method was applied to determine its protonation site. Natural-abundance I5N magnetic resonance spectra of the polyamine have been recorded as a function of pH from its free to the protonated form. Its apparent pK values, as well as the intrinsic chemical shifts for each stage of protonation, have been calculated from the N M R titration curve by using a nonlinear least-squares method. The four protonation sites of thermospermine have been successfully determined to be Nt2, N', N-8, and N-4 in chat order from the free to the completely protonated form. In a similar manner the protonation sites of spermidine and two symmetric tetraamines, thermine and spermine, have been established. I3C N M R experiments for the four polyamines were almost consistent with those of I5N NMR. Owing to the much higher concentration of the polyamines furnished for N M R titration experiments, the pK values obtained by NMR were larger than those derived by the conventional titration methods.A considerable number of observations show a correlation of enhanced synthesis of polyamines with rapid growth or cell proliferation [1,2]. From the point of view of the physiological role of polyamines in cells, polyamines were implicated as regulators of cell proliferative activity [3-S]. Thus it is tempting to speculate that association as well as dissociation of polyamines with biological macromolecules may be controlled dynamically. In fact, it has been shown that polyamines can bind with nucleic acids [S -81 and that they exert a remarkable stabilization of a teritary structure of the nucleic acids [9 -121. This led us to determine the protonation sites in polyamines and the corresponding pK values, and to examine their effect on the interaction with biological macromolecules.The pK values of several naturally occurring and synthetic polyamines have been determined by means of potentiometric titration methods [I 3 -IS]. However, the pK values of thermospermine, i.e. 4,s-diazadodecane-l , 12-diamine have remained undetermined. This polyamine is a new asymmetric tetraamine which was found in an extremely thermophilic microorganism, Thermus tl~rrmnphilus, and its structure has been determined [16]. Thus we synthesized it and measured the p K values by potentiometric titration.Determination of the protonation sites in polyamines has been attempted by calorimetric measurements [I 7,181 and the calculation of protonation enthalpy by applying quantum chemical methods [I 91. These attempts were almost successfull, but they are indirect methods. NMR titration, on the other hand, provides pK values and information about the protonation pattern, since chemical shifts of the nuclei at the basic sites are often markedly influenced by the ionization o...
In chronic obstructive pulmonary disease (COPD) which consists of emphysema and chronic bronchitis, alveolar tissue and/or bronchiolar walls are progressively destroyed. This suggests cell death by necrosis and/or apoptosis although no direct evidence of apoptosis has been reported. It was speculated that the apoptosis-related factors are associated with the progression of COPD. Fas/Apo-1 receptor (Fas), Fas ligand (Fas-L) and soluble Fas ligand (sFas-L) are inducers, while soluble Fas (sFas) is an inhibitor of apoptosis. In this study, plasma sFas and sFas-L were measured in 19 COPD patients receiving supplemental O2 (severe COPD) and 20 COPD patients not receiving supplemental O2 (mild/moderate COPD). Twenty-two age- and sex-matched healthy volunteers (healthy controls) and 20 patients receiving supplemental O2 and with level of hypoxaemia similar to severe COPD due to other pulmonary diseases (disease controls) were also examined. Plasma sFas-L was within normal limits in all groups. Plasma sFas levels were similar among healthy controls, disease controls, and mild/moderate COPD patients, but significantly increased in severe COPD (2.6 +/- 1.1, 2.6 +/- 0.2, 2.8 +/- 0.2 and 4.8 +/- 1.0 ng ml-1, respectively). Although PaO2 was lower in severe COPD than in mild/moderate COPD, and PaCO2 was higher in severe COPD than in mild/moderate COPD, they were close between severe COPD and disease controls. Tumour necrosis factor-alpha (TNF-alpha), interleukin 6 (IL-6) and C-reactive protein (CRP) were increased in patients with COPD, but were similar in both severe and mild/moderate COPD patients. We conclude that increased plasma sFas, which is independent of hypoxaemia, and increases in PaCO2, TNF-alpha, IL-6 and inflammation, may be associated with progression of COPD.
Objectives The maintenance of infectivity of influenza viruses on the surfaces of personal protective equipment and clothing is an important factor in terms of controlling viral cross-infection in the environment and preventing contact infection. The aim of this study was to determine if laboratory-grown influenza A (H1N1) virus maintained infectivity on the surfaces of personal protective equipment and clothing used in healthcare settings. Methods Influenza A virus (0.5 mL) was deposited on the surface of a rubber glove, an N95 particulate respirator, a surgical mask made of non-woven fabric, a gown made of Dupont Tyvek, a coated wooden desk, and stainless steel. Each sample was left for 1, 8, and 24 h, and hemagglutination (HA) and 50% tissue culture infective dose (TCID 50 )/mL were measured. Results The HA titer of this influenza A virus did not decrease in any of the materials tested even after 24 h. The infectivity of influenza A virus measured by TCID 50 was maintained for 8 h on the surface of all materials, with the exception of the rubber glove for which virus infectivity was maintained for 24 h. Conclusions Our results indicate that the replacement/ renewal of personal protective equipment and clothing by healthcare professionals in cases of exposure to secretions and droplets containing viruses spread by patients is an appropriate procedure to prevent cross-infection.
Defects in Fas-mediated apoptosis are implicated in autoimmune diseases including rheumatoid arthritis (RA). Although induction of Fas-mediated apoptosis could have therapeutic effects on these diseases, it might cause deleterious effects in liver as Fas ligand or an agonistic anti-murine Fas antibody Jo2 causes severe hepatic injury in mice. We report here on the interesting characteristics of the newly obtained anti-Fas mAb, HFE7A, which cross-reacts with the Fas molecules of various species ranging from human to mouse and mitigates autoimmune symptoms without hepatotoxicity in mice. The administration of HFE7A to mice induced apoptosis in the thymocytes, although administration of HFE7A to mice or to marmosets did not induce any sign of hepatitis. The effect of HFE7A on liver is different from that of anti-murine Fas antibody Jo2, which causes acute and lethal hepatic injury to mice. Administration of HFE7A reduced lymphadenopathy and abnormal T cells in MRL-gld/gld mice. HFE7A induced apoptosis in synovial cells prepared from RA patients. Surprisingly, HFE7A protected mice from fulminant hepatitis induced by Jo2. Therefore, HFE7A is a potential therapeutic antibody not only for autoimmune diseases including RA but also for fulminant hepatitis.
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