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991.
Hepcidin was originally identified as a liver-expressed antimicrobial peptide but further studies have shown that it also
has a key role in iron homeostasis. The NMR structure of the synthetic peptides reveal a distorted beta-sheet containing 4
disulphide bridges, with an unusual vicinal disulphide bridge which has been suggested to be functionally significant. In
this study, we report the presence of co-purified iron with the urine-purified 20 and 25 residue hepcidins. Since the published
structure does not allow metal binding, the interaction of hepcidin with metals was investigated for other possible structural
conformations by threading its primary sequence onto existing 3D folds. Several alignments were obtained and the best scores
were used to build a 3D model of hepcidin containing one atom of iron. The new 3D structure, that contains only reduced Cys
residues, is completely different from the solved structure of the synthetic peptide. Although the model presented here shows
only one metal bound to the peptide, the binding of several metal atoms cannot be excluded from such a short flexible peptide.
The co-purification of iron with both peptides, together with our 3D model, suggest a conformational polymorphism for hepcidin,
reminiscent of the iron regulatory proteins IRPs. 相似文献
992.
Characterization of TonB Interactions with the FepA Cork Domain and FecA N-terminal Signaling Domain
R. Sean Peacock Valery V. Andrushchenko A. Ross Demcoe Matt Gehmlich Lily Sia Lu Alicia Garcia Herrero Hans J. Vogel 《Biometals》2006,19(2):127-142
The mechanism of TonB dependent siderophore uptake through outer membrane transporters in Gram-negative bacteria is poorly
understood. In an effort to expand our knowledge of the interaction between TonB and the outer membrane transporters, we have
cloned and expressed the FepA cork domain (11–154) from Salmonella typhimurium and characterized its interaction with the periplasmic C-terminal domain of TonB (103–239) by isotope assisted FTIR and NMR
spectroscopy. For comparison we also performed similar experiments using the FecA N-terminal domain (1–96) from Escherichia coli which includes the conserved TonB box. The FepA cork domain was completely unfolded in solution, as observed for the E. coli cork domain previously [Usher et al. (2001) Proc Natl Acad Sci USA 98, 10676–10681]. The FepA cork domain was found to bind to TonB, eliciting essentially the same chemical shift changes in TonB
C-terminal domain as was observed in the presence of TonB box peptides. The FecA construct did not cause this same structural
change in TonB. The binding of the FepA cork domain to TonB-CTD was found to decrease the amount of ordered secondary structure
in TonB-CTD. It is likely that the FecA N-terminal domain interferes with TonB-CTD binding to the TonB box. Binding of the
FepA cork domain induces a loss of secondary structure in TonB, possibly exposing TonB surface area for additional intermolecular
interactions such as potential homodimerization or additional interactions with the barrel of the outer membrane transporter. 相似文献
993.
François Gaboriau Cindy Laupen-Chassay Nicole Pasdeloup Jean-Louis Pierre Pierre Brissot Gérard Lescoat 《Biometals》2006,19(6):623-632
The antiproliferative effects of the iron chelator O-trensox and the ornithine-decarboxylase (ODC) inhibitor alpha-difluoromethylornithine (DFMO) were characterized in the rat hepatoma cell line FAO, the rat liver epithelial cell line (RLEC) and the primary rat hepatocyte cultures stimulated by EGF. We observed that O-trensox and DFMO decreased cell viabilty and DNA replication in the three culture models. The cytostatic effect of O-trensox was correlated to a cytotoxicity, higher than for DFMO, and to a cell cycle arrest in G0/G1 or S phases. Moreover, O-trensox and DFMO decreased the intracellular concentration of spermidine in the three models without changing significantly the spermine level. We concluded that iron, but also polyamine depletion, decrease cell growth. However, the drop in cell proliferation obtained with O-trensox was stronger compared to DFMO effect. Altogether, our data provide insights that, in the three rat liver cell culture models, the cytostatic effect of the iron chelator O-trensox may be the addition of two mechanisms: iron and polyamine depletion. 相似文献
994.
滇池试验围隔内不同形态铁浓度的变化与物化因子的关系 总被引:4,自引:0,他引:4
在蓝藻水华形成以后,通过围隔实验,从2003年6月份到10月份定期采样测定水体中的pH、溶解氧(DO)、水温、总铁、亚铁、过滤性铁(<0.45μm)和可溶性磷的浓度,研究物化因子对不同形态铁浓度变化的影响。实验结果表明,蓝藻水华优势种微囊藻在pH 7—9和水温17.5—20.5℃的条件下,生长旺盛,消耗了大量的亚铁,使亚铁浓度大幅度下降;溶解氧和磷酸盐对亚铁浓度没有显著影响;在水华蓝藻严重发生的条件下,水体中的总铁和过滤性铁浓度没有显著意义的变化,而亚铁浓度的变化与水华蓝藻的种群密度成显著负相关(r=-0.8391,P<0.05)。 相似文献
995.
996.
Hypercholesterolemia is a potential trigger of Alzheimer's disease, and is thought to increase brain levels of beta-amyloid (Abeta) and iron. However, animal models to address the mechanisms by which Abeta and iron accumulation may cause neuronal damage are poorly defined. To address this question, we fed adult rabbits a 1% cholesterol-enriched diet for 7 months. This diet was associated with increased regional deposition of both iron and Abeta peptide in the brain. Iron preferentially accumulated around Abeta plaques in the adjacent cortex, but was not found in the hippocampus. Co-localization of iron and Abeta was accompanied by apoptosis, DNA damage, blood-brain barrier (BBB) disruption, as well as dysregulation in the level of the iron-regulatory proteins, ferritin and heme-oxygenase-1. We further demonstrate that the cholesterol diet-induced apoptosis is mediated by the activation of the endoplasmic reticulum stress pathway, involving the down-regulation of the endoplasmic reticulum chaperones, calreticulin, grp78 and grp94, and the activation of the growth and arrest DNA damage protein, gadd153. Our results suggest that BBB damage and disturbances in iron metabolism may render the cortex more vulnerable than the hippocampus to the cholesterol-induced cellular stress. 相似文献
997.
The brain uses massive amounts of oxygen, generating large quantities of reactive oxygen species (ROS). Because of its lipid composition, rich in unsaturated fatty acids, the brain is especially vulnerable to ROS. Furthermore, oxidative damage in the brain is often associated with iron, which has pro-oxidative properties. Iron-mediated oxidative damage in the brain is compounded by the fact that brain iron distribution is non-uniform, being particularly high in areas sensitive to neurodegeneration. This work was aimed to further our understanding of the cellular mechanisms by which SHSY5Y neuroblastoma cells adapt to, and survive increasing iron loads. Using an iron accumulation protocol that kills about 50% of the cell population, we found by cell sorting analysis that the SHSY5Y sub-population that survived the iron loading arrested in the G(0) phase of the cell cycle. These cells expressed neuronal markers, while their electrical properties remained largely unaltered. These results suggest that upon iron challenge, neuroblastoma cells respond by entering the G(0) phase, somehow rendering them resistant to oxidative stress. A similar physiological condition might be involved in neuronal survival in tissues known to accumulate iron with age, such as the hippocampus and the substantia nigra pars compacta. 相似文献
998.
Kaiser M Maletzki I Hülsmann S Holtmann B Schulz-Schaeffer W Kirchhoff F Bähr M Neusch C 《Journal of neurochemistry》2006,99(3):900-912
Transgenic mice expressing the superoxide dismutase G93A mutation (SOD1(G93A)) were used to investigate the role of glial inwardly rectifying K(+) (Kir)4.1 channels, which buffer extracellular K(+) increases in response to neuronal excitation. A progressive decrease in Kir4.1 immunoreactivity was observed predominantly in the ventral horn of SOD1(G93A) mutants. Immunoblotting of spinal cord extracts mirrored these changes by showing a loss of Kir4.1 channels from presymptomatic stages onwards. Kir4.1 channels were found to be expressed in the spinal cord grey matter, targetting astrocytes and clustering around capillaries, supporting their role in clearance of extracellular K(+). To understand the functional implications of extracellular K(+) increases, we challenged the NSC34 motor neurone cell line with increasing extracellular K(+) concentrations. Exposure to high extracellular K(+) induced progressive motor neurone cell death. We suggest that loss of Kir4.1 impairs perineural K(+) homeostasis and may contribute to motor neurone degeneration in SOD1(G93A) mutants by K(+) excitotoxic mechanisms. 相似文献
999.
Payabvash S Beheshtian A Salmasi AH Kiumehr S Ghahremani MH Tavangar SM Sabzevari O Dehpour AR 《Life sciences》2006,79(10):972-980
Recently many researchers have proposed a protective role for morphine against tumor growth and metastasis, especially through induction of apoptosis in tumoral cells. These findings may lead to underestimation of cytotoxic effects of opioid drugs which are usually expected only at high doses. The present study was conducted to clarify whether repeated morphine administration, which is commonly used for relief from chronic pain, would interfere with liver antioxidant defence and hepatocytes vitality. Morphine was injected repeatedly at doses that have been reported to relieve cancer pain and reduce tumor spread in mice (5 and 10 mg/kg/day for nine consecutive days). The changes in hepatic glutathione concentration, its synthesis pathway and enzymatic antioxidant defense revealed the pro-oxidant effects of chronic morphine treatment on the liver. None of these changes were observed in those mice that were co-treated with naltrexone (opioid antagonist) and same doses of morphine. However induction of liver conjugating enzymes following morphine treatment was not receptor mediated. Moreover, chronic morphine treatment induced hepatocytes apoptosis. Interestingly, the apoptotic changes were antagonized by co-administration of either naltrexone or thiol antioxidant. In conclusion, although hepatotoxic effects of morphine at high doses have been reported previously, our findings propose that repeated morphine administration even at lower doses would induce oxidative stress in the liver, which may contribute to induction of apoptosis in hepatocytes. Since many of the observed adverse effects were mediated by opioid receptors, our results suggest that other opioid analgesics should also be used more cautiously. 相似文献