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991.
Caccamo A Maldonado MA Majumder S Medina DX Holbein W Magrí A Oddo S 《The Journal of biological chemistry》2011,286(11):8924-8932
Reducing the mammalian target of rapamycin (mTOR) activity increases lifespan and health span in a variety of organisms. Alterations in protein homeostasis and mTOR activity and signaling have been reported in several neurodegenerative disorders, including Alzheimer disease (AD); however, the causes of such deregulations remain elusive. Here, we show that mTOR activity and signaling are increased in cell lines stably transfected with mutant amyloid precursor protein (APP) and in brains of 3xTg-AD mice, an animal model of AD. In addition, we show that in the 3xTg-AD mice, mTOR activity can be reduced to wild type levels by genetically preventing Aβ accumulation. Similarly, intrahippocampal injections of an anti-Aβ antibody reduced Aβ levels and normalized mTOR activity, indicating that high Aβ levels are necessary for mTOR hyperactivity in 3xTg-AD mice. We also show that the intrahippocampal injection of naturally secreted Aβ is sufficient to increase mTOR signaling in the brains of wild type mice. The mechanism behind the Aβ-induced mTOR hyperactivity is mediated by the proline-rich Akt substrate 40 (PRAS40) as we show that the activation of PRAS40 plays a key role in the Aβ-induced mTOR hyperactivity. Taken together, our data show that Aβ accumulation, which has been suggested to be the culprit of AD pathogenesis, causes mTOR hyperactivity by regulating PRAS40 phosphorylation. These data further indicate that the mTOR pathway is one of the pathways by which Aβ exerts its toxicity and further support the idea that reducing mTOR signaling in AD may be a valid therapeutic approach. 相似文献
992.
Tributyltin (TBT), a persistent lipophilic contaminant found especially in the aquatic environment, is known to be toxic to mitochondria with the F1F0-ATPase as main target. Recently our research group pointed out that in mussel digestive gland mitochondria TBT, apart from decreasing the catalytic efficiency of Mg-ATPase activity, at concentrations ≥1.0 μM in the ATPase reaction medium lessens the enzyme inhibition promoted by the specific inhibitor oligomycin. The present work aims at casting light on the mechanisms involved in the TBT-driven enzyme desensitization to inhibitors, a poorly explored field. The mitochondrial Mg-ATPase desensitization is shown to be confined to inhibitors of transmembrane domain F0, namely oligomycin and N,N′-dicyclohexylcarbodiimide (DCCD). Accordingly, quercetin, which binds to catalytic portion F1, maintains its inhibitory efficiency in the presence of TBT. Among the possible mechanisms involved in the Mg-ATPase desensitization to oligomycin by ≥1.0 μM TBT concentrations, a structural detachment of the two F1 and F0 domains does not occur according to experimental data. On the other hand TBT covalently binds to thiol groups on the enzyme structure, which are apparently only available at TBT concentrations approaching 20 μM. TBT is able to interact with multiple sites on the enzyme structure by bonds of different nature. While electrostatic interactions with F0 proton channel are likely to be responsible for the ATPase activity inhibition, possible changes in the redox state of thiol groups on the protein structure due to TBT binding may promote structural changes in the enzyme structure leading to the observed F1F0-ATPase oligomycin sensitivity loss. 相似文献
993.
Giuliani G Cappelli A Matarrese M Masiello V Turolla EA Monterisi C Fazio F Anzini M Pericot Mohr G Riitano D Finetti F Morbidelli L Ziche M Giorgi G Vomero S 《Bioorganic & medicinal chemistry》2011,19(7):2242-2251
The quinoline nucleus of the previously described 4-phenylquinoline-3-carboxamides NK(1) receptor ligands 7 has been transformed into either substituted or azole-(i.e., triazole or tetrazole) fused pyridine moieties of compounds 9 and 10, respectively, in order to obtain NK(1) receptor ligands showing lower molecular weight or higher hydrophilicity. The program of molecular manipulations produced NK(1) receptor ligands showing affinity in the nanomolar range. In particular, 4-methyl-1-piperazinyl derivative 9j showed an IC(50) value of 4.8 nM and was proved to behave as a NK(1) antagonist blocking Sar(9)-SP-sulfone induced proliferation and migration of microvascular endothelial cells. Therefore, compound 9j has been labeled with [(11)C]CH(3)I (t(1/2)=20.4 min, β(+)=99.8%) starting from the corresponding des-methyl precursor 9i using with a radiochemical yield of about 10% (not decay corrected) and a specific radioactivity>1 Ci/μmol in order to be used as a radiotracer in next PET studies. 相似文献
994.
Genovese S Curini M Gresele P Corazzi T Epifano F 《Bioorganic & medicinal chemistry letters》2011,21(19):5995-5998
Oxyprenylated naturally occurring cinnamic acids displayed efficient and promising biological activities. Aim of this study was to characterize the effects of 3-(4'-geranyl-3'-methoxy)phenyl-2-trans propenoic acid and its selected semi-synthetic analogues, on COX-2 expression and activity, and on COX-1 activity, in purified systems or in whole cell systems. The anti-inflammatory activity of title compounds (1) was tested as inhibition of COX-2 on isolated monocytes stimulated with LPS (10 μg/ml). COX-2 expression was completely suppressed when monocytes were incubated with 100 μM of 3-(4'-geranyl-3'-methoxy)phenyl-2-trans propenoic acid (1) or 3-(4'-isopentenyloxy)phenyl-2-trans propenoic acid (4). Moreover compounds (1) and (4) inhibit dose-dependently LPS-induced COX-2 expression. 相似文献
995.
Emanuele M Costa S Ragusa MA Gianguzza F 《The International journal of developmental biology》2011,55(6):591-596
Over 40 years ago, Allfrey and colleagues (1964) suggested that two histone modifications, namely acetylation and methylation, might regulate RNA synthesis. Nowadays it is universally accepted that activation of gene expression strictly depends on enzymatic mechanisms able to dynamically modify chromatin structure. Here, using techniques including DNaseI hypersensitive site analysis, chomatin immunoprecipitation and quantitative PCR analysis, we have analyzed the dynamics of histone post-translation modifications involved in developmentally/spatially controlled activation of the sea urchin PlTalpha2 tubulin gene. We have demonstrated that only when the PlTalpha2 core promoter chromatin is acetylated on H3K9, tri-methylated on H3K4 and not di-methylated on H3K27, RNA pol II can be enrolled. In contrast, we have shown that when chromatin is methylated both on H3K9 (me2/3) and H3K27 (me2) and mono methylated on H3K4 the promoter is not accessible to RNA pol II. Our results suggest that, during P. lividus embryogenesis, both HAT/HDAC and HMT/HDM activities, which are able to regulate accessibility of the PlTalpha2 basal promoter to RNA polymerase II, are coordinately switched-on. 相似文献
996.
997.
998.
Marsili A Tang D Harney JW Singh P Zavacki AM Dentice M Salvatore D Larsen PR 《American journal of physiology. Endocrinology and metabolism》2011,301(5):E818-E824
The FoxO3-dependent increase in type II deiodinase (D2), which converts the prohormone thyroxine (T(4)) to 3,5,3'-triiodothyronine (T(3)), is required for normal mouse skeletal muscle differentiation and regeneration. This implies a requirement for an increase in D2-generated intracellular T(3) under these conditions, which has not been directly demonstrated despite the presence of D2 activity in skeletal muscle. We directly show that D2-mediated T(4)-to-T(3) conversion increases during differentiation in C(2)C(12) myoblast and primary cultures of mouse neonatal skeletal muscle precursor cells, and that blockade of D2 eliminates this. In adult mice given (125)I-T(4) and (131)I-T(3), the intracellular (125)I-T(3)/(131)I-T(3) ratio is significantly higher than in serum in both the D2-expressing cerebral cortex and the skeletal muscle of wild-type, but not D2KO, mice. In D1-expressing liver and kidney, the (125)I-T(3)/(131)I-T(3) ratio does not differ from that in serum. Hypothyroidism increases D2 activity, and in agreement with this, the difference in (125)I-T(3)/(131)I-T(3) ratio is increased further in hypothyroid wild-type mice but not altered in the D2KO. Notably, in wild-type but not in D2KO mice, the muscle production of (125)I-T(3) is doubled after skeletal muscle injury. Thus, D2-mediated T(4)-to-T(3) conversion generates significant intracellular T(3) in normal mouse skeletal muscle, with the increased T(3) required for muscle regeneration being provided by increased D2 synthesis, not by T(3) from the circulation. 相似文献
999.
1000.
C. Natoli V. Ramazzotti O. Nappi P. Giacomini S. Palmeri M. Salvatore M. Landriscina M. Zilli P.G. Natali N. Tinari S. Iacobelli 《生物化学与生物物理学报:癌评论》2011
An unknown primary tumor (UPT) is defined by the presence of a metastatic cancer without a known primary site of origin despite a standardized diagnostic workup. Clinically, UPTs show rapid progression and early dissemination, with signs and symptoms related to the metastatic site. The molecular bases of their biology remain largely unknown, with no evidence as to whether they represent a distinct biological entity. 相似文献