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121.
An opioid receptor agonist, [D-Ala2,Me-Phe4,Glyol5]enkephalin (DAMGE), decreased [3H]thymidine incorporation into DNA of fetal rat brain cell aggregates. This action proved to depend on the dose of this enkephalin analog and the interval the aggregates were maintained in culture. The opioid antagonist naltrexone and the mu-specific antagonist cyclic D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr amide (CTOP) reversed the DAMGE effect, arguing for a receptor-mediated mechanism. The mu-opioid nature of this receptor was further established by inhibiting DNA synthesis with the highly mu-selective agonist morphiceptin and blocking its action with CTOP. Several other opioids, pertussis toxin, and LiCl also diminished DNA synthesis, whereas cholera toxin elicited a modest increase. Naltrexone completely reversed the inhibition elicited by the combination of DAMGE and low doses of LiCl but not by that of high levels of LiCl alone. The enkephalin analog also reduced basal [3H]inositol trisphosphate and glutamate-stimulated [3H]inositol monophosphate and [3H]inositol bisphosphate accumulation in the aggregates. These DAMGE effects were reversed by naltrexone and were temporally correlated with the inhibition of DNA synthesis. A selective protein kinase C inhibitor, chelerythrine, also inhibited thymidine incorporation dose-dependently. The effect of DAMGE was not additive in the presence of chelerythrine but appeared to be consistent with their actions being mediated via a common signaling pathway. These results suggest the involvement of the phosphoinositol signal transduction system in the modulation of thymidine incorporation into DNA by DAMGE. 相似文献
122.
Marcello Allegretti Maria Candida Cesta Mara Zippoli Andrea Beccari Carmine Talarico Flavio Mantelli Enrico M. Bucci Laura Scorzolini Emanuele Nicastri 《Cell death and differentiation》2022,29(1):156
The ongoing coronavirus disease 2019 (COVID-19) pandemic caused by the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) necessitates strategies to identify prophylactic and therapeutic drug candidates to enter rapid clinical development. This is particularly true, given the uncertainty about the endurance of the immune memory induced by both previous infections or vaccines, and given the fact that the eradication of SARS-CoV-2 might be challenging to reach, given the attack rate of the virus, which would require unusually high protection by a vaccine. Here, we show how raloxifene, a selective estrogen receptor modulator with anti-inflammatory and antiviral properties, emerges as an attractive candidate entering clinical trials to test its efficacy in early-stage treatment COVID-19 patients.Subject terms: Infectious diseases, Drug development 相似文献
123.
De Falco M Fedele V Cobellis L Mastrogiacomo A Giraldi D Leone S De Luca L Laforgia V De Luca A 《Cell and tissue research》2004,317(2):187-194
Progression through the cell cycle in eukaryotic cells is controlled by a family of protein kinases, termed cyclin-dependent kinases (CDKs), and their specific partners, the cyclins. In particular, the control of mammalian cell proliferation occurs largely during the G1 phase of the cell cycle. Five mammalian G1 cyclins have been enumerated to date: cyclins D1, D2, and D3 (D-type cyclins), and cyclins E and E2. By the use of immunohistochemistry and immunoelectron microscopy, we observed that in the first trimester of gestation of human placenta, cyclin D1 was distributed in the nuclei of the cytotrophoblast compartment together with a weak positivity of endothelial cells surrounding blood vessels. The endothelial positivity of cyclin D1 strongly increased in the third trimester of gestation. Moreover, we observed the subcellular localization of cyclin D1 that was present both in the stroma of placental villi and in the nuclei of syncytiotrophoblast cells. Therefore, we observed that CDK4 was localized in the nuclei of the cytotrophoblast compartment during the first and third trimesters and it also had a nuclear positivity in the endothelial cells of blood vessels at the end of the third trimester of gestation. In conclusion we may hypothesize that cyclin D1/CDK4 complex functions to regulate the cell cycle progression in the proliferative compartment of human placenta, the cytotrophoblast, during the first trimester through interaction with p107 and p130. Therefore, cyclin D1 and CDK4 seem to be involved in the control of placental angiogenesis during the third trimester of gestation.This work was supported by the University of Naples Federico II (M.D.F., V.F. and V.L.), by the Second University of Naples (L.C. and A.D.L.) and I.S.S.C.O. (President H.E. Kaiser) 相似文献
124.
Bruzzone S Verderio C Schenk U Fedele E Zocchi E Matteoli M De Flora A 《Journal of neurochemistry》2004,89(1):264-272
Recently, a new system of astrocyte-neurone glutamatergic signalling has been identified. It is started in astrocytes by ectocellular, CD38-catalysed conversion of NAD(+) to the calcium mobilizer cyclic ADP-ribose (cADPR). This is then pumped by CD38 itself into the cytosol where the resulting free intracellular Ca(2+) concentration [Ca(2+)](i) transients elicit an increased release of glutamate, which can induce an enhanced Ca(2+) response in neighbouring neurones. Here, we demonstrate that co-culture of either cortical or hippocampal astrocytes with neurones results in a significant overexpression of astrocyte CD38 both on the plasma membrane and intracellularly. The causal role of neurone-released glutamate in inducing overexpression of astrocyte CD38 is demonstrated by two observations: first, in the absence of neurones, induction of CD38 in pure astrocyte cultures can be obtained with glutamate and second, it can be prevented in co-cultures by glutamate receptor antagonists. The neuronal glutamate-mediated effect of neurones on astrocyte CD38 expression is paralleled by increased intracellular cADPR and [Ca(2+)](i) levels, both findings indicating functionality of overexpressed CD38. These results reveal a new neurone-to-astrocyte glutamatergic signalling based on the CD38/cADPR system, which affects the [Ca(2+)](i) in both cell types, adding further complexity to the bi-directional patterns of communication between astrocytes and neurones. 相似文献
125.
Phosphorylation of high-mobility group protein A2 by Nek2 kinase during the first meiotic division in mouse spermatocytes
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Di Agostino S Fedele M Chieffi P Fusco A Rossi P Geremia R Sette C 《Molecular biology of the cell》2004,15(3):1224-1232
The mitogen-activated protein kinase (MAPK) pathway is required for maintaining the chromatin condensed during the two meiotic divisions and to avoid a second round of DNA duplication. However, molecular targets of the MAPK pathway on chromatin have not yet been identified. Here, we show that the architectural chromatin protein HMGA2 is highly expressed in male meiotic cells. Furthermore, Nek2, a serine-threonine kinase activated by the MAPK pathway in mouse pachytene spermatocytes, directly interacts with HMGA2 in vitro and in mouse spermatocytes. The interaction does not depend on the activity of Nek2 and seems constitutive. On progression from pachytene to metaphase, Nek2 is activated and HMGA2 is phosphorylated in an MAPK-dependent manner. We also show that Nek2 phosphorylates in vitro HMGA2 and that this phosphorylation decreases the affinity of HMGA2 for DNA and might favor its release from the chromatin. Indeed, we find that most HMGA2 associates with chromatin in mouse pachytene spermatocytes, whereas it is excluded from the chromatin upon the G2/M progression. Because hmga2-/- mice are sterile and show a dramatic impairment of spermatogenesis, it is possible that the functional interaction between HMGA2 and Nek2 plays a crucial role in the correct process of chromatin condensation in meiosis. 相似文献
126.
Pepicelli O Fedele E Berardi M Raiteri M Levi G Greco A Ajmone-Cat MA Minghetti L 《Journal of neurochemistry》2005,93(6):1561-1567
Using intracerebral microdialysis, we reported previously that acute in vivo activation of NMDA glutamate receptors triggers rapid and transient releases of prostaglandin E2 (PGE2) and F2-isoprostane 15-F(2t)-IsoP in the hippocampus of freely moving rats. The formation of the two metabolites--produced through cyclo-oxygenase (COX) enzymatic activity and free radical-mediated peroxidation of arachidonic acid (AA), respectively,--was prevented by the specific NMDA antagonist MK-801, and was largely dependent on COX-2 activity. Here, we demonstrate that besides COX-2, which is the prominent COX isoform in the brain and particularly in the hippocampus, the constitutive isoform, COX-1 also contributes to prostaglandin (PG) synthesis and oxidative damage following in vivo acute activation of hippocampal NMDA glutamate receptors. The relative contribution of the two isoforms is dynamically regulated, as the COX-2 selective inhibitor NS398 immediately prevented PGE2 and 15-F(2t)-IsoP formation during the application of NMDA, whereas the COX-1 selective inhibitor SC560 was effective only 1 h after agonist infusion. Our data suggest that, although COX-2 is the prominent isoform, COX-1 activity may significantly contribute to excitotoxicity, particularly when considering the amount of lipid peroxidation associated with its catalytic cycle. We suggest that both isoforms should be considered as possible therapeutic targets to prevent brain damage caused by excitotoxicity. 相似文献
127.
Picone D Di Fiore A Ercole C Franzese M Sica F Tomaselli S Mazzarella L 《The Journal of biological chemistry》2005,280(14):13771-13778
Bovine seminal ribonuclease (BS-RNase) is a covalent homodimeric enzyme homologous to pancreatic ribonuclease (RNase A), endowed with a number of special biological functions. It is isolated as an equilibrium mixture of swapped (MxM) and unswapped (M=M) dimers. The interchanged N termini are hinged on the main bodies through the peptide 16-22, which changes conformation in the two isomers. At variance with other proteins, domain swapping in BS-RNase involves two dimers having a similar and highly constrained quaternary association, mainly dictated by two interchain disulfide bonds. This provides the opportunity to study the intrinsic ability to swap as a function of the hinge sequence, without additional effects arising from dissociation or quaternary structure modifications. Two variants, having Pro19 or the whole sequence of the hinge replaced by the corresponding residues of RNase A, show equilibrium and kinetic parameters of the swapping similar to those of the parent protein. In comparison, the x-ray structures of MxM indicate, within a substantial constancy of the quaternary association, a greater mobility of the hinge residues. The relative insensitivity of the swapping tendency to the substitutions in the hinge region, and in particular to the replacement of Pro19 by Ala, contrasts with the results obtained for other swapped proteins and can be rationalized in terms of the unique features of the seminal enzyme. Moreover, the results indirectly lend credit to the hypothesis that the major role of Pro19 resides in directing the assembly of the non-covalent dimer, the species produced by selective reduction of the interchain disulfides and considered responsible for the special biological functions of BS-RNase. 相似文献
128.
Bozza S Fallarino F Pitzurra L Zelante T Montagnoli C Bellocchio S Mosci P Vacca C Puccetti P Romani L 《Journal of immunology (Baltimore, Md. : 1950)》2005,174(5):2910-2918
By mediating tryptophan catabolism, the enzyme indoleamine 2,3-dioxygenase (IDO) has a complex role in immunoregulation in infection, pregnancy, autoimmunity, transplantation, and neoplasia. We hypothesized that IDO might affect the outcome of the infection in mice infected with Candida albicans by virtue of its potent regulatory effects on inflammatory and T cell responses. IDO expression was examined in mice challenged with the fungus along with the consequences of its blockade by in vivo treatment with an enzyme inhibitor. We found that IDO activity was induced at sites of infection as well as in dendritic cells and effector neutrophils via IFN-gamma- and CTLA-4-dependent mechanisms. IDO inhibition greatly exacerbated infection and associated inflammatory pathology as a result of deregulated innate and adaptive/regulatory immune responses. However, a role for tryptophan catabolism was also demonstrated in a fungus-autonomous fashion; its blockade in vitro promoted yeast-to-hyphal transition. These results provide novel mechanistic insights into complex events that, occurring at the fungus/pathogen interface, relate to the dynamics of host adaptation to the fungus. The production of IFN-gamma may be squarely placed at this interface, where IDO activation probably exerts a fine control over fungal morphology as well as inflammatory and adaptive antifungal responses. 相似文献
129.
Shestak KC Fedele GM Restifo RJ 《Plastic and reconstructive surgery》2001,107(1):55-62; discussion 63-6
The authors report the successful repair of large lower abdominal hernia defects after transverse rectus abdominis muscle (TRAM) flap breast reconstruction in 11 patients using a technique of intraperitoneal application of synthetic polypropylene (Prolene) mesh anchored to the peritoneal surface of the abdominal wall tissues. Five of these patients had previously failed hernia repairs after a unipedicle TRAM flap breast reconstruction employing the onlay mesh technique, with two of the patients having undergone three previous hernia repairs. The other six patients had developed large hernias after bipedicle TRAM flap reconstruction without previous mesh supplementation of the abdominal wall repair. After their successful hernia repairs, all of the patients healed without difficulty and demonstrated no sign of recurrence in an 8 to 36-month follow-up. Each patient returned to her activity level before breast reconstruction. 相似文献
130.
M J Fedele J M Hernandez C H Lang T C Vary S R Kimball L S Jefferson P A Farrell 《Journal of applied physiology》2000,88(1):102-108
This study determined whether rates of protein synthesis increase after acute resistance exercise in skeletal muscle from severely diabetic rats. Previous studies consistently show that postexercise rates of protein synthesis are elevated in nondiabetic and moderately diabetic rats. Severely diabetic rats performed acute resistance exercise (n = 8) or remained sedentary (n = 8). A group of nondiabetic age-matched rats served as controls (n = 9). Rates of protein synthesis were measured 16 h after exercise. Plasma glucose concentrations were >500 mg/dl in the diabetic rats. Rates of protein synthesis (nmol phenylalanine incorporated. g muscle(-1). h(-1), means +/- SE) were not different between exercised (117 +/- 7) and sedentary (106 +/- 9) diabetic rats but were significantly (P < 0.05) lower than in sedentary nondiabetic rats (162 +/- 9) and in exercised nondiabetic rats (197 +/- 7). Circulating insulin concentrations were 442 +/- 65 pM in nondiabetic rats and 53 +/- 11 and 72 +/- 19 pM in sedentary and exercised diabetic rats, respectively. Plasma insulin-like growth factor I concentrations were reduced by 33% in diabetic rats compared with nondiabetic rats, and there was no difference between exercised and sedentary diabetic rats. Muscle insulin-like growth factor I was not affected by resistance exercise in diabetic rats. The results show that there is a critical concentration of insulin below which rates of protein synthesis begin to decline in vivo. In contrast to previous studies using less diabetic rats, severely diabetic rats cannot increase rates of protein synthesis after acute resistance exercise. 相似文献