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The protein B-50 (F1, GAP-43) is a presynaptic-specific substrate of protein kinase C, functionally related to neurotransmitter release. An increase in phosphorylation of this protein has been proposed as a molecular mechanism underlying long-term potentiation (LTP). B-50 phosphorylation measured by quantitative immunoprecipitation in rat hippocampal slices incubated in the presence of radiolabeled inorganic phosphate was increased for at least 1 hr after the induction of LTP in the CA1 region. No significant changes in B-50 phosphorylation were observed in untetanized slices stimulated at low frequency. The direct demonstration of an increased phosphorylation of the protein B-50 during LTP is consistent with the hypothesis that presynaptic mechanisms contribute to maintenance of LTP. 相似文献
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Chiara Salvesi Stefania Silvi Dennis Fiorini Serena Scortichini Gianni Sagratini Francesco A. Palermo Renato De Leone Nadaniela Egidi Lorella Fatone Carlo Cifani Amedeo Amedei Francesca Scocchera Mara Morici Beatrice Gatto Fausto Mannucci Valerio Valeriani Marco Malavasi Sara Servili Andrea Casula Andrea Cresci Ivano Corradetti Francesco Carpi Matteo Picciolini Maria Magdalena Coman Maria Cristina Verdenelli 《Journal of applied microbiology》2022,133(5):2941-2953
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Corradetti B Lange-Consiglio A Barucca M Cremonesi F Bizzaro D 《Cell proliferation》2011,44(4):330-342
Objectives: Umbilical cord matrix (UCM) has been recently proposed as an alternative source of mesenchymal stem cells (MSCs). The aim of this study was to isolate and characterize presumptive stem cells from intervascular and perivascular equine UCM and to obtain homogeneous subpopulations from both sites. Materials and methods: Umbilical cords were processed for retrieval of MSCs. Unsieved cells from intervascular and perivascular portions were evaluated for cell cycle analysis and for immunophenotyping by flow cytometry. Cells from each site were separated into larger and smaller sieved populations using multi‐dishes with 8‐μm pore transwell inserts. Each cell population was characterized in terms of renewal capability, specific marker expression and differentiation potential. Cryopreservation was performed on sieved cells only. Results: Cells from both areas expressed MSC and pluripotential specific markers and were able to differentiate into mesodermic and ectodermic lineages. The sieving procedure yielded two relatively homogeneous subpopulations with comparable characteristics. Surprisingly, after sieving, large intervascular and small perivascular cells were the most rapidly replicating cells [20.53 and 19.49 cell population doublings (PD) after 31 days respectively] and also showed higher fibroblast colony forming unit frequency. Unsieved cell populations were used as controls, and showed PD of 9.42(intervascular cells) and 8.54 (perivascular cells) after 31 days. Conclusions: Here, cells from UCM represented an intermediate stage between pluripotent embryonic and adult stem cells. Size‐sieving can be used to isolate more rapidly proliferating cell populations. 相似文献
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The stress-inducted proteins RTP801 and RTP801L are negative regulators of the mammalian target of rapamycin pathway 总被引:6,自引:0,他引:6
The mammalian target of rapamycin (mTOR) is a serine/threonine kinase that plays an essential role in cell growth control. mTOR stimulates cell growth by phosphorylating p70 ribosomal S6 kinase (S6K) and eukaryote initiation factor 4E-binding protein 1 (4EBP1). The mTOR pathway is regulated by a wide variety of cellular signals, including mitogenic growth factors, nutrients, cellular energy levels, and stress conditions. Recent studies have proposed several mechanisms to explain how mTOR is regulated by growth factors and cellular energy levels. However, little is known as to how mTOR is regulated by stress conditions. We observed that two stress-induced proteins, RTP801/Redd1 and RTP801L/Redd2, potently inhibit signaling through mTOR. Our data support that RTP801 and RTP801L work downstream of AKT and upstream of TSC2 to inhibit mTOR functions. These results add a new dimension to mTOR pathway regulation and provide a possible molecular mechanism of how cellular stress conditions may regulate mTOR function. 相似文献
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L Gutknecht N Araragi S Merker J Waider FM Sommerlandt B Mlinar G Baccini U Mayer F Proft M Hamon AG Schmitt R Corradetti L Lanfumey KP Lesch 《PloS one》2012,7(8):e43157
Brain serotonin (5-HT) is implicated in a wide range of functions from basic physiological mechanisms to complex behaviors, including neuropsychiatric conditions, as well as in developmental processes. Increasing evidence links 5-HT signaling alterations during development to emotional dysregulation and psychopathology in adult age. To further analyze the importance of brain 5-HT in somatic and brain development and function, and more specifically differentiation and specification of the serotonergic system itself, we generated a mouse model with brain-specific 5-HT deficiency resulting from a genetically driven constitutive inactivation of neuronal tryptophan hydroxylase-2 (Tph2). Tph2 inactivation (Tph2-/-) resulted in brain 5-HT deficiency leading to growth retardation and persistent leanness, whereas a sex- and age-dependent increase in body weight was observed in Tph2+/- mice. The conserved expression pattern of the 5-HT neuron-specific markers (except Tph2 and 5-HT) demonstrates that brain 5-HT synthesis is not a prerequisite for the proliferation, differentiation and survival of raphe neurons subjected to the developmental program of serotonergic specification. Furthermore, although these neurons are unable to synthesize 5-HT from the precursor tryptophan, they still display electrophysiological properties characteristic of 5-HT neurons. Moreover, 5-HT deficiency induces an up-regulation of 5-HT(1A) and 5-HT(1B) receptors across brain regions as well as a reduction of norepinephrine concentrations accompanied by a reduced number of noradrenergic neurons. Together, our results characterize developmental, neurochemical, neurobiological and electrophysiological consequences of brain-specific 5-HT deficiency, reveal a dual dose-dependent role of 5-HT in body weight regulation and show that differentiation of serotonergic neuron phenotype is independent from endogenous 5-HT synthesis. 相似文献
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Anna Lange-Consiglio Stefano Tassan Bruna Corradetti Aurora Meucci Roberta Perego Davide Bizzaro Fausto Cremonesi 《Cytotherapy》2013,15(8):1011-1020
Background aimsThis is the first study to compare the treatment of horse tendon and ligament injuries with the use of mesenchymal stromal cells (MSCs) obtained from two different sources: amniotic membrane (AMSCs) and bone marrow (BM-MSCs). The objective was to prove the ability of AMSCs to exert beneficial effects in vivo.MethodsFive million allogeneic frozen-thawed AMSCs or autologous fresh BM-MSCs were injected intralesionally in horses belonging to group A (51 horses) and group B (44 horses). The interval lesion/implantation was of 6–15 days for the AMSCs and 16–35 days for the BM-MSCs. Healing was assessed clinically and ultrasonographically. Follow-up was monitored for 2 further years from return to full work.ResultsNo significant adverse effects after MSCs treatment were seen in any of the horses studied, independent of the type of stromal cell implanted. All animals belonging to group A resumed their activities between 4–5 months after treatment, whereas animals of group B resumed their activities after 4–12 months. The rate of re-injury in horses treated with AMSCs is lower (4.00%) compared with the average observed when horses were treated with BM-MSCs (23.08%).ConclusionsThe possibility to inject allogeneic AMSCs in real time, before any ultrasonographic change occurs within the injured tendon and ligament, together with the higher plasticity and proliferative capacity of these cells compared with BM-MSCs, represents the main features of interest for this novel approach for the treatment of equine tendon diseases. An obvious active proliferative healing in the area injected with AMSCs makes these cells more effective than BM-MSCs. 相似文献
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Alessandra Corradetti Franca Saccucci Monica Emanuelli Giorgia Vagnoni Monia Cecati Davide Sartini Stefano R. Giannubilo Andrea L. Tranquilli 《Cell stress & chaperones》2010,15(1):95-100
Mitogen-activated protein kinase (MAPK) p38α was shown to be implicated in the organogenesis of the placenta, and such placental
alteration is crucial for the development of hemolysis, elevated liver enzymes, and low platelets (HELLP) syndrome. We aimed
to analyze for the first time human placental expression of MAPK p38α in pregnancies complicated by HELLP. The placental expression
of MAPK p38α was investigated by semiquantitative polymerase chain reaction using cDNA extracted from placental tissue of
15 pregnancies with HELLP syndrome and 15 gestational age-matched controls. Seven patients with HELLP also had intrauterine
fetal growth restriction (IUGR). In placenta from pregnancy complicated by HELLP, the expression of MAPK p38α is significantly
decreased compared to the group with normal pregnancy (p < 0.001), while no difference was found between the HELLP and HELLP with IUGR subpopulations. Our study shows for the first
time that MAPK p38α is expressed in the human placenta. Pregnancies with placental dysfunction and hypertensive complications
are characterized by a significantly decreased expression of MAPK p38α. Our observations suggest that p38 MAPK signaling may
be essential in placental angiogenesis and functioning. 相似文献
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Marilena Gregorini Valeria Corradetti Chiara Rocca Eleonora Francesca Pattonieri Teresa Valsania Samantha Milanesi Nicoletta Serpieri Giulia Bedino Pasquale Esposito Carmelo Libetta Maria Antonietta Avanzini Melissa Mantelli Daniela Ingo Sabrina Peressini Riccardo Albertini Antonio Dal Canton Teresa Rampino 《PloS one》2016,11(2)