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P Dentelli L Del Sorbo A Rosso A Molinar G Garbarino G Camussi L Pegoraro M F Brizzi 《Journal of immunology (Baltimore, Md. : 1950)》1999,163(4):2151-2159
Angiogenesis is a critical process for growth of new capillary blood vessels from preexisting capillaries and postcapillary venules, both in physiological and pathological conditions. Endothelial cell proliferation is a major component of angiogenesis and it is regulated by several growth factors. It has been previously shown that the human hemopoietic growth factor IL-3 (hIL-3), predominantly produced by activated T lymphocytes, stimulates both endothelial cell proliferation and functional activation. In the present study, we report that hIL-3 is able to induce directional migration and tube formation of HUVEC. The in vivo neoangiogenetic effect of hIL-3 was also demonstrated in a murine model in which Matrigel was used for the delivery of the cytokine, suggesting a role of hIL-3 in sustaining neoangiogenesis. Challenge of HUVEC with hIL-3 lead to the synthesis of platelet-activating factor (PAF), which was found to act as secondary mediator for hIL-3-mediated endothelial cell motility but not for endothelial cell proliferation. Consistent with the role of STAT5 proteins in regulating IL-3-mediated mitogenic signals, we herein report that, in hIL-3-stimulated HUVEC, the recruitment of STAT5A and STAT5B, by the beta common (betac) subunit of the IL-3R, was not affected by PAF receptor blockade. 相似文献
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S Hellstern S Pegoraro C B Karim A Lustig D D Thomas L Moroder J Engel 《The Journal of biological chemistry》2001,276(33):30845-30852
The human 31-amino acid integral membrane protein sarcolipin (SLN), which regulates the sarcoplasmic reticulum Ca-ATPase in fast-twitch skeletal muscle, was chemically synthesized. Appropriate synthesis and purification strategies were used to achieve high purity and satisfactory yields of this hydrophobic and poorly soluble protein. Structural and functional properties of SLN were analyzed and compared with the homologous region of human phospholamban (PLB) comprising residues Ala(24)-Leu(52) (PLB-(24-52)), the regulatory protein of the cardiac sarcoplasmic reticulum Ca-ATPase. Circular dichroism spectroscopy showed that SLN is a predominantly alpha-helical protein and that the secondary structure is highly resistant to SDS and thermal denaturation. In this respect SLN is remarkably similar to PLB-(24-52). However, SLN is monomeric in SDS gels, whereas PLB-(24-52) shows a monomer-pentamer equilibrium typical for native PLB. Analytical ultracentrifugation experiments revealed that SLN oligomerizes in the presence of the nonionic detergents octylpolyoxyethylene and octyl glucoside in a concentration-dependent manner. No plateau was observed, and a pentameric state was only reached at much higher protein concentrations compared with PLB-(24-52). Chemical cross-linking showed that also in liposomes SLN has the ability to self-associate to oligomers. PLB-(24-52) specifically oligomerized to pentamers in the presence of octylpolyoxyethylene as well as in liposomes at low protein concentrations. In the presence of octylpolyoxyethylene pentamers were the main oligomeric species, whereas in liposomes monomers and dimers were predominant. Increasing the protein concentration led to self-association of PLB-(24-52) pentamers in the presence of octylpolyoxyethylene. Functional reconstitution of Ca-ATPase with PLB-(24-52) and SLN in liposomes showed that both proteins regulate the Ca-ATPase in a similar manner. 相似文献
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Carlos G PinheiroJr Eduardo LM Naves Pierre Pino Etienne Losson Adriano O Andrade Guy Bourhis 《Biomedical engineering online》2011,10(1):31
We have now sufficient evidence that using electrical biosignals in the field of Alternative and Augmented Communication is
feasible. Additionally, they are particularly suitable in the case of people with severe motor impairment, e.g. people with
high-level spinal cord injury or with locked-up syndrome. Developing solutions for them implies that we find ways to use sensors
that fit the user's needs and limitations, which in turn impacts the specifications of the system translating the user's intentions
into commands. After devising solutions for a given user or profile, the system should be evaluated with an appropriate method,
allowing a comparison with other solutions. This paper submits a review of the way three bioelectrical signals - electromyographic,
electrooculographic and electroencephalographic - have been utilised in alternative communication with patients suffering
severe motor restrictions. It also offers a comparative study of the various methods applied to measure the performance of
AAC systems. 相似文献
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Heidi Rodenhizer Susan M. Natali Marguerite Mauritz Meghan A. Taylor Gerardo Celis Stephanie Kadej Allison K. Kelley Emma R. Lathrop Justin Ledman Elaine F. Pegoraro Verity G. Salmon Christina Schädel Craig See Elizabeth E. Webb Edward A. G. Schuur 《Global Change Biology》2023,29(22):6286-6302
Permafrost thaw causes the seasonally thawed active layer to deepen, causing the Arctic to shift toward carbon release as soil organic matter becomes susceptible to decomposition. Ground subsidence initiated by ice loss can cause these soils to collapse abruptly, rapidly shifting soil moisture as microtopography changes and also accelerating carbon and nutrient mobilization. The uncertainty of soil moisture trajectories during thaw makes it difficult to predict the role of abrupt thaw in suppressing or exacerbating carbon losses. In this study, we investigated the role of shifting soil moisture conditions on carbon dioxide fluxes during a 13-year permafrost warming experiment that exhibited abrupt thaw. Warming deepened the active layer differentially across treatments, leading to variable rates of subsidence and formation of thermokarst depressions. In turn, differential subsidence caused a gradient of moisture conditions, with some plots becoming consistently inundated with water within thermokarst depressions and others exhibiting generally dry, but more variable soil moisture conditions outside of thermokarst depressions. Experimentally induced permafrost thaw initially drove increasing rates of growing season gross primary productivity (GPP), ecosystem respiration (Reco), and net ecosystem exchange (NEE) (higher carbon uptake), but the formation of thermokarst depressions began to reverse this trend with a high level of spatial heterogeneity. Plots that subsided at the slowest rate stayed relatively dry and supported higher CO2 fluxes throughout the 13-year experiment, while plots that subsided very rapidly into the center of a thermokarst feature became consistently wet and experienced a rapid decline in growing season GPP, Reco, and NEE (lower carbon uptake or carbon release). These findings indicate that Earth system models, which do not simulate subsidence and often predict drier active layer conditions, likely overestimate net growing season carbon uptake in abruptly thawing landscapes. 相似文献