Institution
University of Siena
Education•Siena, Italy•
About: University of Siena is a education organization based out in Siena, Italy. It is known for research contribution in the topics: Population & Cancer. The organization has 12179 authors who have published 33334 publications receiving 1008287 citations. The organization is also known as: Università degli studi di Siena & Universita degli studi di Siena.
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TL;DR: This investigation investigated the medium-term outcome of gene therapy (GT) in 18 patients with ADA-SCID for whom an HLA-identical family donor was not available; most were not responding well to ERT.
174 citations
TL;DR: In the bromobenzene-induced liver injury loss of protein thiols as well as impairment of mitochondrial and microsomal Ca2+ sequestration activities are related to lipid peroxidation, however, some redox active compounds such as menadione and t-butylhydroperoxide produce direct oxidation of proteinThiols.
174 citations
TL;DR: Past and recent studies on chemokines as modulators of angiogenesis are summarized with particular emphasis on the methods currently used for the assessment of chemokine-mediated angiogenic or angiostatic responses.
174 citations
TL;DR: Mouse erythrocytes were incubated with oxidizing agents and a rapid release of iron in a desferrioxamine-chelatable form was seen, suggesting a role for GSH in preventing iron release when oxidative stress is imposed by the oxidants.
Abstract: Mouse erythrocytes were incubated with oxidizing agents, phenylhydrazine, divicine and isouramil. With all the oxidants a rapid release of iron in a desferrioxamine (DFO)-chelatable form was seen and it was accompanied by methaemoglobin formation. If the erythrocytes were depleted of GSH by a short preincubation with diethyl maleate, the release of iron was accompanied by lipid peroxidation and, subsequently, haemolysis. GSH depletion by itself did not induce iron release, methaemoglobin formation, lipid peroxidation or haemolysis. Rather, the fate of the cell in which iron is released depended on the intracellular availability of GSH. In addition, iron release was higher in depleted cells than in native ones, suggesting a role for GSH in preventing iron release when oxidative stress is imposed by the oxidants. Iron release preceded lipid peroxidation. The latter was prevented when the erythrocytes were preloaded with DFO in such a way (preincubation with 10 mM-DFO) that the intracellular concentration was equivalent to that of the released iron, but not when the intracellular DFO was lower (preincubation with 0.1 mM-DFO). Extracellular DFO did not affect lipid peroxidation and haemolysis, suggesting again that the observed events occur intracellularly (intracellular chelation of released iron). The relevance of iron release from iron complexes in the mechanisms of cellular damage induced by oxidative stress is discussed.
174 citations
TL;DR: To assess the notable stability of multimeric peptides, different bioactive neuropeptides were synthesized in monomeric and tetrabranched forms and incubated with human plasma and serum and with rat brain membrane extracts and showed much greater stability to blood and brain protease activity.
173 citations
Authors
Showing all 12352 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Johan Auwerx | 158 | 653 | 95779 |
| I. V. Gorelov | 139 | 1916 | 103133 |
| Roberto Tenchini | 133 | 1390 | 94541 |
| Francesco Fabozzi | 133 | 1561 | 93364 |
| M. Davier | 132 | 1449 | 107642 |
| Roberto Dell'Orso | 132 | 1412 | 92792 |
| Rino Rappuoli | 132 | 816 | 64660 |
| Teimuraz Lomtadze | 129 | 893 | 80314 |
| Manas Maity | 129 | 1309 | 87465 |
| Dezso Horvath | 128 | 1283 | 88111 |
| Paolo Azzurri | 126 | 1058 | 81651 |
| Vincenzo Di Marzo | 126 | 659 | 60240 |
| Igor Katkov | 125 | 972 | 71845 |
| Ying Lu | 123 | 708 | 62645 |
| Thomas Schwarz | 123 | 701 | 54560 |