S. Rovidati scite author profile

H2O2 treatment on U937 cells leads to the block of glycolytic flux and the inactivation of glyceraldehyde-3-phosphate-dehydrogenase by a posttranslational modification (possibly ADP-ribosylation). Glycolysis spontaneously reactivates after 2 h of recovery from oxidative stress; thereafter cells begin to undergo apoptosis. The specific ADP-ribosylation inhibitor 3-aminobenzamide inhibits the stress-induced inactivation of glyceraldehyde-3-phosphate-dehydrogenase and the block of glycolysis; concomitantly, it anticipates and increases apoptosis. Exogenous block of glycolysis (i.e., by culture in glucose-free medium or with glucose analogs or after NAD depletion), turns the transient block into a stable one: this results in protection from apoptosis, even when downstream cell metabolism is kept active by the addition of pyruvate. All this evidence indicates that the stress-induced block of glycolysis is not the result of a passive oxidative damage, but rather an active cell reaction programmed via ADP-ribosylation for cell self-defense.

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Bioreactivity and biocompatibility of a vitamin E-modified multi-layer hemodialysis filter

Galli¹,

Rovidati²,

Chiarantini³

et al. 1998

Kidney International

120

100

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Potential role of levocarnitine supplementation for the treatment of chemotherapy-induced fatigue in non-anaemic cancer patients

Graziano

Bisonni²,

Catalano³

et al. 2002

Br J Cancer

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Ifosfamide and cisplatin cause urinary loss of carnitine, which is a fundamental molecule for energy production in mammalian cells. We investigated whether restoration of the carnitine pool might improve chemotherapy-induced fatigue in non-anaemic cancer patients. Consecutive patients with low plasma carnitine levels who experienced fatigue during chemotherapy were considered eligible for study entry. Patients were excluded if they had anaemia or other conditions thought to be causing asthenia. Fatigue was assessed by the Functional Assessment of Cancer Therapy-Fatigue quality of life questionnaire. Treatment consisted of oral levocarnitine 4 g daily, for 7 days. Fifty patients were enrolled; chemotherapy was cisplatin-based in 44 patients and ifosfamide-based in six patients. In the whole group, baseline mean Functional Assessment of Cancer Therapy-Fatigue score was 19.7 (±6.4; standard deviation) and the mean plasma carnitine value was 20.9 μ M (±6.8; standard deviation). After 1 week, fatigue ameliorated in 45 patients and the mean Functional Assessment of Cancer Therapy-Fatigue score was 34.9 (±5.4; standard deviation) ( P <.001). All patients achieved normal plasma carnitine levels. Patients maintained the improved Functional Assessment of Cancer Therapy-Fatigue score until the next cycle of chemotherapy. In selected patients, levocarnitine supplementation may be effective in alleviating chemotherapy-induced fatigue. This compound deserves further investigations in a randomised, placebo-controlled study. British Journal of Cancer (2002) 86 , 1854–1857. doi: 10.1038/sj.bjc.6600413 www.bjcancer.com © 2002 Cancer Research UK

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Oxidative Damage during Hemodialysis Using a Vitamin-E-Modif ied Dialysis Membrane: A Preliminary Characterization

Buoncristiani

Galli

Rovidati

et al. 1997

Nephron

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A comparison of the oxyradical exposure during hemodialysis (HD) carried out with vitamin-E-modified cellulose (CL-E) or conventional membranes, studying red blood cell (RBC) and plasma lipoperoxidation and RBC glutathione metabolism, was done. In this preliminary characterization of a new and original approach to the prevention of free radical damage in HD, the results obtained indicate that lipoperoxidation in plasma and RBC is decreased and therefore oxidative damage can be significantly decreased using CL-E dialysis membranes instead of conventional membranes.

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Overexpression of Erythrocyte Glutathione S-Transferase in Uremia and Dialysis

Galli

Rovidati

Benedetti

et al. 1999

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Background: Overexpression of glutathione S-transferase (GST; EC 2.5.1.18) has been documented in the erythrocytes of patients with chronic renal failure, and this event may well be of relevance from a clinical standpoint. In fact, it could serve as a marker of uremic toxicity overall, which can contribute to impair the function and survival of the erythrocytes. However, the biochemical details of this phenomenon are poorly understood. Methods: In this study, we characterized the expression of GST in erythrocytes of 118 uremic patients under different clinical conditions. The mechanisms responsible for the regulation of protein expression and enzyme activity were investigated in light of different dialysis approaches, oxidative stress, uremic toxins, erythrocyte age, and erythropoietin (EPO) supplementation. Results: Mean GST activity in uremic patients was highly overexpressed with respect to controls, and this phenomenon was exclusively attributable to an increased expression of GST. Overexpression of GST did not appear to be dependent on oxidative stress and was not influenced by vitamin E supplementation. In the same manner, both erythrocyte age and EPO supplementation apparently did not interfere with the GST concentrations, which were the same in controls and patients. Preliminary experiments suggested that high-molecular weight or protein-bound toxins could play some role in the overexpression of GST. Conclusions: GST expression may be a useful marker for the individual accumulation of uremic toxins as well as of the efficiency of new dialysis strategies in removing them.

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S. Rovidati

H₂O₂‐induced block of glycolysis as an active ADP‐ribosylation reaction protecting cells from apoptosis

Bioreactivity and biocompatibility of a vitamin E-modified multi-layer hemodialysis filter

Potential role of levocarnitine supplementation for the treatment of chemotherapy-induced fatigue in non-anaemic cancer patients

Oxidative Damage during Hemodialysis Using a Vitamin-E-Modif ied Dialysis Membrane: A Preliminary Characterization

Overexpression of Erythrocyte Glutathione S-Transferase in Uremia and Dialysis

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S. Rovidati

H2O2‐induced block of glycolysis as an active ADP‐ribosylation reaction protecting cells from apoptosis

Bioreactivity and biocompatibility of a vitamin E-modified multi-layer hemodialysis filter

Potential role of levocarnitine supplementation for the treatment of chemotherapy-induced fatigue in non-anaemic cancer patients

Oxidative Damage during Hemodialysis Using a Vitamin-E-Modif ied Dialysis Membrane: A Preliminary Characterization

Overexpression of Erythrocyte Glutathione S-Transferase in Uremia and Dialysis

Contact Info

Product

Resources

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H₂O₂‐induced block of glycolysis as an active ADP‐ribosylation reaction protecting cells from apoptosis