Domenicantonio Rotiroti scite author profile

Autophagy is the major intracellular degradation pathway that regulates long-lived proteins and organelles turnover. This process occurs at basal levels in all cells but it is rapidly upregulated in response to starvation and cellular stress. Although being recently implicated in neurodegeneration, it remains still unclear whether autophagy has a detrimental or protective role. In this study, we investigated the dynamics of the autophagic process in retinal tissue that has undergone transient ischemia, an experimental model that recapitulates features of ocular pathologies, including glaucoma, anterior ischemic optic neuropathy and retinal vessels occlusion. Retinal ischemia, induced in adult rats by increasing the intraocular pressure, was characterized by a reduction in the phosphatidylethanolamine-modified form of LC3 (LC3II) and by a significant decrease in Beclin-1. The latter event was associated with a proteolytic cleavage of Beclin-1, leading to the accumulation of a 50-kDa fragment. This event was prevented by intravitreal treatment with the non-competitive N-methyl-D-aspartate antagonist MK801 and calpain inhibitors or by calpain knockdown. Blockade of autophagy by pharmacological inhibition or Beclin-1 silencing in RGC-5 increased cell death, suggesting a pro-survival role of the autophagic process in this neuronal cell type. Altogether, our results provide original evidence for calpain-mediated cleavage of Beclin-1 and deregulation of basal autophagy in the rat retina that has undergone ocular ischemia/reperfusion injury.

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Activation of the Endothelial Nitric-oxide Synthase by Tumor Necrosis Factor-α

Bulotta

Barsacchi

Rotiroti

et al. 2001

Journal of Biological Chemistry

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Cell death via apoptosis induced by tumor necrosis factor-␣ (TNF-␣) plays an important role in many physiological and pathological conditions. The signal transduction pathway activated by this cytokine is known to be regulated by several intracellular messengers. In particular, in many systems nitric oxide (NO) has been shown to protect cells from TNF-␣-induced apoptosis. However, whether NO can be generated by the cytokine to down-regulate its own apoptotic program has never been studied. We have addressed this question in HeLa Tet-off cell clones stably transfected with the endothelial NO synthase under a tetracycline-responsive promoter. Endothelial NO synthase, induced about 100-fold in these cells by removal of the antibiotic, retained the characteristics of the native enzyme of endothelial cells, both in terms of intracellular localization and functional activity. Expression of the endothelial NO synthase was sufficient to protect from TNF-␣-induced apoptosis. This protection was mediated by the generation of NO. TNF-␣ itself stimulated endothelial NO synthase activity to generate NO through a pathway involving its lipid messenger, ceramide. Our results identify a novel mechanism of regulation of a signal transduction pathway activated by death receptors and suggest that NO may constitute a built-in mechanism by which TNF-␣ controls its own apoptotic program.

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Neuropharmacology of the essential oil of bergamot

et al. 2010

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The antidote effect of quinone oxidoreductase 2 inhibitor against paraquat‐induced toxicity in vitro and in vivo

Janda

Parafati

Aprigliano

et al. 2012

British J Pharmacology

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BACKGROUND AND PURPOSEThe mechanisms of paraquat (PQ)-induced toxicity are poorly understood and PQ poisoning is often fatal due to a lack of effective antidotes. In this study we report the effects of N-[2-(2-methoxy-6H-dipyrido{2,3-a:3,2-e}pyrrolizin-11-yl)ethyl]-2-furamide (NMDPEF), a melatonin-related inhibitor of quinone oxidoreductase2 (QR2) on the toxicity of PQ in vitro & in vivo. EXPERIMENTAL APPROACHPrevention of PQ-induced toxicity was tested in different cells, including primary pneumocytes and astroglial U373 cells. Cell death and reactive oxygen species (ROS) were analysed by flow cytometry and fluorescent probes. QR2 silencing was achieved by lentiviral shRNAs. PQ (30 mg·kg -1 ) and NMDPEF were administered i.p. to Wistar rats and animals were monitored for 28 days. PQ toxicity in the substantia nigra (SN) was tested by a localized microinfusion and electrocorticography. QR2 activity was measured by fluorimetry of N-benzyldihydronicotinamide oxidation. KEY RESULTSNMDPEF potently antagonized non-apoptotic PQ-induced cell death, ROS generation and inhibited cellular QR2 activity. In contrast, the cytoprotective effect of melatonin and apocynin was limited and transient compared with NMDPEF. Silencing of QR2 attenuated PQ-induced cell death and reduced the efficacy of NMDPEF. Significantly, NMDPEF (4.5 mg·kg -1 ) potently antagonized PQ-induced systemic toxicity and animal mortality. Microinfusion of NMDPEF into SN prevented severe behavioural and electrocortical effects of PQ which correlated with inhibition of malondialdehyde accumulation in cells and tissues. CONCLUSIONS AND IMPLICATIONSNMDPEF protected against PQ-induced toxicity in vitro and in vivo, suggesting a key role for QR2 in the regulation of oxidative stress. LINKED ARTICLEThis article is commented on by Baltazar et al.,

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Antiproliferative and antioxidant effects on breast cancer cells of oleuropein and its semisynthetic peracetylated derivatives

Bulotta¹,

Corradino²,

Celano³

et al. 2011

Food Chemistry

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Paraquat: A Useful Tool for the in vivo Study of Mechanisms of Neuronal Cell Death

Corasaniti

Strongoli

Rotiroti

et al. 1998

Pharmacology & Toxicology

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Ahstruct; The present article reviews the results of experimental studies on paraquat neurotoxicity, started by our group several years ago -when clinical and experimental reports had increased the interest for the possibility that environmental chemicals, including paraquat, may be related to the development of Parkinson's disease -, and which are still continuing since paraquat appears to be a promising tool to study the mechanisms of neuronal cell death in vivo. Our observations have demonstrated that paraquat causes evident neurotoxic effects after intracerebroventricular or intracerebral injection in experimental animals; however, it seems that the herbicide does not exibit a selective neurotoxicity towards the dopaminergic nigro-striatal system since potent behavioural and electrocortical changes are induced by paraquat after injection in brain areas other than the substantia nigra and caudate nucleus. By studying the mechanisms through which paraquat induces neurotoxic effects in vivo, it was shown that either free radical production and activation of cholinergic and glutamatergic transmission may be regarded as related events which play a crucial role in paraquat-induced neurotoxicity. In addition, it was observed that in rats paraquat penetrates the blood-brain barrier following systemic administration to give rise to a differential brain regional distribution; the latter observation rises some concern over the hazard of paraquat as a potential environmental neurotoxin. Indeed, paraquat, administered systemically in rats produces behavioural excitation and brain damage. The brain damage appears to be selective for the pyriform cortex and this does not seem to be strictly related to the high concentrations reached by the herbicide in this area but to the higher vulnerability of this cortical area to the enhanced cholinergic transmission. The recent observation that paraquat, injected into the rat hippocampus, induces the expression of apoptotic neuronal cell death, appears of valuable interest also with a view to paraquat as an useful experimental model in the development of neuroprotective drugs able to block the molecular events which, once activated, are responsible for the induction of neuronal cell death.Paraquat ( 1,l '-dimethyl-4,4'-bipyridinium dichloride) is a potent non-selective contact herbicide. It was introduced in agriculture in 1962 and since then widely used in many countries for chemical weed control due to its speed of action, lack of selectivity and of biologically active residues (Sagar 1987). However, since its marketing, hundreds of cases of poisoning have been reported due to accidental or suicidal ingestion of the herbicide (Onyon & Volans 1987), although there are some reports of deaths caused by dermal exposure (see Smith 1988). The herbicide is extremely toxic to the pulmonary system where it is highly concentrated in an energy-dependent manner by an uptake system shared by polyamines, inducing acute alveolitis, widespread fibrosis and fatal hypoxia (Smith &Heath 1974;Smith 19...

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Estradiol reduces cytochrome c translocation and minimizes hippocampal damage caused by transient global ischemia in rat

Bagetta

Chiappetta

Amantea

et al. 2004

Neuroscience Letters

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