A Zaratti scite author profile

A Zaratti

3Publications

36Citation Statements Received

105Citation Statements Given

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Affiliations

Istituto Superiore di Sanità, University of Rome Tor Vergata

Publications

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Miglustat Reverts the Impairment of Synaptic Plasticity in a Mouse Model of NPC Disease

et al. 2016

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Niemann-Pick type C disease is an autosomal recessive storage disorder, characterized by abnormal sequestration of unesterified cholesterol within the late endolysosomal compartment of cells and accumulation of gangliosides and other sphingolipids. Progressive neurological deterioration and insurgence of symptoms like ataxia, seizure, and cognitive decline until severe dementia are pathognomonic features of the disease. Here, we studied synaptic plasticity phenomena and evaluated ERKs activation in the hippocampus of BALB/c NPC1−/− mice, a well described animal model of the disease. Our results demonstrated an impairment of both induction and maintenance of long term synaptic potentiation in NPC1−/− mouse slices, associated with the lack of ERKs phosphorylation. We then investigated the effects of Miglustat, a recent approved drug for the treatment of NPCD. We found that in vivo Miglustat administration in NPC1−/− mice was able to rescue synaptic plasticity deficits, to restore ERKs activation and to counteract hyperexcitability. Overall, these data indicate that Miglustat may be effective for treating the neurological deficits associated with NPCD, such as seizures and dementia.

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Early Hippocampal i-LTP and LOX-1 Overexpression Induced by Anoxia: A Potential Role in Neurodegeneration in NPC Mouse Model

Castro

Murdocca

Pucci

et al. 2017

IJMS

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Niemann-Pick type C disease (NPCD) is an autosomal recessive storage disorder, characterized by abnormal sequestration of unesterified cholesterol within the late endo-lysosomal compartment of cells. In the central nervous system, hypoxic insults could result in low-density lipoprotein (LDL) oxidation and Lectin-like oxidized LDL receptor-1 (LOX-1) induction, leading to a pathological hippocampal response, namely, ischemic long-term potentiation (i-LTP). These events may correlate with the progressive neural loss observed in NPCD. To test these hypotheses, hippocampal slices from Wild Type (WT) and NPC1−/− mice were prepared, and field potential in the CA1 region was analyzed during transient oxygen/glucose deprivation (OGD). Moreover, LOX-1 expression was evaluated by RT-qPCR, immunocytochemical, and Western blot analyses before and after an anoxic episode. Our results demonstrate the development of a precocious i-LTP in NPC1−/− mice during OGD application. We also observed a higher expression of LOX-1 transcript and protein in NPC1−/− mice with respect to WT mice; after anoxic damage to LOX-1 expression, a further increase in both NPC1−/− and WT mice was observed, although the protein expression seems to be delayed, suggesting a different kinetic of induction. These data clearly suggest an elevated susceptibility to neurodegeneration in NPC1−/− mice due to oxidative stress. The observed up-regulation of LOX-1 in the hippocampus of NPC1−/− mice may also open a new scenario in which new biomarkers can be identified.

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Sticholysin II Identifies Intracellular Lipid Deposits in Niemann Pick C Fibroblasts

Zaratti¹,

Taurisano²,

Deodato³

et al. 2016

J Toxins

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A Zaratti

Miglustat Reverts the Impairment of Synaptic Plasticity in a Mouse Model of NPC Disease

Early Hippocampal i-LTP and LOX-1 Overexpression Induced by Anoxia: A Potential Role in Neurodegeneration in NPC Mouse Model

Sticholysin II Identifies Intracellular Lipid Deposits in Niemann Pick C Fibroblasts

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