Valeria Sasso scite author profile

Remote damage is a secondary phenomenon that usually occurs after a primary brain damage in regions that are distant, yet functionally connected, and that is critical for determining the outcomes of several CNS pathologies, including traumatic brain and spinal cord injuries. The understanding of remote damage-associated mechanisms has been mostly achieved in several models of focal brain injury such as the hemicerebellectomy (HCb) experimental paradigm, which helped to identify the involvement of many key players, such as inflammation, oxidative stress, apoptosis and autophagy. Currently, few interventions have been shown to successfully limit the progression of secondary damage events and there is still an unmet need for new therapeutic options. Given the emergence of the novel concept of resolution of inflammation, mediated by the newly identified ω3-derived specialized pro-resolving lipid mediators, such as resolvins, we reported a reduced ability of HCb-injured animals to produce resolvin D1 (RvD1) and an increased expression of its target receptor ALX/FPR2 in remote brain regions. The in vivo administration of RvD1 promoted functional recovery and neuroprotection by reducing the activation of Iba-1+ microglia and GFAP+ astrocytes as well as by impairing inflammatory-induced neuronal cell death in remote regions. These effects were counteracted by intracerebroventricular neutralization of ALX/FPR2, whose activation by RvD1 also down-regulated miR-146b- and miR-219a-1-dependent inflammatory markers. In conclusion, we propose that innovative therapies based on RvD1-ALX/FPR2 axis could be exploited to curtail remote damage and enable neuroprotective effects after acute focal brain damage.

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Intermittent theta‐burst stimulation rescues dopamine‐dependent corticostriatal synaptic plasticity and motor behavior in experimental parkinsonism: Possible role of glial activity

Cacace

Mineo

Viscomi

et al. 2017

Movement Disorders

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Repetitive transcranial magnetic stimulation reduces remote apoptotic cell death and inflammation after focal brain injury

Sasso

Bisicchia

Latini

et al. 2016

J Neuroinflammation

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BackgroundAfter focal brain injuries occur, in addition to the effects that are attributable to the primary site of damage, the resulting functional impairments depend highly on changes that occur in regions that are remote but functionally connected to the site of injury. Such effects are associated with apoptotic and inflammatory cascades and are considered to be important predictors of outcome. Repetitive transcranial magnetic stimulation (rTMS) is a noninvasive technique that is used to treat various central nervous system (CNS) pathologies and enhance functional recovery after brain damage.ObjectiveThis study examined the efficacy of rTMS in mitigating remote degeneration and inflammation and in improving functional recovery in a model of focal brain damage.MethodsRats that were undergoing hemicerebellectomy (HCb) were treated with an rTMS protocol for 7 days, and neuronal death indices, glial activation, and functional recovery were assessed.ResultsrTMS significantly reduced neuronal death and glial activation in remote regions and improved functional recovery.ConclusionsOur finding opens up a completely new scenario for exploiting the potential of rTMS as an anti-apoptotic and anti-inflammatory treatment.Electronic supplementary materialThe online version of this article (doi:10.1186/s12974-016-0616-5) contains supplementary material, which is available to authorized users.

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Valeria Sasso

Resolvin D1 Halts Remote Neuroinflammation and Improves Functional Recovery after Focal Brain Damage Via ALX/FPR2 Receptor-Regulated MicroRNAs

Intermittent theta‐burst stimulation rescues dopamine‐dependent corticostriatal synaptic plasticity and motor behavior in experimental parkinsonism: Possible role of glial activity

Repetitive transcranial magnetic stimulation reduces remote apoptotic cell death and inflammation after focal brain injury

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