Maria Cristina Regondi scite author profile

Dynamic modulation of the actin cytoskeleton is critical for synaptic plasticity, abnormalities of which are thought to contribute to mental illness and addiction. Here we report that mice lacking Eps8, a regulator of actin dynamics, are resistant to some acute intoxicating effects of ethanol and show increased ethanol consumption. In the brain, the N-methyl-D-aspartate (NMDA) receptor is a major target of ethanol. We show that Eps8 is localized to postsynaptic structures and is part of the NMDA receptor complex. Moreover, in Eps8 null mice, NMDA receptor currents and their sensitivity to inhibition by ethanol are abnormal. In addition, Eps8 null neurons are resistant to the actin-remodeling activities of NMDA and ethanol. We propose that proper regulation of the actin cytoskeleton is a key determinant of cellular and behavioral responses to ethanol.

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A two-hit story: Seizures and genetic mutation interaction sets phenotype severity in SCN1A epilepsies

Salgueiro-Pereira

Duprat²,

Pousinha

et al. 2019

Neurobiology of Disease

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Eps8 controls dendritic spine density and synaptic plasticity through its actin-capping activity

Menna

Zambetti

Morini

et al. 2013

EMBO J

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Actin-based remodelling underlies spine structural changes occurring during synaptic plasticity, the process that constantly reshapes the circuitry of the adult brain in response to external stimuli, leading to learning and memory formation. A positive correlation exists between spine shape and synaptic strength and, consistently, abnormalities in spine number and morphology have been described in a number of neurological disorders. In the present study, we demonstrate that the actinregulating protein, Eps8, is recruited to the spine head during chemically induced long-term potentiation in culture and that inhibition of its actin-capping activity impairs spine enlargement and plasticity. Accordingly, mice lacking Eps8 display immature spines, which are unable to undergo potentiation, and are impaired in cognitive functions. Additionally, we found that reduction in the levels of Eps8 occurs in brains of patients affected by autism compared to controls. Our data reveal the key role of Eps8 actin-capping activity in spine morphogenesis and plasticity and indicate that reductions in actin-capping proteins may characterize forms of intellectual disabilities associated with spine defects.

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Altered spatial distribution of PV‐cortical cells and dysmorphic neurons in the somatosensory cortex of BCNU‐treated rat model of cortical dysplasia

Moroni¹,

Inverardi²,

Regondi³

et al. 2008

Epilepsia

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SUMMARYPurpose: Cortical dysplasia (CD) represents a wide range of histopathological abnormalities of the cortical mantle that are frequently associated with drug-resistant epilepsy. Recently, carmustine (1-3-bis-chloroethyl-nitrosurea [BCNU]), given to pregnant rats on embryonic day (E) 15, has been used to develop an experimental model mimicking human CD. The aim of this study was to characterize cytological and histological alterations in this model, and compare the results with those observed in human CD. Methods: Pregnant rats were given intraperitoneal injections of BCNU on E15. Sections of cerebral cortex from adult BCNU-treated rats were cytoarchitecturally and immunohistochemically analyzed using anti-SMI311, anticalbindin (CB), and antiparvalbumin (PV) antibodies. The density of the PVimmunoreactive (PV-ir) interneurons was quantitatively assessed by means of a two-dimensional cell-counting technique, and the spatial distribution of PV-ir neurons was evaluated by using the Voronoi tessellation. Results: The morphological features included reduced cortical size, laminar disorganization, and heterotopic clusters of neurons. We also identified large, disoriented SMI311-positive pyramidal neurons, and dysmorphic neurons intensely immunostained for neurofilaments, similar to those observed in human dysplastic cortex. An altered distribution of PV-immunoreactive cortical interneurons was also present. Conclusions: Although some of the cytoarchitectural abnormalities found in BCNU-exposed cortex are similar to those found in other CD models, we identified new alterations that recall the neuropathological description of type IIA (Taylor's type) CD. BCNU-treated rat could therefore be a useful additional model for investigating the pathogenic mechanisms involved in this CD.

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