Elena Pasini scite author profile

Autosomal-dominant lateral temporal epilepsy (ADLTE) is a genetic epilepsy syndrome clinically characterized by focal seizures with prominent auditory symptoms. ADLTE is genetically heterogeneous, and mutations in LGI1 account for fewer than 50% of affected families. Here, we report the identification of causal mutations in reelin (RELN) in seven ADLTE-affected families without LGI1 mutations. We initially investigated 13 ADLTE-affected families by performing SNP-array linkage analysis and whole-exome sequencing and identified three heterozygous missense mutations co-segregating with the syndrome. Subsequent analysis of 15 small ADLTE-affected families revealed four additional missense mutations. 3D modeling predicted that all mutations have structural effects on protein-domain folding. Overall, RELN mutations occurred in 7/40 (17.5%) ADLTE-affected families. RELN encodes a secreted protein, Reelin, which has important functions in both the developing and adult brain and is also found in the blood serum. We show that ADLTE-related mutations significantly decrease serum levels of Reelin, suggesting an inhibitory effect of mutations on protein secretion. We also show that Reelin and LGI1 co-localize in a subset of rat brain neurons, supporting an involvement of both proteins in a common molecular pathway underlying ADLTE. Homozygous RELN mutations are known to cause lissencephaly with cerebellar hypoplasia. Our findings extend the spectrum of neurological disorders associated with RELN mutations and establish a link between RELN and LGI1, which play key regulatory roles in both the developing and adult brain.Temporal-lobe epilepsy is the most common type of focal epilepsy. It is sometimes associated with structural brain lesions, but genetic forms have also been described. Familial temporal-lobe epilepsy comprises two genetically distinct syndromes: familial mesial temporal-lobe epilepsy (FMTLE [MIM: 611630]) 1 and autosomal-dominant lateral temporal epilepsy (ADLTE [MIM: 600512]), also named autosomal-dominant partial epilepsy with auditory features (ADPEAF). 2 ADLTE is a well-defined epileptic syndrome clinically characterized by focal seizures with prominent auditory and/or aphasic symptoms, normal brain MRI, and relatively benign evolution. 2,3 Its inheritance pattern is autosomal dominant with reduced penetrance (around 70%). Mutations associated with ADLTE are found in leucine-rich, glioma inactivated 1 (LGI1 [MIM: 604619]) 4-6 in 30%-50% of ADLTE-affected families. 3,7,8 Other genes harboring ADLTE-causing mutations are unknown.LGI1 is expressed mainly in neurons, particularly in the neocortex and limbic regions, 4,9 and its protein product, LGI1, is secreted. 9 LGI1 has been implicated in the transmission of K þ and AMPA synaptic currents 10,11 and in the regulation of post-natal maturation of cortical excitatory synapses and dendrite pruning. 12 However, it is not known which of these functions underlies ADLTE. Identification of additional genes whose mutations cause ADLTE will help to clarify the pathoge...

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Myoclonus epilepsy and ataxia due to KCNC1 mutation: Analysis of 20 cases and K⁺ channel properties

Oliver

Franceschetti

Milligan

et al. 2017

Annals of Neurology

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MEAK has a relatively homogeneous presentation, resembling Unverricht-Lundborg disease, despite the genetic and biological basis being quite different. A remarkable improvement with fever may be explained by the temperature-dependent leftward shift in activation of wild-type K 3.1 subunit-containing channels, which would counter the loss of function observed for mutant channels, highlighting KCNC1 as a potential target for precision therapeutics. Ann Neurol 2017;81:677-689.

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From bench to bedside: in vitro and in vivo evaluation of a neonate-focused nebulized surfactant delivery strategy

et al. 2019

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Background Non-invasive delivery of nebulized surfactant has been a neonatology long-pursued goal. Nevertheless, the clinical efficacy of nebulized surfactant remains inconclusive, in part, due to the great technical challenges of depositing nebulized drugs in the lungs of preterm infants. The aim of this study was to investigate the feasibility of delivering nebulized surfactant ( poractant alfa ) in vitro and in vivo with an adapted, neonate-tailored aerosol delivery strategy. Methods Particle size distribution of undiluted poractant alfa aerosols generated by a customized eFlow-Neos nebulizer system was determined by laser diffraction. The theoretical nebulized surfactant lung dose was estimated in vitro in a clinical setting replica including a neonatal continuous positive airway pressure (CPAP) circuit, a cast of the upper airways of a preterm neonate, and a breath simulator programmed with the tidal breathing pattern of an infant with mild respiratory distress syndrome (RDS). A dose-response study with nebulized surfactant covering the 100–600 mg/kg nominal dose-range was conducted in RDS-modelling, lung-lavaged spontaneously-breathing rabbits managed with nasal CPAP. The effects of nebulized poractant alfa on arterial gas exchange and lung mechanics were assessed. Exogenous alveolar disaturated-phosphatidylcholine (DSPC) in the lungs was measured as a proxy of surfactant deposition efficacy. Results Laser diffraction studies demonstrated suitable aerosol characteristics for inhalation (mass median diameter, MMD = 3 μm). The mean surfactant lung dose determined in vitro was 13.7% ± 4.0 of the 200 mg/kg nominal dose. Nebulized surfactant delivered to spontaneously-breathing rabbits during nasal CPAP significantly improved arterial oxygenation compared to animals receiving CPAP only. Particularly, the groups of animals treated with 200 mg/kg and 400 mg/kg of nebulized poractant alfa achieved an equivalent pulmonary response in terms of oxygenation and lung mechanics as the group of animals treated with instilled surfactant (200 mg/kg). Conclusions The customized eFlow-Neos vibrating-membrane nebulizer system efficiently generated respirable aerosols of undiluted poractant alfa . Nebulized surfactant delivered at doses of 200 mg/kg and 400 mg/kg elicited a pulmonary response equivalent to that observed after treatment with an intratracheal surfactant bolus of 200 mg/kg. This bench-characterized nebulized surfactant delivery strategy is now under evaluation in Phase II clinical trial (EUDRACT No.:2016–004547-36). Electronic supplementary material The online version of this article (10.1186/s12931-019-1096-9) contains supplementary material, which is available to authorized users.

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Elena Pasini

Heterozygous Reelin Mutations Cause Autosomal-Dominant Lateral Temporal Epilepsy

Myoclonus epilepsy and ataxia due to KCNC1 mutation: Analysis of 20 cases and K⁺ channel properties

From bench to bedside: in vitro and in vivo evaluation of a neonate-focused nebulized surfactant delivery strategy

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Elena Pasini

Heterozygous Reelin Mutations Cause Autosomal-Dominant Lateral Temporal Epilepsy

Myoclonus epilepsy and ataxia due to KCNC1 mutation: Analysis of 20 cases and K+ channel properties

From bench to bedside: in vitro and in vivo evaluation of a neonate-focused nebulized surfactant delivery strategy

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Myoclonus epilepsy and ataxia due to KCNC1 mutation: Analysis of 20 cases and K⁺ channel properties