Percorrer por autor "Barreira, A."
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- Is serotonin receptor HTR1B implicated in mesial temporal lobe epilepsy development?Publication . Leal, B.; Barreira, A.; Chaves, J.; Carvalho, C.; Bettencourt, A.; Martins da Silva, A.; Costa, P.P.; Martins da Silva, B.Background: Evidences from animal models have demonstrated that depletion of brain serotonin (5-HT), a neurotransmitter with a pivotal role in neurodevelopment and brain plasticity, lowers the threshold to induced seizures. It was also demonstrated that anti-epileptic drugs increase endogenous 5-HT concentrations and that 5HT-1B receptors could have an anticonvulsant role. Association studies have demonstrated that a polymorphism (rs6296) in 5HTR-1B gene may be a susceptibility factor for with temporal lobe epilepsy (TLE) development. The rs6296 G allele has been associated with decreased receptor activity. Our aim was to analyse the association between rs6296 and the development and clinical features of Mesial Temporal Lobe Epilepsy (MTLE) in a Portuguese population. Material and methods: A cohort of 121 MTLE patients (67 F, 54 M, mean age = 44 ± 11 years, age of onset = 13 ± 9 years) was compared with a cohort of 192 healthy individuals (HI). All patients had Hippocampal Sclerosis (MTLE–HS). Genotyping was performed by TaqMan real time PCR methodology. Results: rs6296 G allele was overrepresented in MTLE patients compared to controls (80.2% in MTLE vs 72.1% in HI, p = 0.029 OR = 1.561 (1.060–2.298)). We constituted 2 MTLE–HS sub-groups, according to febrile seizure antecedents and no differences in rs6596 allelic or genotypic frequencies were found. Conclusion: The rs6296 G allele may be a susceptibility factor to MTLE–HS development. Since these receptors have an anticonvulsant role, a reduction in their activity could lower the threshold for seizure development.
- Mesial temporal lobe epilepsy and serotonin: the role of HTR2A receptorPublication . Chaves, J.; Leal, B.; Carvalho, C.; Bettencourt, A.; Bras, S.; Barreira, A.; Boleixa, D.; Martins da Silva, A.; Costa, P.P.; Martins da Silva, B.Purpose: Evidences from animal models have demonstrated that depletion of brain serotonin (5-HT), a neurotransmitter with a pivotal role in neurodevelopment and brain plasticity, lowers the threshold to induced seizures. It was also demonstrated that anti-epileptic drugs increase endogenous 5-HT concentrations. Studies in brain tissue from Mesial Temporal lobe Epilepsy (MTLE) patients have showed that serotonin type 2a receptor (HTR2A) is downregulated in these patients. HTR2A expression levels may be modulated by a 102 T>C polymorphism. The aim of this study was to analyse the association between 102T>C polymorphism and the development and clinical features of MTLE-HS in a Portuguese population. Methods: A cohort of 112 MTLE-HS patients (62F, 50M, mean age = 44 11 years, age of onset = 13 9 years, 97 patients with drug refractory epilepsy) was compared with a cohort of 183 healthy individuals (HI). Genotyping was performed by Real Time PCR using High Melting Resolution methodology. Results: HTR2A 102 T>C genotype frequencies were similar between patients and controls (TT: 24.1% vs. 25.1% in HI; TC: 45.5% vs. 43.2% in HI; CC: 31.3% vs. 31.7% in HI). No association was found between this polymorphism and MTLE-HS clinical features (age of onset, FS antecedents and anti-epileptic drug response). Conclusion: The present results do not provide evidence that HTR2A polymorphism 102T>C may confer susceptibility to MTLE-HS. Nevertheless a possible role for the serotonergic system in epileptogenesis cannot be excluded. The study of other 5-HT receptors and transporters is underway.