GeoTextMESS: result fusion with fuzzy Borda ranking in geographical information retrieval

In this paper we discuss the integration of different GIR systems by means of a fuzzy Borda method for result fusion. Two of the systems, the one by the Universidad Politécnica de Valencia and the one of the Universidad of Jaén participated to the GeoCLEF task under the name TextMess. The proposed result fusion method takes as input the document lists returned by the different systems and returns a document list where the documents are ranked according to the fuzzy Borda voting scheme. The obtained results show that the fusion method allows to improve the results of the component systems, although the fusion is not optimal, because it is effective only if the components return a similar set of relevant documents.Peer ReviewedPostprint (author’s final draft

Exercicis

1r fitxer: "Problemas y soluciones de: operaciones con matrices, cálculo de rangos, cálculo de determinantes, sistemas de ecuaciones e inversión de matrices." 2n fitxer: "Problemas y soluciones sobre dependencia e independencia lineal de vectores, bases y dimensión, ecuaciones implícitas y paramétricas de rectas y planos." 3r fitxer: "Problemes i solucions sobre sistemes de referència a fins. Equacions del canvi, efecte de la referència en equacions de plans i rectes, i referències adaptades a varietats afins." 4rt fitxer: "Problemas y soluciones sobre sistemas de referencia afines. Ecuaciones del cambio, efecto de la referencia en ecuaciones de planos y rectas, y referencias adaptadas a variedades afines." 5è fitxer: "Problemes i solucions de moviments (isometries) al pla i a l'espai."2010/201

Fine tune control of dopamine neurotransmission by alpha-synuclein: down- and over-expression models

Póster presentado en el IX Simposi de Neurobiologia Experimental, celebrado los días 22 y 23 de octubre de 2014 en Barcelona y organizado por la Societat Catalana de Biologia del Institut d'Estudis CatalansAlpha-synuclein protein (α-syn) accumulates in the brain of patients with Parkinson´s disease (PD) and leaves a degeneration of midbrain dopamine (DA) neurons. However, the normal function of α-syn on DA neurotransmission in vivo remains poorly understood. Here, we used two mouse models with a) reduced α-syn expression in the substantia nigra compacta (SNc) and ventral tegmental area (VTA) induced by antisense oligonucleotide molecule (ASO) and, b) modest α-syn over-expression in tyrosine hydroxylase (TH)-positive neurons in the absence of overt toxicity. ASO sequence against α-syn was conjugated to a cell-specific ligand, indatraline (monoamine transporter inhibitor), to promote its selective delivery into monoamine neurons after intranasal administration. Indatraline-α-syn-ASO conjugate (1233ASO) entered into midbrain DA cells followed by trafficking to deep endomembrane vesicles associated with Rab7 resulting in an efficient α-syn knockdown. Indeed, 4-day 1233ASO treatment (30µg/day) decreased α-syn mRNA and protein levels in SNc/VTA (84.1±1.7% and 57.7±7.8% of PBS-treated animals, respectively). Alpha-synuclein suppression displayed an enhancement striatal DA tone using intracerebral microdialysis. Local veratridine (50 µM) perfusion increased extracellular DA levels more efficient in 1233ASO-treated than PBS-treated mice. Similarly, nomifensine (1-10-50 µM) or amphetamine (1-10-100 µM) showed a marked doseeffect which phenotypic differences. Tetrabenazine (VMAT2 inhibitor, 100 µM) reduced striatal DA levels in 1233ASO-treated mice. This effect was lower than in control mice. Conversely, we found that over-expressed α-syn inhibits striatal DA release. Together, this evidence indicates a physiological role for a-syn as a >fine tune> modulator of nigroestriatal DA release and the effects depend on the a-syn expression levelsSpanish Ministery of Economy and Competitiveness, INNPACTO Subprogram IPT-2012-1208-300000; Instituto de Salud Carlos III (ISCIII) Grant PI13/01390. Some of these grants are co-financed by the European Regional Development Fund “A way to build Europe”Peer Reviewe

Therapeutic antidepressant potential of a conjugated siRNA silencing the serotonin transporter after intranasal administration

A Ferrés-Coy et al.Major depression brings about a heavy socio-economic burden worldwide due to its high prevalence and the low efficacy of antidepressant drugs, mostly inhibiting the serotonin transporter (SERT). As a result, similar to 80% of patients show recurrent or chronic depression, resulting in a poor quality of life and increased suicide risk. RNA interference (RNAi) strategies have been preliminarily used to evoke antidepressant-like responses in experimental animals. However, the main limitation for the medical use of RNAi is the extreme difficulty to deliver oligonucleotides to selected neurons/systems in the mammalian brain. Here we show that the intranasal administration of a sertraline-conjugated small interfering RNA (C-SERT-siRNA) silenced SERT expression/function and evoked fast antidepressant-like responses in mice. After crossing the permeable olfactory epithelium, the sertraline-conjugated-siRNA was internalized and transported to serotonin cell bodies by deep Rab-7-associated endomembrane vesicles. Seven-day C-SERT-siRNA evoked similar or more marked responses than 28-day fluoxetine treatment. Hence, C-SERT-siRNA (i) downregulated 5-HT1A-autoreceptors and facilitated forebrain serotonin neurotransmission, (ii) accelerated the proliferation of neuronal precursors and (iii) increased hippocampal complexity and plasticity. Further, short-term C-SERT-siRNA reversed depressive -like behaviors in corticosterone-treated mice. The present results show the feasibility of evoking antidepressant -like responses by selectively targeting neuronal populations with appropriate siRNA strategies, opening a way for further translational studies.This work was supported by grants from CDTI—Spanish Ministry of Science and Innovation—DENDRIA contribution, 'nLife all rights reserved' (to AB and FA); Instituto de Salud Carlos III PI10/00290 and PI13/01390 (to AB), PI/10/0123 (to JCL) and Centro de Investigación Biomédica en Red de Salud Mental (CIBERSAM); NARSAD Independent Investigator Grant from the Brain & Behavior Research Foundation Grant 20003 (to AB); Ministry of Economy and Competitiveness SAF2012-35183 (to FA) and SAF2011-25020 (to AP); and Generalitat de Catalunya, Secretaria d’Universitat i Recerca del Departament d’Economia i Coneixement (SGR2014) Catalan Government Grant 2009SGR220 (to FA). Some of these grants are co-financed by the European Regional Development Fund 'A way to build Europe'. AF-C is a recipient of a fellowship from Spanish Ministry of Education, Culture and Sport.Peer Reviewe