Utility of Induced Pluripotent Stem Cells for the Study and Treatment of Genetic Diseases: Focus on Childhood Neurological Disorders

The study of neurological disorders often presents with significant challenges due to the inaccessibility of human neuronal cells for further investigation. Advances in cellular reprogramming techniques, have however provided a new source of human cells for laboratory-based research. Patient-derived induced pluripotent stem cells (iPSCs) can now be robustly differentiated into specific neural subtypes, including dopaminergic, inhibitory GABAergic, motorneurons and cortical neurons. These neurons can then be utilized for in vitro studies to elucidate molecular causes underpinning neurological disease. Although human iPSC-derived neuronal models are increasingly regarded as a useful tool in cell biology, there are a number of limitations, including the relatively early, fetal stage of differentiated cells and the mainly two dimensional, simple nature of the in vitro system. Furthermore, clonal variation is a well-described phenomenon in iPSC lines. In order to account for this, robust baseline data from multiple control lines is necessary to determine whether a particular gene defect leads to a specific cellular phenotype. Over the last few years patient-derived neural cells have proven very useful in addressing several mechanistic questions related to central nervous system diseases, including early-onset neurological disorders of childhood. Many studies report the clinical utility of human-derived neural cells for testing known drugs with repurposing potential, novel compounds and gene therapies, which then can be translated to clinical reality. iPSCs derived neural cells, therefore provide great promise and potential to gain insight into, and treat early-onset neurological disorders

Unusual Kondo physics in a Co impurity atom embedded in noble-metal chains

We analyze the conduction bands of the one dimensional noble-metal chains that contain a Co magnetic impurity by means of ab initio calculations. We compare the results obtained for Cu and Ag pure chains, as well as O doped Cu, Ag and Au chains with those previously found for Au pure chains. We find similar results in the case of Cu and Au hosts, whereas for Ag chains a different behavior is obtained. Differences and similarities among the different systems are analyzed by comparing the electronic structure of the three noble-metal hosts. The d-orbitals of Cu chains at the Fermi level have the same symmetry as in the case of Au chains. These orbitals hybridize with the corresponding ones of the Co impurity, giving rise to the possibility of exhibiting a two-channel Kondo physics.Comment: Accepted in IEEE Trans. Magn. - April 201

Arl13b interferes with α-tubulin acetylation

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The role of manganese dysregulation in neurological disease: emerging evidence

Manganese is an essential trace metal. The dysregulation of manganese seen in a broad spectrum of neurological disorders reflects its importance in brain development and key neurophysiological processes. Historically, the observation of acquired manganism in miners and people who misuse drugs provided early evidence of brain toxicity related to manganese exposure. The identification of inherited manganese transportopathies, which cause neurodevelopmental and neurodegenerative syndromes, further corroborates the neurotoxic potential of this element. Moreover, manganese dyshomoeostasis is also implicated in Parkinson's disease and other neurodegenerative conditions, such as Alzheimer's disease and Huntington's disease. Ongoing and future research will facilitate the development of better targeted therapeutical strategies than are currently available for manganese-associated neurological disorders

Wavelets techniques for pointwise anti-Holderian irregularity

In this paper, we introduce a notion of weak pointwise Holder regularity, starting from the de nition of the pointwise anti-Holder irregularity. Using this concept, a weak spectrum of singularities can be de ned as for the usual pointwise Holder regularity. We build a class of wavelet series satisfying the multifractal formalism and thus show the optimality of the upper bound. We also show that the weak spectrum of singularities is disconnected from the casual one (denoted here strong spectrum of singularities) by exhibiting a multifractal function made of Davenport series whose weak spectrum di ers from the strong one

Genome Editing in iPSC-Based Neural Systems: From Disease Models to Future Therapeutic Strategies

Therapeutic advances for neurological disorders are challenging due to limited accessibility of the human central nervous system and incomplete understanding of disease mechanisms. Many neurological diseases lack precision treatments, leading to significant disease burden and poor outcome for affected patients. Induced pluripotent stem cell (iPSC) technology provides human neuronal cells that facilitate disease modeling and development of therapies. The use of genome editing, in particular CRISPR-Cas9 technology, has extended the potential of iPSCs, generating new models for a number of disorders, including Alzheimers and Parkinson Disease. Editing of iPSCs, in particular with CRISPR-Cas9, allows generation of isogenic pairs, which differ only in the disease-causing mutation and share the same genetic background, for assessment of phenotypic differences and downstream effects. Moreover, genome-wide CRISPR screens allow high-throughput interrogation for genetic modifiers in neuronal phenotypes, leading to discovery of novel pathways, and identification of new therapeutic targets. CRISPR-Cas9 has now evolved beyond altering gene expression. Indeed, fusion of a defective Cas9 (dCas9) nuclease with transcriptional repressors or activation domains allows down-regulation or activation of gene expression (CRISPR interference, CRISPRi; CRISPR activation, CRISPRa). These new tools will improve disease modeling and facilitate CRISPR and cell-based therapies, as seen for epilepsy and Duchenne muscular dystrophy. Genome engineering holds huge promise for the future understanding and treatment of neurological disorders, but there are numerous barriers to overcome. The synergy of iPSC-based model systems and gene editing will play a vital role in the route to precision medicine and the clinical translation of genome editing-based therapies

Fruit set and development of tomato grown in greenhouse : application of variable doses of plant growth regulators.

Las hormonas vegetales son capaces de controlar el desarrollo reproductivo, desde la diferenciación floral hasta los últimos estadios del desarrollo de los frutos. En particular, la etapa de fructificación y desarrollo depende del contenido endógeno de estas sustancias, y es posible manipular la iniciación del desarrollo del fruto por aplicación externa de hormonas. Previamente se evaluó el proceso de fructificación y desarrollo en el cultivo de tomate en invernadero en respuesta a la aplicación de b-NOA y AG3 en dosis fijas: se observó sensibilidad diferencial dependiendo del genotipo y tipo de regulador. El objetivo de este trabajo fue establecer dosis y momento óptimo para la aplicación de b-NOA y AG3 como formas de mejorar la fructificación y el desarrollo de frutos partenocárpicos. Como factores se consideraron tipo de regulador -b-NOA y AG3- en dosis y momentos de aplicación variables. Empleando ovarios no polinizados como sistema experimental fue posible concluir que la aplicación de 40 ppm de b-NOA a 7 días post antesis ofrece las mayores ventajas desde el punto de vista del rendimiento y menor impacto fisiológico, sin alterar el período de desarrollo de los frutos.Vegetable hormones are capable of controlling the reproductive development, from the flower differentiation until the last stages in the fruit development. In particular, the fruit set and development stage depends on the endogenous content of this substance, being possible to manipulate the beginning of the fruit development by external application of hormones. We have previously evaluated the fruit set and development process in tomato cultivation in greenhouse in response to the application of b-NOA and GA3 in fixed doses. Differential sensitivity was observed depending on the genotype and regulator type. The purpose of this work is to establish the optimum dose and moment for the application of b-NOA and GA3 as ways to improve the fruit set and development of parthenocarpic fruits. Regulator types b-NOA and GA3 in variable doses and application moments were considered as factors. Using unpollinated ovaries as an experimental system, it was possible to conclude that the application of 40 ppm of b-NOA at 7 days post antesis would offer the best advantages from a performance point of view and a lower physiologic impact, not altering the period of fruit development.Fil: Agüero, Marta S..Fil: Barral, Gabriela.Fil: Miguelisse, Nancy E..Fil: Castillo, Oscar E.

Rab11 is required for lysosome exocytosis through the interaction with Rab3a, Sec15 and GRAB

Funding: This study was supported by Fundaçã o para a Ciência e Tecnologia (FCT): C.E. was supported by a post-doctoral fellowship (SFRH/BPD/78491/2011), L.B.-L. by a PhD fellowship (SFRH/BD/131938/2017) and D.C.B. by the FCT Investigator Program (IF/00501/2014/CP1252/CT0001). This work was developed with the support from the research infrastructure PPBI-POCI-01-0145-FEDER-022122, co-financed by FCT (Portugal) and Lisboa2020, under the PORTUGAL2020 agreement (European Regional Development Fund). This article was supported by the LYSOCIL project. This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 811087. Deposited in PMC for immediate release.Lysosomes are dynamic organelles, capable of undergoing exocytosis. This process is crucial for several cellular functions, namely plasma membrane repair. Nevertheless, the molecular machinery involved in this process is poorly understood. Here, we identify Rab11a and Rab11b as regulators of calcium-induced lysosome exocytosis. Interestingly, Rab11-positive vesicles transiently interact with lysosomes at the cell periphery, indicating that this interaction is required for the last steps of lysosome exocytosis. Additionally, we found that the silencing of the exocyst subunit Sec15, a Rab11 effector, impairs lysosome exocytosis, suggesting that Sec15 acts together with Rab11 in the regulation of lysosome exocytosis. Furthermore, we show that Rab11 binds the guanine nucleotide exchange factor for Rab3a (GRAB) and also Rab3a, which we described previously as a regulator of the positioning and exocytosis of lysosomes. Thus, our study identifies new players required for lysosome exocytosis and suggest the existence of a Rab11-Rab3a cascade involved in this process.publishersversionpublishe

Assessment of human influenza pandemic scenarios in Europe

The response to the emergence of the 2009 influenza A(H1N1) pandemic was the result of a decade of pandemic planning, largely centred on the threat of an avian influenza A(H5N1) pandemic. Based on a literature review, this study aims to define a set of new pandemic scenarios that could be used in case of a future influenza pandemic. A total of 338 documents were identified using a searching strategy based on seven combinations of keywords. Eighty-three of these documents provided useful information on the 13 virus-related and health-system-related parameters initially considered for describing scenarios. Among these, four parameters were finally selected (clinical attack rate, case fatality rate, hospital admission rate, and intensive care admission rate) and four different levels of severity for each of them were set. The definition of six most likely scenarios results from the combination of four different levels of severity of the four final parameters (256 possible scenarios). Although it has some limitations, this approach allows for more flexible scenarios and hence it is far from the classic scenarios structure used for pandemic plans until 2009

Fruit set and development of tomato grown in greenhouse : effect of plant growth regulators

El proceso de fructificación y desarrollo en tomate puede ser inducido naturalmente por polinización o partenocarpia y artificialmente por aplicación de reguladores; esta respuesta es variable según tipo y dosis de hormona, momento de aplicación y cultivar involucrado. El objetivo de este trabajo fue evaluar la capacidad de auxinas y giberelinas para inducir el desarrollo partenocárpico en genotipos de crecimiento indeterminado. Como factores se consideraron tipo de regulador -AG3 y β-NOA- en dosis fija, momento de aplicación -0, 5, 12, 19, 26 dpa- y genotipo -Rutgers, Fortaleza F1 y Colt 45-. Las mejores respuestas a nivel de porcentaje de fructificación y peso fresco se obtuvieron con β-NOA en comparación con AG3. Considerando todos los factores analizados, solamente la aplicación de β-NOA a 5 dpa permitió alcanzar porcentajes de fructificación y tamaño final de frutos similares a los obtenidos por autopolinización. El período de sensibilidad y el tamaño final de los frutos presentaron interacción con las variables genotipo, momento de aplicación y tipo de regulador. Se observó además que AG3 provocó un escaso desarrollo placentario y ausencia de óvulos mientras que β-NOA indujo un desarrollo de placentas y óvulos similar al de los frutos obtenidos por autopolinización.The process of fruit set and development in tomato can be naturally induced by pollination or parthenocarpy and artificiall y by hormonal application; this response is variable according to type and dose of the hormone, moment of application and cultivar involved. The purpose of this work was to evaluate the capacity of auxins and gibberellins to induce the parthenocarpic development in genotypes of undetermined growth. The considered factors were type of regulator -AG3 and β-NOAin set dose, moment of application -0, 5, 12, 19, 26 dpa-, and genotype -Rutgers, Fortaleza F1 and Colt 45-. The best responses regarding percentage of fructification and fresh weight are obtained with β-NOA in comparison with AG3. Considering all the analyzed factors, only the application of β-NOA to 5 dpa allowed to obtain the percentages of fruit set and final size of fruits similar to the ones obtained by autopollination. The period of sensitivity and the final size of fruits presented interaction with the genotype variables, moment of application and type of regulator. It was also observed that AG3 caused a scarce placental development and ovule absence while β-NOA induced a placenta and ovule development similar to the one in fruits obtained by autopollination.Fil: Castillo, Oscar E..Fil: Barral, Gabriela.Fil: Rodríguez, Gustavo.Fil: Miguelisse, Nancy E..Fil: Agüero, Marta S.