Spelling suggestions: "subject:"spinocerebellar ataxia type 7"" "subject:"spinocerebellar staxia type 7""
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Expression and functional analysis of the SCA7 disease protein ataxin-7 / Studier av uttrycket och funktionen av SCA7 sjukdomsproteinet ataxin-7Ström, Anna-Lena January 2004 (has links)
<p>Spinocerebellar ataxia type 7 (SCA7) is a neurodegenerative disease characterized by cerebellar ataxia and visual problems due to a progressive and selective loss of neurons within the cerebellum, brainstem and retina. The disease is caused by the expansion of a CAG repeat in the first coding exon of the SCA7 gene, resulting in an expanded polyglutamine domain in the N-terminal part of ataxin-7, a protein of unknown function.</p><p>To expand our knowledge of the ataxin-7 protein and the mechanism by which mutant ataxin-7 causes disease, we have studied the expression and function of both the normal and the mutated ataxin-7 protein. </p><p>Ataxin-7 expression was examination in brain and non-CNS tissues from SCA7 patients and age-matched controls. Expression was predominantly nuclear in neurons throughout the brain of both healthy and SCA7 individuals. We also observed aggregation of mutant ataxin-7 in the nuclei of neurons. No obvious difference in the expression level of ataxin-7 or the formation of aggregates could be observed between affected and non-affected brain regions in SCA7 patients. Based on these findings, we could conclude that the cell type specific neurodegeneration in SCA7 is not due to differences in expression levels or to the formation of ataxin-7 aggregates.</p><p>To widen our studies on ataxin-7 expression, we isolated and characterized the mouse SCA7 gene homolog. Cloning of the mouse SCA7 gene revealed two SCA7 mRNA isoforms that were highly homologous to their human counterparts. Immunohistochemical analysis also revealed a conserved expression pattern of ataxin-7 in adult mouse brain. In addition, ataxin-7 expression was observed during embryonic development in brain as well as in several non-neuronal tissues such as heart, liver and lung. </p><p>Besides SCA7, eight neurodegenerative disorders are known to be caused by expanded polyglutamine repeats, including SCA 1-3, 6 and 17, DRPLA, SBMA and Huntington’s disease. The polyglutamine disorders have many features in common and a common pathological disease mechanism involving transcriptional dysregulation has been proposed. To investigate the possible involvement of transcriptional dysregulation in SCA7 pathology, we analyzed the effects of both wild-type and expanded ataxin-7 on transcription driven by the co-activator CBP, the Purkinje cell-expressed nuclear receptor RORα1 or a basic TATA promoter. As previously shown for other polyglutamine disease proteins, expansion of the polyglutamine domain in ataxin-7 leads to reduced transcription. Surprisingly, strong repression of CBP-mediated, RORα1-mediated and basal transcription was also observed with wild-type ataxin-7, suggesting that the normal ataxin-7 protein may have a role in transcriptional regulation. </p>
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Expression and functional analysis of the SCA7 disease protein ataxin-7 / Studier av uttrycket och funktionen av SCA7 sjukdomsproteinet ataxin-7Ström, Anna-Lena January 2004 (has links)
Spinocerebellar ataxia type 7 (SCA7) is a neurodegenerative disease characterized by cerebellar ataxia and visual problems due to a progressive and selective loss of neurons within the cerebellum, brainstem and retina. The disease is caused by the expansion of a CAG repeat in the first coding exon of the SCA7 gene, resulting in an expanded polyglutamine domain in the N-terminal part of ataxin-7, a protein of unknown function. To expand our knowledge of the ataxin-7 protein and the mechanism by which mutant ataxin-7 causes disease, we have studied the expression and function of both the normal and the mutated ataxin-7 protein. Ataxin-7 expression was examination in brain and non-CNS tissues from SCA7 patients and age-matched controls. Expression was predominantly nuclear in neurons throughout the brain of both healthy and SCA7 individuals. We also observed aggregation of mutant ataxin-7 in the nuclei of neurons. No obvious difference in the expression level of ataxin-7 or the formation of aggregates could be observed between affected and non-affected brain regions in SCA7 patients. Based on these findings, we could conclude that the cell type specific neurodegeneration in SCA7 is not due to differences in expression levels or to the formation of ataxin-7 aggregates. To widen our studies on ataxin-7 expression, we isolated and characterized the mouse SCA7 gene homolog. Cloning of the mouse SCA7 gene revealed two SCA7 mRNA isoforms that were highly homologous to their human counterparts. Immunohistochemical analysis also revealed a conserved expression pattern of ataxin-7 in adult mouse brain. In addition, ataxin-7 expression was observed during embryonic development in brain as well as in several non-neuronal tissues such as heart, liver and lung. Besides SCA7, eight neurodegenerative disorders are known to be caused by expanded polyglutamine repeats, including SCA 1-3, 6 and 17, DRPLA, SBMA and Huntington’s disease. The polyglutamine disorders have many features in common and a common pathological disease mechanism involving transcriptional dysregulation has been proposed. To investigate the possible involvement of transcriptional dysregulation in SCA7 pathology, we analyzed the effects of both wild-type and expanded ataxin-7 on transcription driven by the co-activator CBP, the Purkinje cell-expressed nuclear receptor RORα1 or a basic TATA promoter. As previously shown for other polyglutamine disease proteins, expansion of the polyglutamine domain in ataxin-7 leads to reduced transcription. Surprisingly, strong repression of CBP-mediated, RORα1-mediated and basal transcription was also observed with wild-type ataxin-7, suggesting that the normal ataxin-7 protein may have a role in transcriptional regulation.
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Etude du rôle de l'Ataxine-7 dans le développement de l'œil et son impact dans la compréhension des pathologies de l'œil et de l'ataxie spinocérébelleuse de type 7 / Role of Ataxin-7 in the development of vertebrate eye and its impact in the understanding of human eye pathologies and spinocerebellar ataxia type 7Carrillo-Rosas, Samantha 30 October 2017 (has links)
L’ataxie spinocérébelleuse de type 7 (SCA7) est une maladie neurodégénérative à transmission autosomale dominante, causée par une expansion toxique de polyglutamine (polyQ) dans la protéine Ataxine-7. Elle se caractérise par une dégénérescence des photorécepteurs en cônes et en bâtonnets, ainsi que des cellules cérébelleuses de Purkinje et granuleuses. La nature sélective de cette dégénérescence reste peu claire, l’expression d’Ataxine-7 étant ubiquitaire. Dans ce contexte, nous avons exploré la fonction de l’orthologue d’Ataxine-7 chez le poisson-zèbre au cours du développement de l’œil. L’inactivation d’atxn7 chez le poisson-zèbre – par des approches utilisant des oligonucléotides anti-sens ou par CRISPR/Cas9 – résulte principalement en un colobome, malformation structurelle de l’œil causée par un défaut de fermeture de la fissure choroïde. Les morphants atxn7 présentent une altération du motif proximo-distal de la vésicule optique causée par une élévation de la signalisation Hedgehog (Hh). Une étude minutieuse des photorécepteurs révèle un défaut de la morphogénèse des segments externes. La sensibilité de l’œil aux variations de fonction d’atxn7 pourrait expliquer la phyiopathologie SCA7. Notre étude suggère également qu’une perte de fonction d’atxn7 contribuerait au développement du colobome chez l’Homme. / Spinocerebellar ataxia type 7 (SCA7) is an autosomal-dominant neurodegenerative disorder caused by a toxic polyglutamine (polyQ) expansion in Ataxin-7 which leads to degeneration of cone and rod photoreceptors. The selective nature of degeneration remains unclear since Ataxin-7 is ubiquitously expressed. Here, we have explored the function of the Ataxin-7 ortholog in zebrafish during eye development. Inactivation of atxn7 in zebrafish primarily resulted in a coloboma defect, a structural malformation of the eye caused by failure of the choroid fissure to close. atxn7 morphants displayed altered proximo-distal patterning of the optic vesicle, caused by elevated Hedgehog (Hh) signaling. Careful examination of the photoreceptors reveals a defect in the morphogenesis of the outer segments. The eye sensitivity to variations in atxn7 function could account for SCA7 physiopathology. Our study also suggests that atxn7 loss of function may contribute to the development of human coloboma.
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Manifestações oftalmológicas e neurológicas em portadores pré-sintomáticos e sintomáticos de ataxia espinocerebelar tipo 7Azevedo, Pietro Baptista de January 2017 (has links)
Introdução: a ataxia espinocerebelar tipo 7 (SCA7) é um distúrbio neurodegenerativo autossômico dominante causado por uma repetição CAG expandida (CAGexp) no gene ATXN7, resultando na inserção de uma poliglutamina (poliQ) alongada na proteína ataxina-7. Em consequência, pacientes com SCA7 desenvolvem ataxia, espasticidade e outros sintomas neurológicos. A SCA 7 se destaca de outras SCAs por se associar à distrofia retiniana, causando deficiências visuais que podem levar à cegueira. Sendo uma das mais raras SCAs, pequenas séries de casos têm aparecido na literatura. Poucas delas buscaram correlacionar os achados neurológicos com os oftalmológicos; e a fase pré-clínica jamais foi sistematicamente investigada. Objetivo: descrever os achados neurológicos e oftalmológicos de uma coorte de casos de SCA 7, comparando as manifestações encontradas em sujeitos sintomáticos com as encontradas em portadores assintomáticos e em parentes não portadores, em uma abordagem exploratória que buscou levantar potenciais biomarcadores de progressão da doença. Métodos: trata-se de um estudo transversal onde pacientes com diagnóstico molecular de SCA7 realizado na nossa instituição foram identificados em nossos arquivos protegidos. Tanto eles como seus parentes foram convidados a participar da presente investigação. Sujeitos em risco de 50% foram incluídos se tivessem mais de 18 anos. Após o consentimento, dados clínicos e demográficos foram coletados entre junho de 2016 e setembro de 2017. A seguir, todos os participantes realizaram uma bateria de escalas clínicas voltadas à medida da ataxia (SARA, CCFS, PATA e 8 MW) e das manifestações neurológicas (NESSCA e INAS); um questionário de qualidade de vida relacionada à visão (NEI-VFQ 25); avaliação da acuidade visual melhor corrigida (AVMC), desvio médio em campimetria computadorizada (MD) e espessuras da mácula e da camada de células ganglionares na tomografia de coerência óptica (OCT). A escala SARA e a AVMC foram escolhidas como as variáveis de referência para a gravidade dos quadros. A análise molecular do ATXN7 foi feita, mas participantes do estudo e avaliadores foram mantidos cegos para seus resultados; os indivíduos em risco interessados em receber seus resultados foram enviados para o programa de testes pré-sintomáticos. Como não houve critérios a priori para estimar tamanhos de efeito e como a SCA7 é uma condição rara, não houve como decidir um tamanho de amostra. O estudo foi exploratório e por isso não foram feitas correções para múltiplas testagens. Um p de 0,05 foi eleito para definir significância, e testes estatísticos foram aplicados de acordo com as características das variáveis em estudo. Resultados: 12 portadores sintomáticos (grupo 2) e 8 indivíduos em risco (3 portadores - grupo 1 - e 5 não-portadores - grupo 0) foram incluídos neste estudo. Todas as variáveis contínuas à exceção da CAGexp tiveram distribuição 4 normal. A AVMC estava reduzida em todos os participantes sintomáticos e claramente diferente entre estes e os outros dois grupos (p <0,0001, ANOVA), enquanto os portadores assintomáticos e os não portadores tiveram resultados semelhantes. A AVMC média foi 20/143, 20/18 e 20/20 nos grupos 2, 1 e 0, respectivamente. Não surpreendentemente, o NEI-VFQ 25 também demonstrou uma diferença estatisticamente significativa, mas o que foi inesperado foi a forma progressivamente diferente entre os 3 grupos (grupo 0 = 92,76 ± 6,7; grupo 1 = 74,9 ± 55,5; grupo 2 = 58,0 ± 21,3) (p= 0,012, ANOVA com Tukey) O MD mostrou um padrão linear estatisticamente significativo para piorar do grupo controle (-1,34 ± 1,15dB) para o assintomático (-2,81 ± 1,66dB) e do grupo assintomático para sintomático (-10,54 ± 6,95dB) (p = 0,027, ANOVA com Tukey). Além disso, o MD correlacionou-se com a AVMC (p = 0,020; r = 0,660) e apresentou tendência de correlação com a SARA (p= 0,073; r= -0,535). As medidas de espessura macular distinguem completamente os 3 grupos (grupo 0 = 243,6 ± 22,2 μ; grupo 1 = 204,5 ± 14,1 μ; grupo 2 = 137,95 ± 34,6 μ) (p = 0,0001, ANOVA) e também se correlacionou significativamente com os dois critérios planejados de gravidade, SARA (p = 0,050; r = -0,577) e AVMC (p = 0,007; r = 0,730). Discussão: alterações oftalmológicas estavam presentes já nas fases pré-clínicas da doença, quando os escores obtidos das escalas neurológicas ainda não distinguem portadores assintomáticos de não portadores: a espessura macular medida por OCT e o MD medido pela campimetria computadorizada. Esses achados demonstram que o processo neurodegenerativo já se encontra em curso e é detectável por essas medidas anatômicas e funcionais da retina. Além disso, ambas as alterações detectadas em fases pré-clínicas, ao serem estudadas no grupo total de portadores sintomáticos e assintomáticos, se correlacionaram com os nossos padrões-ouro da gravidade da doença, SARA e AVMC. Os dois achados - início em fase pré-clínica e correlação com a progressão da doença medida por escores independentes - sugerem que a espessura macular medida por OCT e o MD medido pela campimetria computadorizada são potenciais candidatos a biomarcadores de estado (de progressão da doença) desde fases pré-manifestas na SCA7. / Background: spinocerebellar ataxia type 7 (SCA7) is an autosomal dominant neurodegenerative disorder caused by an expanded CAG repeat (CAGexp) at ATXN7 gene, resulting in the insertion of an elongated polyglutamine (polyQ) into the ataxin-7 protein. As a consequence, patients with SCA7 develop ataxia, spasticity and other neurological symptoms. SCA7 stands out from other SCAs by associating it with retinal dystrophy, causing visual deficiencies that can lead to blindness. Being one of the rarest SCAs, small series of cases appear in the literature. Few of them sought to correlate neurological findings with ophthalmologic findings; and the preclinical stage has never been systematically investigated. Objective: to describe the neurological and ophthalmological findings of a cohort of cases of SCA7, comparing the manifestations found in symptomatic subjects with those found in asymptomatic carriers and in non-carrier relatives in an approach exploratory study that sought to raise potential biomarkers of disease progression. Methods: patients with a molecular diagnosis of SCA7 performed at our institution were identified in our protected files. Both they and their relatives were invited to participate in the present investigation. Subjects at risk of 50% were included if they were older than 18 years. After consent, clinical and demographic data were collected between June 2016 and September 2017. All participants then performed a battery of clinical scales aimed at the measurement of ataxia (SARA, CCFS, PATA and 8 MW) and neurological manifestations (NESSCA and INAS); a visual function questionnaire (NEI-VFQ 25); assessment of better corrected visual acuity (AVMC), mean deviation in computerized campimetry (MD), and thickness of the macula and ganglion cell layer on OCT. The SARA and AVMC scale were chosen as the reference variables for the severity of the frames. Molecular analysis of ATXN7 was done, but study participants and evaluators were kept blind to their results; the individuals at risk interested in receiving their results were sent to the presymptomatic testing program. As there were no a priori criteria for estimating effect sizes and because SCA7 is a rare condition, there was no way to decide on a sample size. The study was exploratory and therefore no corrections were made for multiple tests. A p of 0.05 was chosen to define significance, and statistical tests were applied according to the characteristics of the variables under study. Results: 12 symptomatic carriers (group 2) and 8 individuals at risk (5 carriers - group 1 - and 3 non-carriers - group 0) were included in this study between June 2016 and September 2017. All continuous variables with the exception of CAGexp had normal distribution. AVMC was reduced in all symptomatic participants and clearly different between these and the other two groups (p <0.0001, ANOVA), while asymptomatic and non-carriers had similar results. The mean BCVA was 20/143, 20/18 and 20/20 in groups 2,1 and 6 0, respectively. Not surprisingly, NEI-VFQ 25 also showed a statistically significant difference, but what was unexpected was the progressively different form between the 3 groups (group 0 = 92.76 ± 6.7, group 1 = 74.9 ± 55, 5, group 2 = 58.0 ± 21.3) (p = 0.012, ANOVA with Tukey). The MD showed a statistically significant linear pattern to worsen from the control group (-1.34 ± 1.15dB) to the asymptomatic (-2.81 ± 1.66dB) and from the asymptomatic to the symptomatic group (-10.54 ± 6, 95dB) (p = 0.027, ANOVA with Tukey). In addition, MD correlated with AVMC (p = 0.020; r = 0.660) and showed a correlation tendency with ARDS (p = 0.073; r = -0.535). The macular thickness scores completely distinguish the 3 groups (group 0 = 243.6 ± 22.2 μ, group 1 = 204.5 ± 14.1 μ, group 2 = 137.95 ± 34.6 μ) (p = 0.0001, ANOVA ...) and also correlated significantly with the two planned criteria of severity, SARA (p = 0.050, r = -0.577) and AVMC (p = 0.007, r = 0.730). Conclusion: ophthalmologic changes were present already in the preclinical stages of the disease, when the scores obtained from the neurological scales did not yet distinguish asymptomatic non-carrier patients: macular thickness measured by OCT and MD measured by computerized campimetry. These findings demonstrate that the neurodegenerative process is already underway and is detectable by these anatomical and functional measures of the retina. In addition, both changes detected in preclinical stages, when studied in the total group of symptomatic and asymptomatic carriers, correlated with our gold standard of disease severity, SARA and AVMC. The two findings - pre-clinical onset and correlation with disease progression measured by independent scores - suggest that the macular thickness measured by OCT and MD as measured by computerized campimetry are potential candidates for disease biomarkers (disease progression) from pre-manifest stages in SCA7.
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Manifestações oftalmológicas e neurológicas em portadores pré-sintomáticos e sintomáticos de ataxia espinocerebelar tipo 7Azevedo, Pietro Baptista de January 2017 (has links)
Introdução: a ataxia espinocerebelar tipo 7 (SCA7) é um distúrbio neurodegenerativo autossômico dominante causado por uma repetição CAG expandida (CAGexp) no gene ATXN7, resultando na inserção de uma poliglutamina (poliQ) alongada na proteína ataxina-7. Em consequência, pacientes com SCA7 desenvolvem ataxia, espasticidade e outros sintomas neurológicos. A SCA 7 se destaca de outras SCAs por se associar à distrofia retiniana, causando deficiências visuais que podem levar à cegueira. Sendo uma das mais raras SCAs, pequenas séries de casos têm aparecido na literatura. Poucas delas buscaram correlacionar os achados neurológicos com os oftalmológicos; e a fase pré-clínica jamais foi sistematicamente investigada. Objetivo: descrever os achados neurológicos e oftalmológicos de uma coorte de casos de SCA 7, comparando as manifestações encontradas em sujeitos sintomáticos com as encontradas em portadores assintomáticos e em parentes não portadores, em uma abordagem exploratória que buscou levantar potenciais biomarcadores de progressão da doença. Métodos: trata-se de um estudo transversal onde pacientes com diagnóstico molecular de SCA7 realizado na nossa instituição foram identificados em nossos arquivos protegidos. Tanto eles como seus parentes foram convidados a participar da presente investigação. Sujeitos em risco de 50% foram incluídos se tivessem mais de 18 anos. Após o consentimento, dados clínicos e demográficos foram coletados entre junho de 2016 e setembro de 2017. A seguir, todos os participantes realizaram uma bateria de escalas clínicas voltadas à medida da ataxia (SARA, CCFS, PATA e 8 MW) e das manifestações neurológicas (NESSCA e INAS); um questionário de qualidade de vida relacionada à visão (NEI-VFQ 25); avaliação da acuidade visual melhor corrigida (AVMC), desvio médio em campimetria computadorizada (MD) e espessuras da mácula e da camada de células ganglionares na tomografia de coerência óptica (OCT). A escala SARA e a AVMC foram escolhidas como as variáveis de referência para a gravidade dos quadros. A análise molecular do ATXN7 foi feita, mas participantes do estudo e avaliadores foram mantidos cegos para seus resultados; os indivíduos em risco interessados em receber seus resultados foram enviados para o programa de testes pré-sintomáticos. Como não houve critérios a priori para estimar tamanhos de efeito e como a SCA7 é uma condição rara, não houve como decidir um tamanho de amostra. O estudo foi exploratório e por isso não foram feitas correções para múltiplas testagens. Um p de 0,05 foi eleito para definir significância, e testes estatísticos foram aplicados de acordo com as características das variáveis em estudo. Resultados: 12 portadores sintomáticos (grupo 2) e 8 indivíduos em risco (3 portadores - grupo 1 - e 5 não-portadores - grupo 0) foram incluídos neste estudo. Todas as variáveis contínuas à exceção da CAGexp tiveram distribuição 4 normal. A AVMC estava reduzida em todos os participantes sintomáticos e claramente diferente entre estes e os outros dois grupos (p <0,0001, ANOVA), enquanto os portadores assintomáticos e os não portadores tiveram resultados semelhantes. A AVMC média foi 20/143, 20/18 e 20/20 nos grupos 2, 1 e 0, respectivamente. Não surpreendentemente, o NEI-VFQ 25 também demonstrou uma diferença estatisticamente significativa, mas o que foi inesperado foi a forma progressivamente diferente entre os 3 grupos (grupo 0 = 92,76 ± 6,7; grupo 1 = 74,9 ± 55,5; grupo 2 = 58,0 ± 21,3) (p= 0,012, ANOVA com Tukey) O MD mostrou um padrão linear estatisticamente significativo para piorar do grupo controle (-1,34 ± 1,15dB) para o assintomático (-2,81 ± 1,66dB) e do grupo assintomático para sintomático (-10,54 ± 6,95dB) (p = 0,027, ANOVA com Tukey). Além disso, o MD correlacionou-se com a AVMC (p = 0,020; r = 0,660) e apresentou tendência de correlação com a SARA (p= 0,073; r= -0,535). As medidas de espessura macular distinguem completamente os 3 grupos (grupo 0 = 243,6 ± 22,2 μ; grupo 1 = 204,5 ± 14,1 μ; grupo 2 = 137,95 ± 34,6 μ) (p = 0,0001, ANOVA) e também se correlacionou significativamente com os dois critérios planejados de gravidade, SARA (p = 0,050; r = -0,577) e AVMC (p = 0,007; r = 0,730). Discussão: alterações oftalmológicas estavam presentes já nas fases pré-clínicas da doença, quando os escores obtidos das escalas neurológicas ainda não distinguem portadores assintomáticos de não portadores: a espessura macular medida por OCT e o MD medido pela campimetria computadorizada. Esses achados demonstram que o processo neurodegenerativo já se encontra em curso e é detectável por essas medidas anatômicas e funcionais da retina. Além disso, ambas as alterações detectadas em fases pré-clínicas, ao serem estudadas no grupo total de portadores sintomáticos e assintomáticos, se correlacionaram com os nossos padrões-ouro da gravidade da doença, SARA e AVMC. Os dois achados - início em fase pré-clínica e correlação com a progressão da doença medida por escores independentes - sugerem que a espessura macular medida por OCT e o MD medido pela campimetria computadorizada são potenciais candidatos a biomarcadores de estado (de progressão da doença) desde fases pré-manifestas na SCA7. / Background: spinocerebellar ataxia type 7 (SCA7) is an autosomal dominant neurodegenerative disorder caused by an expanded CAG repeat (CAGexp) at ATXN7 gene, resulting in the insertion of an elongated polyglutamine (polyQ) into the ataxin-7 protein. As a consequence, patients with SCA7 develop ataxia, spasticity and other neurological symptoms. SCA7 stands out from other SCAs by associating it with retinal dystrophy, causing visual deficiencies that can lead to blindness. Being one of the rarest SCAs, small series of cases appear in the literature. Few of them sought to correlate neurological findings with ophthalmologic findings; and the preclinical stage has never been systematically investigated. Objective: to describe the neurological and ophthalmological findings of a cohort of cases of SCA7, comparing the manifestations found in symptomatic subjects with those found in asymptomatic carriers and in non-carrier relatives in an approach exploratory study that sought to raise potential biomarkers of disease progression. Methods: patients with a molecular diagnosis of SCA7 performed at our institution were identified in our protected files. Both they and their relatives were invited to participate in the present investigation. Subjects at risk of 50% were included if they were older than 18 years. After consent, clinical and demographic data were collected between June 2016 and September 2017. All participants then performed a battery of clinical scales aimed at the measurement of ataxia (SARA, CCFS, PATA and 8 MW) and neurological manifestations (NESSCA and INAS); a visual function questionnaire (NEI-VFQ 25); assessment of better corrected visual acuity (AVMC), mean deviation in computerized campimetry (MD), and thickness of the macula and ganglion cell layer on OCT. The SARA and AVMC scale were chosen as the reference variables for the severity of the frames. Molecular analysis of ATXN7 was done, but study participants and evaluators were kept blind to their results; the individuals at risk interested in receiving their results were sent to the presymptomatic testing program. As there were no a priori criteria for estimating effect sizes and because SCA7 is a rare condition, there was no way to decide on a sample size. The study was exploratory and therefore no corrections were made for multiple tests. A p of 0.05 was chosen to define significance, and statistical tests were applied according to the characteristics of the variables under study. Results: 12 symptomatic carriers (group 2) and 8 individuals at risk (5 carriers - group 1 - and 3 non-carriers - group 0) were included in this study between June 2016 and September 2017. All continuous variables with the exception of CAGexp had normal distribution. AVMC was reduced in all symptomatic participants and clearly different between these and the other two groups (p <0.0001, ANOVA), while asymptomatic and non-carriers had similar results. The mean BCVA was 20/143, 20/18 and 20/20 in groups 2,1 and 6 0, respectively. Not surprisingly, NEI-VFQ 25 also showed a statistically significant difference, but what was unexpected was the progressively different form between the 3 groups (group 0 = 92.76 ± 6.7, group 1 = 74.9 ± 55, 5, group 2 = 58.0 ± 21.3) (p = 0.012, ANOVA with Tukey). The MD showed a statistically significant linear pattern to worsen from the control group (-1.34 ± 1.15dB) to the asymptomatic (-2.81 ± 1.66dB) and from the asymptomatic to the symptomatic group (-10.54 ± 6, 95dB) (p = 0.027, ANOVA with Tukey). In addition, MD correlated with AVMC (p = 0.020; r = 0.660) and showed a correlation tendency with ARDS (p = 0.073; r = -0.535). The macular thickness scores completely distinguish the 3 groups (group 0 = 243.6 ± 22.2 μ, group 1 = 204.5 ± 14.1 μ, group 2 = 137.95 ± 34.6 μ) (p = 0.0001, ANOVA ...) and also correlated significantly with the two planned criteria of severity, SARA (p = 0.050, r = -0.577) and AVMC (p = 0.007, r = 0.730). Conclusion: ophthalmologic changes were present already in the preclinical stages of the disease, when the scores obtained from the neurological scales did not yet distinguish asymptomatic non-carrier patients: macular thickness measured by OCT and MD measured by computerized campimetry. These findings demonstrate that the neurodegenerative process is already underway and is detectable by these anatomical and functional measures of the retina. In addition, both changes detected in preclinical stages, when studied in the total group of symptomatic and asymptomatic carriers, correlated with our gold standard of disease severity, SARA and AVMC. The two findings - pre-clinical onset and correlation with disease progression measured by independent scores - suggest that the macular thickness measured by OCT and MD as measured by computerized campimetry are potential candidates for disease biomarkers (disease progression) from pre-manifest stages in SCA7.
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Manifestações oftalmológicas e neurológicas em portadores pré-sintomáticos e sintomáticos de ataxia espinocerebelar tipo 7Azevedo, Pietro Baptista de January 2017 (has links)
Introdução: a ataxia espinocerebelar tipo 7 (SCA7) é um distúrbio neurodegenerativo autossômico dominante causado por uma repetição CAG expandida (CAGexp) no gene ATXN7, resultando na inserção de uma poliglutamina (poliQ) alongada na proteína ataxina-7. Em consequência, pacientes com SCA7 desenvolvem ataxia, espasticidade e outros sintomas neurológicos. A SCA 7 se destaca de outras SCAs por se associar à distrofia retiniana, causando deficiências visuais que podem levar à cegueira. Sendo uma das mais raras SCAs, pequenas séries de casos têm aparecido na literatura. Poucas delas buscaram correlacionar os achados neurológicos com os oftalmológicos; e a fase pré-clínica jamais foi sistematicamente investigada. Objetivo: descrever os achados neurológicos e oftalmológicos de uma coorte de casos de SCA 7, comparando as manifestações encontradas em sujeitos sintomáticos com as encontradas em portadores assintomáticos e em parentes não portadores, em uma abordagem exploratória que buscou levantar potenciais biomarcadores de progressão da doença. Métodos: trata-se de um estudo transversal onde pacientes com diagnóstico molecular de SCA7 realizado na nossa instituição foram identificados em nossos arquivos protegidos. Tanto eles como seus parentes foram convidados a participar da presente investigação. Sujeitos em risco de 50% foram incluídos se tivessem mais de 18 anos. Após o consentimento, dados clínicos e demográficos foram coletados entre junho de 2016 e setembro de 2017. A seguir, todos os participantes realizaram uma bateria de escalas clínicas voltadas à medida da ataxia (SARA, CCFS, PATA e 8 MW) e das manifestações neurológicas (NESSCA e INAS); um questionário de qualidade de vida relacionada à visão (NEI-VFQ 25); avaliação da acuidade visual melhor corrigida (AVMC), desvio médio em campimetria computadorizada (MD) e espessuras da mácula e da camada de células ganglionares na tomografia de coerência óptica (OCT). A escala SARA e a AVMC foram escolhidas como as variáveis de referência para a gravidade dos quadros. A análise molecular do ATXN7 foi feita, mas participantes do estudo e avaliadores foram mantidos cegos para seus resultados; os indivíduos em risco interessados em receber seus resultados foram enviados para o programa de testes pré-sintomáticos. Como não houve critérios a priori para estimar tamanhos de efeito e como a SCA7 é uma condição rara, não houve como decidir um tamanho de amostra. O estudo foi exploratório e por isso não foram feitas correções para múltiplas testagens. Um p de 0,05 foi eleito para definir significância, e testes estatísticos foram aplicados de acordo com as características das variáveis em estudo. Resultados: 12 portadores sintomáticos (grupo 2) e 8 indivíduos em risco (3 portadores - grupo 1 - e 5 não-portadores - grupo 0) foram incluídos neste estudo. Todas as variáveis contínuas à exceção da CAGexp tiveram distribuição 4 normal. A AVMC estava reduzida em todos os participantes sintomáticos e claramente diferente entre estes e os outros dois grupos (p <0,0001, ANOVA), enquanto os portadores assintomáticos e os não portadores tiveram resultados semelhantes. A AVMC média foi 20/143, 20/18 e 20/20 nos grupos 2, 1 e 0, respectivamente. Não surpreendentemente, o NEI-VFQ 25 também demonstrou uma diferença estatisticamente significativa, mas o que foi inesperado foi a forma progressivamente diferente entre os 3 grupos (grupo 0 = 92,76 ± 6,7; grupo 1 = 74,9 ± 55,5; grupo 2 = 58,0 ± 21,3) (p= 0,012, ANOVA com Tukey) O MD mostrou um padrão linear estatisticamente significativo para piorar do grupo controle (-1,34 ± 1,15dB) para o assintomático (-2,81 ± 1,66dB) e do grupo assintomático para sintomático (-10,54 ± 6,95dB) (p = 0,027, ANOVA com Tukey). Além disso, o MD correlacionou-se com a AVMC (p = 0,020; r = 0,660) e apresentou tendência de correlação com a SARA (p= 0,073; r= -0,535). As medidas de espessura macular distinguem completamente os 3 grupos (grupo 0 = 243,6 ± 22,2 μ; grupo 1 = 204,5 ± 14,1 μ; grupo 2 = 137,95 ± 34,6 μ) (p = 0,0001, ANOVA) e também se correlacionou significativamente com os dois critérios planejados de gravidade, SARA (p = 0,050; r = -0,577) e AVMC (p = 0,007; r = 0,730). Discussão: alterações oftalmológicas estavam presentes já nas fases pré-clínicas da doença, quando os escores obtidos das escalas neurológicas ainda não distinguem portadores assintomáticos de não portadores: a espessura macular medida por OCT e o MD medido pela campimetria computadorizada. Esses achados demonstram que o processo neurodegenerativo já se encontra em curso e é detectável por essas medidas anatômicas e funcionais da retina. Além disso, ambas as alterações detectadas em fases pré-clínicas, ao serem estudadas no grupo total de portadores sintomáticos e assintomáticos, se correlacionaram com os nossos padrões-ouro da gravidade da doença, SARA e AVMC. Os dois achados - início em fase pré-clínica e correlação com a progressão da doença medida por escores independentes - sugerem que a espessura macular medida por OCT e o MD medido pela campimetria computadorizada são potenciais candidatos a biomarcadores de estado (de progressão da doença) desde fases pré-manifestas na SCA7. / Background: spinocerebellar ataxia type 7 (SCA7) is an autosomal dominant neurodegenerative disorder caused by an expanded CAG repeat (CAGexp) at ATXN7 gene, resulting in the insertion of an elongated polyglutamine (polyQ) into the ataxin-7 protein. As a consequence, patients with SCA7 develop ataxia, spasticity and other neurological symptoms. SCA7 stands out from other SCAs by associating it with retinal dystrophy, causing visual deficiencies that can lead to blindness. Being one of the rarest SCAs, small series of cases appear in the literature. Few of them sought to correlate neurological findings with ophthalmologic findings; and the preclinical stage has never been systematically investigated. Objective: to describe the neurological and ophthalmological findings of a cohort of cases of SCA7, comparing the manifestations found in symptomatic subjects with those found in asymptomatic carriers and in non-carrier relatives in an approach exploratory study that sought to raise potential biomarkers of disease progression. Methods: patients with a molecular diagnosis of SCA7 performed at our institution were identified in our protected files. Both they and their relatives were invited to participate in the present investigation. Subjects at risk of 50% were included if they were older than 18 years. After consent, clinical and demographic data were collected between June 2016 and September 2017. All participants then performed a battery of clinical scales aimed at the measurement of ataxia (SARA, CCFS, PATA and 8 MW) and neurological manifestations (NESSCA and INAS); a visual function questionnaire (NEI-VFQ 25); assessment of better corrected visual acuity (AVMC), mean deviation in computerized campimetry (MD), and thickness of the macula and ganglion cell layer on OCT. The SARA and AVMC scale were chosen as the reference variables for the severity of the frames. Molecular analysis of ATXN7 was done, but study participants and evaluators were kept blind to their results; the individuals at risk interested in receiving their results were sent to the presymptomatic testing program. As there were no a priori criteria for estimating effect sizes and because SCA7 is a rare condition, there was no way to decide on a sample size. The study was exploratory and therefore no corrections were made for multiple tests. A p of 0.05 was chosen to define significance, and statistical tests were applied according to the characteristics of the variables under study. Results: 12 symptomatic carriers (group 2) and 8 individuals at risk (5 carriers - group 1 - and 3 non-carriers - group 0) were included in this study between June 2016 and September 2017. All continuous variables with the exception of CAGexp had normal distribution. AVMC was reduced in all symptomatic participants and clearly different between these and the other two groups (p <0.0001, ANOVA), while asymptomatic and non-carriers had similar results. The mean BCVA was 20/143, 20/18 and 20/20 in groups 2,1 and 6 0, respectively. Not surprisingly, NEI-VFQ 25 also showed a statistically significant difference, but what was unexpected was the progressively different form between the 3 groups (group 0 = 92.76 ± 6.7, group 1 = 74.9 ± 55, 5, group 2 = 58.0 ± 21.3) (p = 0.012, ANOVA with Tukey). The MD showed a statistically significant linear pattern to worsen from the control group (-1.34 ± 1.15dB) to the asymptomatic (-2.81 ± 1.66dB) and from the asymptomatic to the symptomatic group (-10.54 ± 6, 95dB) (p = 0.027, ANOVA with Tukey). In addition, MD correlated with AVMC (p = 0.020; r = 0.660) and showed a correlation tendency with ARDS (p = 0.073; r = -0.535). The macular thickness scores completely distinguish the 3 groups (group 0 = 243.6 ± 22.2 μ, group 1 = 204.5 ± 14.1 μ, group 2 = 137.95 ± 34.6 μ) (p = 0.0001, ANOVA ...) and also correlated significantly with the two planned criteria of severity, SARA (p = 0.050, r = -0.577) and AVMC (p = 0.007, r = 0.730). Conclusion: ophthalmologic changes were present already in the preclinical stages of the disease, when the scores obtained from the neurological scales did not yet distinguish asymptomatic non-carrier patients: macular thickness measured by OCT and MD measured by computerized campimetry. These findings demonstrate that the neurodegenerative process is already underway and is detectable by these anatomical and functional measures of the retina. In addition, both changes detected in preclinical stages, when studied in the total group of symptomatic and asymptomatic carriers, correlated with our gold standard of disease severity, SARA and AVMC. The two findings - pre-clinical onset and correlation with disease progression measured by independent scores - suggest that the macular thickness measured by OCT and MD as measured by computerized campimetry are potential candidates for disease biomarkers (disease progression) from pre-manifest stages in SCA7.
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Intergenic long noncoding RNAs provide a novel layer of post-transcriptional regulation in development and diseaseTan, Jennifer Yihong January 2014 (has links)
Recent genome-wide sequencing projects revealed the pervasive transcription of intergenic long noncoding RNAs (lincRNAs) in eukaryotic genomes (reviewed in Ponting et al. 2009). For the vast majority of lincRNAs, their mechanisms of function remain largely unrecognized. However, the genome-wide signatures of functionality associated with many lincRNAs, including apparent evolutionary sequence conservation, spatial and temporal-restricted expression patterns, strong associations with epigenetic marks, and reported molecular and cellular functions, reinforce their biological relevance. My work investigates lincRNAs that post-transcriptionally regulate gene abundance by competing for the binding of common microRNAs (miRNAs) with protein-coding transcripts, termed competitive endogenous RNAs (ceRNAs) acting lincRNAs (lnceRNAs). First, I examine the biological relevance of this post-transcriptional regulation of gene abundance by ceRNAs. Next, I estimate the genome-wide prevalence of lnceRNAs in mouse embryonic stem cells (mESCs) and characterize their properties. Finally, using two specific examples of lnceRNAs, I show the contributions of lnceRNAs to human monogenic and complex trait diseases. Collectively, these results illustrate that lnceRNAs provide a novel layer of post-transcriptional regulation via a miRNA-mediated mechanism that contributes to organismal and cellular biology.
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