Acortamiento de telómeros en enfermedades neurodegenerativas: implicaciones terapéuticas / Telomere attrition in neurodegenerative disorders: therapeutic implications

Introducción: Varias enfermedades neurodegenerativas están asociadas a la ocurrencia de acortamiento de los telómeros, y los convierten en biomarcadores y dianas terapéuticas potenciales. Objetivo: Reflejar la relevancia del acortamiento de los telómeros para enfermedades neurodegenerativas, y destacar sus implicaciones Material y métodos: Se realizó una revisión bibliográfica durante los meses de septiembre de 2019 a enero de 2020. Fueron consultadas bases de datos de referencia, con el uso de descriptores y operadores booleanos. La estrategia de búsqueda avanzada para la selección de los artículos fue empleada, teniendo en cuenta la calidad metodológica o validez de los estudios. Desarrollo: Fueron identificadas evidencias sólidas de asociación entre el acortamiento de los telómeros y las enfermedades de Alzheimer y Huntington, que sugieren un papel relevante de la biología de los telómeros en la fisiopatología de estas enfermedades. Las evidencias disponibles hasta el momento no permiten establecer la relevancia de la biología de los telómeros en la fisiopatología de la Enfermedad de Parkinson o de la esclerosis lateral amiotrófica. Se obtuvieron evidencias de la utilidad de terapias orientadas a la prevención del acortamiento de los telómeros para el tratamiento de enfermedades neurodegenerativas. Conclusiones: El acortamiento de los telómeros es de relevancia fisiopatológica y clínica para las enfermedades de Alzheimer y Huntington, mientras que existen evidencias insuficientes para establecer su importancia en la Enfermedad de Parkinson y la esclerosis lateral amiotrófica. El uso de estrategias para estimular la actividad de la telomerasa tiene potenciales aplicaciones terapéuticas en el contexto de enfermedades neurodegenerativas(AU)

Introduction: Several neurodegenerative disorders are associated with telomere attrition, turning telomeres into potential biomarkers and potential therapeutic targets. Objective: To assess the relevance of telomere attrition for neurodegenerative disorders, highlighting its therapeutic implications. Material and methods: A literature review was carried out from September 2019 to January 2020. Several databases were searched by using descriptors and Boolean operators. Advanced search strategy was used for the selection of articles, taking into account the methodological quality and validity of the studies. Results: Strong evidence for an association between telomere attrition and Alzheimer and Huntington diseases was obtained, suggesting a potential importance of telomere biology in the physiopathology of these diseases. Current evidence does not allow establishing the relevance of telomere attrition in the physiopathology of Parkinson´s disease or Amyotrophic Lateral Sclerosis. Evidence was obtained for the usefulness of therapies for the prevention of telomere attrition in the treatment of neurodegenerative disorders. Conclusions: Telomere attrition has physiopathological and clinical relevance in Alzheimer´s and Huntington´s diseases, though current evidence is not enough to establish its role in Parkinson's disease and Amyotrophic Lateral Sclerosis. Strategies that enhance telomerase activity have therapeutic potential in the context of neurodegenerative disorders(AU)

A diagnostic approach for neurodegeneration with brain iron accumulation: clinical features, genetics and brain imaging / Uma orientação diagnóstica para neurodegeneração com acúmulo cerebral de ferro: aspectos clínicos, genéticos e de neuroimagem

ABSTRACT Neurodegeneration with brain iron accumulation (NBIA) represents a heterogeneous and complex group of inherited neurodegenerative diseases, characterized by excessive iron accumulation, particularly in the basal ganglia. Common clinical features of NBIA include movement disorders, particularly parkinsonism and dystonia, cognitive dysfunction, pyramidal signs, and retinal abnormalities. The forms of NBIA described to date include pantothenase kinase-associated neurodegeneration (PKAN), phospholipase A2 associated neurodegeneration (PLAN), neuroferritinopathy, aceruloplasminemia, beta-propeller protein-associated neurodegeneration (BPAN), Kufor-Rakeb syndrome, mitochondrial membrane protein-associated neurodegeneration (MPAN), fatty acid hydroxylase-associated neurodegeneration (FAHN), coenzyme A synthase protein-associated neurodegeneration (CoPAN) and Woodhouse-Sakati syndrome. This review is a diagnostic approach for NBIA cases, from clinical features and brain imaging findings to the genetic etiology.

RESUMO A neurodegeneração com acúmulo cerebral de ferro (sigla em inglês NBIA) representa um grupo heterogêneo e complexo de doenças neurodegenerativas hereditárias, caracterizada pelo acúmulo cerebral de ferro, especialmente nos núcleos da base. O quadro clínico das NBIAs em geral inclui distúrbios do movimento, particularmente parkinsonismo e distonia, disfunção cognitiva, sinais piramidais e anormalidades da retina. As formas de NBIA descritas até o momento incluem neurodegeneração associada a pantothenase kinase (PKAN), neurodegeneração associada a phospholipase A2 (PLAN), neuroferritinopatia, aceruloplasminemia, neurodegeneração associada a beta-propeller protein (BPAN), síndrome de Kufor-Rakeb, neurodegeneração associada a mitochondrial membrane protein (MPAN), neurodegeneração associada a “fatty acid hydroxylase” (FAHN), neurodegeneração associada a coenzyme A synthase protein (CoPAN) e síndrome de Woodhouse-Sakati. Esta revisão é uma orientação para o diagnóstico das NBIAs, partindo das características clínicas e achados de neuroimagem, até a etiologia genética.

Las mutaciones inestables, nuevo reto para el consejo genético de enfermedades hereditarias: [revisión] / Unstable mutations, new challenges for genetic counseling of inherited disorders: [review]

Unstable mutations or amplification of DNA tandem repeats sequences constitute a new kind of genetic alteration discovered in the 90's that cause hereditary diseases. This mutation has been found inside or near important genes involved in the normal neurological function in human beings. In some cases, the presence of the amplification causes altered expression of the genes, their inactivation or the synthesis of a protein with new functions. Some common characteristics of these diseases are that they affect the central nervous system and are degenerative in nature. Most of them show genetic anticipation meaning that the severity of the manifestations increases in each generation and appear at an earlier age. In most cases, the severity of the symptoms is positively correlated with the size of the amplification. Twenty illnesses caused by this kind of mutations have been identified so far. Briefly, this work reviews the current knowledge about this topic.

Infantile-onset leukoencephalopathy with discrepant mild clinical course.

Four children characterised by megalencephaly and cerebral leukoencephalopathy with infantile onset, defined on the basis of clinical and neuroimaging findings are reported. The course of the disease is characterised by stabilization of the macrocephaly and slow clinical deterioration. The CT scan findings include supratentorial diffuse hypodensities in the white matter and swelling. The characteristic MRI findings include the discrepant severity in comparison with the clinical picture, diffuse supratentorial white matter abnormalities with subcortical cysts. The basic defect of the disease is unknown. Considering the high rate of consanguinity among the parents and the presence of two affected sibs in one family, an autosomal recessive inheritance is assumed. We report four unrelated cases of this entity.