Tay-Sachs disease / Enfermedad de Tay-Sachs

Abstract Introduction: Lysosomal storage disease is caused by the deficiency of a single hydrolase (lysosomal enzymes). GM2 gangliosidoses are autosomal recessive disorders caused by deficiency of β-hexosaminidase and Tay-Sachs disease (TSD) is one of its three forms. Objective: To perform a review of the state of the art on TSD and describe its definition, epidemiology, etiology, physiopathology, clinical manifestations, as well as advances regarding its diagnosis and treatment. Materials and methods: A literature search was carried out in PubMed using the MeSH terms "Tay-Sachs Disease". Results: after the initial search was conducted, 1 233 results were retrieved, of which 53 articles were finally selected. TSD is caused by the deficiency of the lysosomal enzyme β-hexosaminidase A (HexA), and is characterized by neurodevelopmental regression, hypotonia, hyperacusis and cherry-red spots in the macula. Research on molecular pathogenesis and the development of possible treatments has been limited, consequently there is no treatment established to date. Conclusion: TSD is an autosomal recessive neurodegenerative disorder. Death usually occurs before the age of five. More research and studies on this type of gangliosidosis are needed in order to find an adequate treatment.

Resumen Introducción. La deficiencia de una sola hidrolasa (enzimas lisosomales) da como resultado una enfermedad de almacenamiento lisosomal. Las gangliosidosis GM2 son trastornos autosómicos recesivos causados por la deficiencia de β-hexosaminidasa. La enfermedad de Tay-Sachs (TSD, por sus siglas en inglés) es una de las tres presentaciones de este tipo de gangliosidosis. Objetivo. Realizar una revisión del estado del arte de la TSD describiendo su definición, epidemiología, etiología, fisiopatología, manifestaciones clínicas y actualidades en su diagnóstico y tratamiento. Materiales y métodos. Se realizó una búsqueda bibliográfica en PubMed utilizando como único término MeSH "Tay-Sachs Disease". Resultados. Se encontraron 1 233 publicaciones y se seleccionaron 53 artículos. La TSD es originada por la deficiencia de la enzima lisosomal β-hexosaminidasa A (HexA) y se caracteriza por regresión del neurodesarrollo, hipotonía, hiperacusia y manchas maculares rojo cereza. La investigación de la patogenia molecular y el desarrollo de posibles tratamientos han sido limitados y en la actualidad no se cuenta con uno plenamente establecido. Conclusiones. La TSD es un trastorno neurodegenerativo autosómico recesivo y por lo general la muerte se produce antes de los 5 años de edad. Son necesarias más investigaciones y estudios sobre este tipo de gangliosidosis con el fin de encontrar un tratamiento adecuado.

Clinical and CLB1 gene mutations analysis of GM1 gangliosidosis in a patient / 中华神经科杂志

Objective@#To investigate the clinical and CLB1 gene mutation characteristics of GM1 gangliosidosis patient.@*Methods@#The clinical data of one GM1 gangliosidosis patient from Children′s Hospital Affiliated to Zhengzhou University in March 2018 were reviewed and analyzed. The patient was diagnosed by gene detection and enzymatic activity.@*Results@#The patient is a 4 years and 1 month old boy, mainly presented psychomotor retrogression. His β-galactosidase activity was low (8.0 nmol·g-1·min-1). Two splice site mutations (c.458-2A(IVS4)>G and c.1068+5G(IVS10)>A) of patient′s CLB1 gene were screened by targeted next generation sequencing. The results of Sanger sequencing showed that the mutations are compound heterozygous and both are first reported. The mutation c.1068+5G(IVS10)>A was derived from patient′s mother, and the other one is de nove.@*Conclusion@#GM1 gangliosidosis is a rare neurodegenerative disease, which could be accurately diagnosed by the next generation sequencing and enzyme assay.

Clinical and CLB1 gene mutations analysis of GM1 gangliosidosis in a patient / 中华神经科杂志

Objective To investigate the clinical and CLB1 gene mutation characteristics of GM1 gangliosidosis patient. Methods The clinical data of one GM1 gangliosidosis patient from Children′s Hospital Affiliated to Zhengzhou University in March 2018 were reviewed and analyzed. The patient was diagnosed by gene detection and enzymatic activity. Results The patient is a 4 years and 1 month old boy, mainly presented psychomotor retrogression. His β?galactosidase activity was low (8.0 nmol·g-1·min-1). Two splice site mutations (c.458?2A(IVS4)>G and c.1068+5G(IVS10)>A) of patient′s CLB1 gene were screened by targeted next generation sequencing. The results of Sanger sequencing showed that the mutations are compound heterozygous and both are first reported. The mutation c.1068+5G(IVS10)>A was derived from patient′s mother, and the other one is de nove. Conclusion GM1 gangliosidosis is a rare neurodegenerative disease, which could be accurately diagnosed by the next generation sequencing and enzyme assay.

Variante juvenil de la enfermedad de Sandhoff: presentación del primer caso descrito en Argentina / Juvenile form of Sandhoff disease: first case reported in Argentina

La enfermedad de Sandhoff es una patología neurodegenerativa, de almacenamiento lisosomal, causada por mutaciones en el gen HEXB. Existen tres formas clínicas: infantil, juvenil y adulta. Previamente, fue identificada una población endogámica en la provincia de Córdoba, Argentina, que presentaba una alta incidencia de la enfermedad; todos los casos correspondieron a la forma infantil. En este trabajo, se presenta por primera vez el caso de un paciente argentino con la variante juvenil de la enfermedad de Sandhoff. El paciente es un niño de 7 años que, a partir de los 2, presentó ataxia, trastorno del habla y retraso global en el desarrollo. El diagnóstico se confirmó con la detección de valores residuales de enzima hexosaminidasa y con la identificación de dos mutaciones ya descritas en estado de heterocigosis: c.796T>G (p.Y266D) y c.1615C>T (p.R539C).

Sandhoff disease is a neurodegenerative, lysosomal and autosomal recessive disease caused by mutations in the HEXB gene. Three forms are recognized: infantile, juvenile and adult. Previously, an endogamous population in Córdoba, Argentina, was identified with a high incidence of Sandhoff disease, all reported cases were of the infantile type. In this work, we describe a child with the juvenile form of Sandhoff disease, the first case reported in Argentina. The patient is a 7-year-old boy presenting with ataxia, speech disturbances and global developmental delay, symptoms starting at the age of 2 years. Diagnosis was based on the hexosaminidase deficiency. Sequencing of genomic DNA revealed compound heterozygosity for two HEXB gene mutations: c.796T>G (p.Y266D) and c.1615C>T (p.R539C), both already reported.

"Cherry red spot" in a patient with Tay-Sachs disease: case report / "Mácula em cereja" em paciente com doença de Tay-Sachs: relato de caso

Tay-Sachs disease is an autosomal recessive disorder of sphingolipid metabolism, caused by enzime hexosaminidase A deficiency that leads to an accumulation of GM2 in neurocytes which results in progressive loss of neurological function. The accumulation of lipid in retinal ganglion cells that leads to a chalk-white appearance of the fundus called "cherry red spot" is the hallmark of Tay-Sachs disease. It is also seen in others neurometabolic diseases as well as in central retinal artery occlusion. This case reports a child with Tay-Sachs disease in a family with four previous similar deaths without diagnostic.

Tay-Sachs é uma doença autossômica recessiva, caracterizada pela deficiência da enzima hexosaminidase A levando ao acúmulo de esfingolipídios (GM2) em células neuronais que resulta em uma perda progressiva da função neurológica. O acúmulo de lipídios em células ganglionais da retina leva a uma aparência de mácula em cereja, característica do fundo de olho de pessoas acometidas. "Mácula em cereja" também pode ser vista em outras doenças neurometabólicas e em oclusão da artéria central da retina. Este trabalho relata o caso de um paciente com doença de Tay-Sachs em uma família com história de quatro óbitos por causas semelhantes sem diagnóstico.

Comparação dos efeitos do gangliosideo GM1 e do fator de crescimento neural (NGF) sobre a expressão de receptor de alta afinidade para NGF, TrkA e insulina em ilhotas pancreaticas isoladas de camundongos NOD (diabetico não obeso) / Comparison of the effect of ganglioside GM1 and the Nerve Growth Factor (NGF) on the expression of receiver of high affinity for NGF, TrkA and insulin in isolated pancreatic islets of NOD mice (non obese diabetic)

O camundongo não obeso diabético (NOD) é caracterizado por desenvolver naturalmente diabetes mellitus tipo 1 (DM-1) com similaridade ao diabetes mellitus tipo 1 em humanos. A manifestação espontânea do diabetes neste modelo animal é caracterizado por infiltração progressiva das ilhotas de Langerhans por células mononucleares linfócitos T (CD4+ e CD8+) e destruição das células ß pancreáticas produtoras de insulina. O fator de crescimento neural (NGF) e algumas citocinas estão associados a regeneração neural, além de atuarem sobre células do sistema imune. Em adição a estes efeitos, NGF age na liberação de insulina pelas células betas das ilhotas pancreáticas, tornando-se foco de interesse com relação as suas propriedades moduladoras no processo inflamatório na ilhota pancreática. O gangliosídeo GM1 liga-se ao receptor de alta afinidade (TrkA) do NGF-ß, mimetizando seus efeitos. No presente trabalho, avaliamos a ação modulatória de GM1 e NGF em cultura de ilhotas pancreáticas, provenientes de camundongos NOD. Foram avaliados por meio de RT-PCR a expressão gênica de NGF-ß, TrkA e insulina e, por ensaio imunoenzimático, a concentração de citocinas IL-1ß, IL-12, TNF-a, INF-y e insulina. Nossos resultados sugerem ação moduladora similar entre GM1 e NGF sobre as ilhotas de NOD não diabéticos e pré-diabéticos. NGF e GM1 aumentam a expressão gênica de NGF e TrkA e diminuem a expressão gênica de insulina em NOD não diabéticos e pré-diabéticos. Além disso, aumentam a liberação de insulina e diminui a de citocinas inflamatórias IL-1ß, IL-12, TNF-a, IFN-y que caracterizam a resposta Th1.

The non-obese diabetic mice (NOD) lineage is characterized by developing type 1 diabetes mellitus (DM-1) naturally, bearing a similarity to DM-1 in human beings. The spontaneous manifestation of diabetes is characterized by gradual infiltration in pancreatic islets by mononuclear cells lymphocytes T (CD4+ and CD8+) and destruction of the ß-cells producers of insulin. One consequence of this effect, is the release of neurotrophins trying modulate the insulin release by the ß cells of pancreatic islets. Thus, the neurotrophins have been the focus of interest in the modulation of the inflammatory process in the pancreatic islets. The ganglioside GM1 binds to the high affinity receptor (TrkA) of the NGF-ß, enhancing its effect. In the present work, we evaluate the immune modulation properties of GM1 and NGF in culture of pancreatic islets from NOD mice. The gene expression of NGF-ß, TrkA and insulin for immune enzymatic assay, the concentration of cytokines IL 1ß, IL-12, TNF-a, IFN-y and insulin were evaluated by RT-PCR and ELISA. Our results suggest similar modulation action between GM1 and NGF on islets of NOD non-diabetic and pre-diabetic. GM1 and NGF action increases the gene expression of NGF and TrkA and the decrease of insulin in mice NOD non-diabetic and pre-diabetic. Moreover, GM1 and NGF increase the insulin release and decrease inflammatory cytokines that characterize the Th1 reply.