Doença de Tay-Sachs: relato de caso / Tay-Sachs disease: a case report

RESUMO A doença de Tay-Sachs é um distúrbio neurodegenerativo autossômico recessivo, o qual envolve o metabolismo dos lipídios, levando ao acúmulo de gangliosídeos nos tecidos, devido à deficiência da enzima hexosaminidase A. Esse depósito progressivo resulta em perda da função neurológica e, quando acomete as células ganglionares da mácula, causa o achado típico da doença, a "mácula em cereja". A patologia é diagnosticada por meio dos níveis de hexosaminidase A e hexosaminidase total no soro, além análise do DNA do gene HEXA. Este caso relata uma criança com doença de Tay-Sachs cujo diagnóstico foi suspeitado por conta dos achados oftalmológicos.

ABSTRACT Tay-Sachs Disease is an autosomal recessive neurodegenerative disorder, which involves the metabolism of lipids, leading to the accumulation of gangliosides in the tissues, due to the deficiency of the enzyme Hexosaminidase A. This progressive deposit results in loss of neurological function and, when it affects macula ganglion cells, it causes the typical disease finding, the "cherry red spot". The pathology is diagnosed through the levels of Hex A and total Hexosaminidase in the serum, in addition to the analysis of the DNA of the HEXA gene. This case reports a child with Tay-Sachs disease with a suspected diagnosis was through ophthalmologic findings.

Progressive psychomotor regression for 2.5 years in a boy aged 5 years / 中国当代儿科杂志

A boy, aged 5 years, attended the hospital due to progressive psychomotor regression for 2.5 years. Motor function regression was the main manifestation in the early stage, and brain MRI and whole-exome sequencing (WES) of the family showed no abnormalities. After the age of 4 years and 9 months, the boy developed cognitive function regression, and brain MRI showed cerebellar atrophy. The reanalysis of WES results revealed a compound heterozygous mutation, [NM_000520, c.784C>T(p.His262Tyr]), c.1412C>T(p.Pro471Leu)], in the HEXA gene. The enzyme activity detection showed a significant reduction in the level of β-hexosaminidase encoded by this gene. The boy was diagnosed with juvenile Tay-Sachs disease (TSD). TSD has strong clinical heterogeneity, and cerebellar atrophy may be an important clue for the diagnosis of juvenile TSD. The reanalysis of genetic data when appropriate based on disease evolution may improve the positive rate of WES.

In silico analysis of the effects of disease-associated mutations of b-hexosaminidase A in Tay–Sachs disease

Tay–Sachs disease (TSD), a deficiency of b-hexosaminidase A (Hex A), is a rare but debilitating hereditary metabolic disorder. Symptoms include extensive neurodegeneration and often result in death in infancy. We report an in silico study of 42 Hex A variants associated with the disease. Variants were separated into three groups according to the age of onset: infantile (n=28), juvenile (n=9) and adult (n=5). Protein stability, aggregation potential and the degree of conservation of residues were predicted using a range of in silico tools. We explored the relationship between these properties and the age of onset of TSD. There was no significant relationship between protein stability and disease severity or between protein aggregation and disease severity. Infantile TSD had a significantly higher mean conservation score than nondisease associated variants. This was not seen in either juvenile or adult TSD. This study has established that the degree of residue conservation may be predictive of infantile TSD. It is possible that these more highly conserved residues are involved in trafficking of the protein to the lysosome. In addition, we developed and validated software tools to automate the process of in silico analysis of proteins involved in inherited metabolic diseases. Further work is required to identify the function of well-conserved residues to establish an in silico predictive model of TSD severity

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.

Characterization of recombinant human lysosomal beta-hexosaminidases produced in the methylotrophic yeast Pichia pastoris / Caracterización de beta-hexosaminidasas lisosomales humanas recombinantes producidas en la levadura metilotrófica Pichia pastoris / Caracterização de beta-hexosaminidases lisossomais humanas recombinantes produzidas na levedura metilotrófica Pichia pastoris

Abstract β-hexosaminidases (Hex) are dimeric enzymes involved in the lysosomal degradation of glycolipids and glycans. They are formed by α- and/or β-subunits encoded by HEXA and HEXB genes, respectively. Mutations in these genes lead to Tay Sachs or Sandhoff diseases, which are neurodegenerative disorders caused by the accumulation of non-degraded glycolipids. Although tissue-derived Hex have been widely characterized, limited information is available for recombinant α-hexosaminidases. In this study, human lysosomal recombinant Hex (rhHex-A, rhHex-B, and rhHex-S) were produced in the methylotrophic yeast Pichia pastoris GS115. The highest specific enzyme activities were 13,124 for rhHexA; 12,779 for rhHex-B; and 14,606 U .mg-1 for rhHex-S. These results were 25- to 50-fold higher than those obtained from normal human leukocytes. Proteins were purified and characterized at different pH and temperature conditions. All proteins were stable at acidic pH, and at 4 °C and 37 °C. At 45 °C rhHex-S was completely inactivated, while rhHex-A and rhHex-B showed high stability. This study demonstrates P. pastoris GS115 potential for polymeric lysosomal enzyme production, and describes the characterization of recombinant β-hexosaminidases produced within the same host.

Resumen Las β-hexosaminidasas (Hex) son enzimas diméricas involucradas en la degradación lisosomal de glicolípidos y glicanos. Estas enzimas están formadas por las subunidades α- y/o β-codificadas por los genes HEXA and HEXB respectivamente. Las mutaciones de estos genes conducen a las enfermedades de Tay Sachs o Sandhoff, que son desórdenes neurodegenerativos causados por la acumulación de glicolípidos no degradados. Aunque las Hex derivadas de tejido han sido ampliamente caracterizadas, la información disponible sobre las p-hexosaminidasas recombinantes es limitada. En este estudio se produjeron Hex recombinantes lisosomales (rhHex-A, rhHex-B y rhHex-S) en la levadura metilotrófica Pichia pastoris GS115. Las actividades específicas más altas de las enzimas fueron 13.124, 12.779, 14.606 U .mg-1 para rhHex-A, rhHex-B y rhHex-S, respectivamente. Estos resultados fueron 25 a 50 veces más altos que los obtenidos de leucocitos humanos normales. Las proteínas se purificaron y se caracterizaron a diferentes condiciones de pH y temperatura. Todas las proteínas fueron estables a pH ácido y a 4°C y 37°C. A 45°C la rhHex-S se inactivó completamente, mientras que rhHex-A y rhHex-B mostraron alta estabilidad. Este estudio demuestra el potencial de P. pastoris GS115 para la producción de enzimas lisosomales poliméricas y presenta la caracterización de distintas β-hexosaminidasas recombinantes producidas en un único hospedero.

Resumen As β-hexosaminidases (Hex) são enzimas diméricas envolvidas na degradação lisossomal de glicolipídeos e glicanos. Essas enzimas são formadas por subunidades a- e/ou p-codificadas pelos genes HEXA e HEXB, respectivamente. As mutações nesses genes causam a doença de Sandhoff ou Tay Sachs, que são desordens neurodegenerativas causadas pela acumulação de glicolipídeos não degradados. Embora Hex derivadas de tecido hajam sido caracterizadas extensivamente, as informações disponíveis sobre as p-hexosaminidases recombinantes são limitadas. Esse estudo produziu Hex recombinantes lisossomais (rhHex-A, rhHex-B e rhHex-S) na levedura metilotrófica Pichia pastoris GS115. As atividades específicas mais altas das enzimas foram 13.124, 12.779, 14.606 U .mg-1 para rhHex-A, rhHex-B y rhHex-S, respectivamente. Esses resultados foram 25 a 50 vezes mais altos do que os obtidos a partir de leucócitos humanos normais. As proteínas foram purificadas e caracterizadas em diferentes condições de pH e temperatura. Todas as proteínas foram estáveis a pH ácido e a 4°C e 37°C. A 45°C a rhHex-S foi completamente inativada, enquanto rhHex rhHex-A e B se mostraram altamente estáveis. Esse estudo demonstra o potencial de P. pastoris GS115 para a produção de enzimas lisossomais poliméricas e apresenta a caracterização de diferentes p-hexosaminidases recombinantes produzidas em único hospedeiro.

Enfermedad de Tay-Sachs / Tay-Sachs disease

La enfermedad de Tay-Sachs es un trastorno neurodegenerativo progresivo de herencia autosómica recesiva. Se debe a la deficiencia de la enzima β-hexosaminidasa A, que provoca una acumulación de gangliósidos GM2 en los lisosomas. Se incluye dentro de las esfingolipidosis. De las esfingolipidosis que presentan mancha rojo cereza en la mácula, la enfermedad de Tay-Sachs es la única en la que no se evidencia hepatoesplenomegalia. La variante más frecuente se inicia en la lactancia. Se presenta un lactante del sexo masculino al que se le realizó el diagnóstico de esta entidad a los 8 meses de edad. A partir de los 4 meses comenzó a presentar una reacción de sobresalto. A los 6 meses comenzó a perder habilidades previamente adquiridas y crisis epilépticas mioclónicas. Se constató una disminución de la actividad específica de la enzima hexosaminidasa A en leucocitos.

Tay-Sachs disease is a progressive autosomal recessive inherited neurodegenerative disorder caused by Beta-hexosaminidase A enzyme deficiency that in turn provokes GM2 ganglioside accumulation in the lysosomes. It is included in the sphyngolipidoses classification. Among the sphyngolipidoses that present with cherry-red spot in the macula, Tay-Sachs disease is the only one that does not show hepatosplenomegaly. The most frequent variant begins at the breast-feeding phase. This report presented a male nursling who was diagnosed with Tay-Sachs disease at the age of 8 months. At 4 months of age, he had begun getting some fright reactions. At 6 months-old, he began losing his previously acquired skills and suffering myoclonic seizures. The cause was the reduced specific activity of the hexosaminidase A enzyme in leukocytes.

"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.

An Anesthetic Experience in a Patient with Tay-Sachs Disease : A case report / 대한마취과학회지

Tay-Sachs Disease (TSD), the most common form of GM(2) gangliosidosis, is an autosomal recessive inborn lysosomal glycosphingolipid storage disease which is resulted from the mutations that affect the alpha-subunit locus on chromosome 15 and cause a severe deficiency of hexosaminidase A. It is characterized by normal motor development in the first few months of life, followed by progressive weakness and loss of motor skills beginning around 6 months of life. Neurodegeneration is relentless and manifested as relentless motor and mental deterioration, beginning with motor incoordination, mental obtundation leading to muscular flaccidity, blindness, and increasing dementia, with death occurring by the age of 4 or 5 years. We report a successful anesthetic management in a patient with Tay-Sachs Diseases for tracheostomy and feeding gastrostomy.

A Case of Tay-Sachs Disease in Korea Diagnosed by Enzyme Assay and DNA Analysis / 소아과

Tay-Sachs disease is an autosomal recessive, neurodegenerative disorder that results from excessive storage of the cell membrane glycolipid, and GM2 ganglioside within the lysosomes of cells. This disease is caused by deficiency of the isoenzyme beta-hexosaminidase A, produced in the endoplasmic reticulum. Patients with Tay-Sachs disease are characterized by normal motor development in the first few months of life, followed by progressive weakness and loss of motor skills beginning around 2 to 6 months of life. Neurodegeneration is relentless, with death occurring by the age of 4 or 5 years. Tay-Sachs disease could be diagnosed by hexosaminidase enzyme assay and DNA analysis of HEXA gene. However, specific treatment has not been developed. We report here on a case of Tay- Sachs disease in 18-month-old male who presented with delayed development and seizure. This patient showed hyperacusis and cherry red spot in macula on examination of the fundus. The hexosaminidase A activity was zero percent in the enzymatic assay and DNA analysis identified a mutation that glutamine is substituted by stop codon at position 390(Q390X). This patient is the first case of Tay-Sachs disease in Korea diagnosed by enzymatic assay and DNA analysis.

Comparison of enzyme and DNA analysis in a Tay-Sachs disease carrier screening program

Tay-Sachs disease (GM2 gangliosidosis, type 1; TSD) is an autosomal recessive GM2 gangliosidosis resulting from the deficient activity of the lysosomal hydrolase beta-hexosaminidase A (Hex A). With a carrier frequency estimated at 1 in 25, it is a common lysosomal disorder in the Ashkenazi Jewish population. Tay-Sachs disease has provided the prototype for the prevention of severe recessive genetic diseases. Molecular analysis of the Hex A gene (HEXA) of Ashkenazi Jewish individuals affected with Tay-Sachs disease revealed that three common mutations cause the infantile and adult onset forms of the disease; a four base insertion in exon 11, a splice junction mutation in intron 12 and a point mutation in exon 7 (G269S). A study was undertaken to determine whether mutation analysis would be useful in TSD screening programs in identifying carriers and clarifying the status of individuals whose enzyme assays are inconclusive. Ashkenazi Jewish individuals who had been diagnosed as carriers, inconclusives by enzyme assay and non-carriers with low normal enzyme levels in the Mount Sinai Tay-Sachs Disease Prevention Program were examined for the presence of the three mutations using polymerase chain reaction (PCR) and allele specific oligonucleotide (ASO) hybridization. The insertion mutation was present in 29 of 34 carriers and 2 of 36 inconclusive individuals, the splice junction mutation was found in 4 of 34 carriers and the G269S mutation was found in 1 of 34 carriers. Of the 313 non-carrier individuals with normal enzyme activity in the lower normal range, one was positive for the splice junction mutation.(ABSTRACT TRUNCATED AT 250 WORDS)