[Heparan sulphates, amyloidosis and neurodegeneration]. / Heparan sulfatos, amiloidosis y neurodegeneracion.

INTRODUCTION: A number of neurodegenerative disorders have been linked directly to the accumulation of amyloid fibres. These fibres are made up of proteins or peptides with altered structures and which join together in vivo in association with heparan sulphate-type polysaccharides. AIMS: To examine the most recent concepts in the biology of heparan sulphates and their role in the aggregation of the peptide Abeta, of tau protein, of alpha-synuclein and of prions. The study also seeks to analyse their implications in neurodegenerative disorders such as Alzheimer's and Parkinson's disease and prion diseases. DEVELOPMENT: In vitro, heparan sulphates have played an important role in the process of oligomerisation and fibrillation of amyloidogenic proteins or peptides, in the stabilisation of these bodies and their resistance to proteolysis, thereby participating in the formation of a wide range of amyloid fibres. Heparan sulphates have also been related to the internalisation of pro-amyloid fibres during the process of intercellular propagation (spreading), which is considered to be crucial in the development of proteinopathies, the best example of which is Alzheimer's disease. CONCLUSION: This study suggests that the fine structures of heparan sulphates, their localisation in cells and tissues, together with their local concentration, may regulate the amyloidosis processes. The advances made in the understanding of this area of glyconeurobiology will make it possible to improve the understanding of the cell and molecular mechanisms underlying the neurodegenerative process.

TITLE: Heparan sulfatos, amiloidosis y neurodegeneracion.Introduccion. Numerosos trastornos neurodegenerativos se han asociado directamente a la acumulacion de fibras amiloides. Estas fibras estan formadas por proteinas o peptidos con conformaciones alteradas y que se agregan in vivo en asociacion con polisacaridos de tipo heparan sulfatos. Objetivos. Examinar los conceptos mas recientes sobre la biologia de los heparan sulfatos y su papel en la agregacion del peptido Abeta, de la proteina tau, de la alfa-sinucleina y de los priones, y analizar sus implicaciones en trastornos neurodegenerativos como las enfermedades de Alzheimer y de Parkinson y las enfermedades prionicas. Desarrollo. In vitro, los heparan sulfatos han desempeñado un papel importante en el proceso de oligomerizacion y fibrilacion de proteinas o peptidos amiloidogenos, en la estabilizacion de estos cuerpos y su resistencia a la proteolisis, participando asi en la formacion de una gran variedad de fibras amiloides. Los heparan sulfatos se han relacionado tambien con el proceso de internalizacion de fibras proamiloides durante el proceso de propagacion intercelular (spreading) considerado como central en la evolucion de las proteinopatias, cuyo mejor ejemplo es la enfermedad de Alzheimer. Conclusion. Este trabajo sugiere que las estructuras finas de los heparan sulfatos, sus localizaciones celulares y tisulares, asi como sus concentraciones locales, pueden regular los procesos de amiloidosis. Avances en la comprension de esta area de la gliconeurobiologia permitiran mejorar la comprension de los mecanismos celulares y moleculares del proceso neurodegenerativo.

Alpha-synuclein accumulates in the brain of scrapie-affected sheep and goats.

Immunohistochemical examination demonstrated widespread granular deposits of alpha-synuclein (alphaSN) in the brains of sheep and goats with natural scrapie, especially in the cornu ammonis and subiculum of the hippocampus; this contrasted with the diffuse and non-granular immunolabelling seen in healthy controls. There was non-regular "co-localization" of PrP(Sc) and alphaSN. The findings resembled those reported in Creutzfeldt-Jakob disease and in experimental prion disease in hamsters and mice. The results suggest that perturbation of alphaSN metabolism plays a role in human and animal prion diseases.