Syntaxin-6 delays prion protein fibril formation and prolongs presence of toxic aggregation intermediates.

Prions replicate via the autocatalytic conversion of cellular prion protein (PrPC) into fibrillar assemblies of misfolded PrP. While this process has been extensively studied in vivo and in vitro, non-physiological reaction conditions of fibril formation in vitro have precluded the identification and mechanistic analysis of cellular proteins, which may alter PrP self-assembly and prion replication. Here, we have developed a fibril formation assay for recombinant murine and human PrP (23-231) under near-native conditions (NAA) to study the effect of cellular proteins, which may be risk factors or potential therapeutic targets in prion disease. Genetic screening suggests that variants that increase syntaxin-6 expression in the brain (gene: STX6) are risk factors for sporadic Creutzfeldt-Jakob disease (CJD). Analysis of the protein in NAA revealed, counterintuitively, that syntaxin-6 is a potent inhibitor of PrP fibril formation. It significantly delayed the lag phase of fibril formation at highly sub-stoichiometric molar ratios. However, when assessing toxicity of different aggregation time points to primary neurons, syntaxin-6 prolonged the presence of neurotoxic PrP species. Electron microscopy and super-resolution fluorescence microscopy revealed that, instead of highly ordered fibrils, in the presence of syntaxin-6 PrP formed less-ordered aggregates containing syntaxin-6. These data strongly suggest that the protein can directly alter the initial phase of PrP self-assembly and, uniquely, can act as an 'anti-chaperone', which promotes toxic aggregation intermediates by inhibiting fibril formation.

Evaluación de dos equipos inmunocromatográficos comerciales para el diagnóstico rápido de la infección por rotavirus / Evaluation of two immunochromatography kits for rapid diagnosis of rotavirus infections

Se realizó un estudio prospectivo para evaluar dos equipos comerciales inmunocromatográficos para el diagnóstico rápido de infección por rotavirus a partir de muestras fecales: VIKIA® Rota-Adeno, de bioMérieux, y Simple Rota- Adeno, de Operon. Como método de referencia se utilizó la transcripción reversa y reacción en cadena de la polimerasa (RT-PCR) con cebadores específicos del gen de la proteína VP7 de rotavirus del grupo A. La sensibilidad y la especificidad respecto de la RT-PCR fueron del 98,4% y 84,8% para el Simple Rota-Adeno, y del 100% y 24,2% para el VIKIA® Rota-Adeno. Es de destacar la baja especificidad de este último equipo diagnóstico, que presentó un elevado número de falsos positivos, por lo que el valor predictivo de un resultado positivo es sólo del 71,6%. Asimismo, se identificaron los genotipos de las cepas de rotavirus detectadas; la mayoría de ellas correspondieron al genotipo G9P(8) (65%), seguido de los genotipos G1P(8) (25,4%) y G2P(8) (3,2%).

A prospective study was conducted to evaluate two immunochromatography (ICG) commercial kits for diagnosis of rotavirus infection, VIKIA® Rota-Adeno (bioMérieux) and Simple Rota-Adeno (Operon). Reverse transcriptase and polymerase chain reaction (RT-PCR) with specific primers for the VP7 gene of group A rotavirus was used as the reference method. The sensitivity and specificity of the ICG tests compared with those of the reference method were 98.4% and 84.8%, respectively, for Simple Rota-Adeno (Operon), and 100% and 24.2% for VIKIA® Rota-Adeno (bioMérieux). It is remarkable the low specificity of the latter method, which yields a high number of false positive results. The predictive value of a positive result by this method was only 71.6%. Most of the detected rotavirus strains corresponded to genotype G9P(8) (65%), followed by G1P(8) (25.4%) and G2P(8) (3.2%).