Your search keyword '"Adriano Sebollela"' showing total 2 results

1. AAV-mediated neuronal expression of a scFv antibody selective for Aβ oligomers protects synapses and rescues memory in Alzheimer models

Author

Maria Clara Selles, Juliana T.S. Fortuna, Magali C. Cercato, Luis Eduardo Santos, Luciana Domett, Andre L.B. Bitencourt, Mariane Favero Carraro, Amanda S. Souza, Helena Janickova, Jorge M. de Souza, Soniza Alves-Leon, Vania F. Prado, Marco A. M. Prado, Alberto L. Epstein, Anna Salvetti, Ottavio Arancio, William L. Klein, Adriano Sebollela, Fernanda G. De Felice, Diana A. Jerusalinsky, and Sergio T. Ferreira

Abstract

Brain accumulation of soluble oligomers of the amyloid-β peptide (AβOs) has been implicated in synapse failure and memory impairment in Alzheimer’s disease. Here, we show that treatment with NUsc1, a single-chain variable fragment antibody (scFv) that selectively targets AβOs, prevents the inhibition of long-term potentiation in hippocampal slices and memory impairment induced by AβOs in mice. As a therapeutic approach for intracerebral antibody delivery, we developed an adeno-associated virus vector to drive neuronal expression of NUsc1 (AAV-NUsc1) within the brain. Transduction by AAV-NUsc1 induced NUsc1 expression and secretion in adult human brain slices, and inhibited AβO binding to neurons and AβO-induced loss of dendritic spine loss in primary rat hippocampal cultures. Treatment of mice with AAV-NUsc1 prevented memory impairment induced by AβOs and, importantly, reversed memory deficits in aged APPswe/PS1ΔE9 Alzheimer’s disease model mice. These results support the feasibility of gene-mediated immunotherapy using single-chain antibodies as a potential therapeutic approach in Alzheimer’s disease.

Published

2022

2. A freeze-and-thaw induced-fragment of the microtubule-associated protein Tau in rat brain extracts: implications for the biochemical assessment of neurotoxicity

Author

N. Garcia-Cairasco, Luciane C. Alberici, Ana Paula Masson, Adriano Sebollela, Gustavo Duarte Ferrari, Raquel M. Campos, Israel C. Vasconcelos, Hanna K. Schwaemmle, and Vitor M. Faça

Subjects

Protease, medicine.diagnostic_test, Chemistry, Proteolysis, medicine.medical_treatment, Phosphatase, Neurotoxicity, medicine.disease, Molecular biology, Blot, Radioimmunoprecipitation assay buffer, medicine, Phosphorylation, Centrifugation

Abstract

Tau is a microtubule-associated protein responsible for controlling the stabilization of microtubules in neurons. Tau function is regulated by phosphorylation. However, in some neurological diseases Tau becomes aberrantly hyperphosphorylated, which contributes to the pathogenesis of neurological diseases, known as tauopathies. Western blotting (WB) has been widely employed to determine Tau levels in neurological disease models. However, Tau quantification by WB should be interpreted with care, as this approach has been recognized as prone to produce artifactual results if not properly performed. In this study, our goal was to evaluate the influence of a freeze-and-thaw cycle, a common procedure preceding WB, to the integrity of Tau in brain homogenates from rats, 3xTg-AD mice and human samples. Homogenates were prepared in ice-cold RIPA buffer supplemented with protease/phosphatase inhibitors. Immediately after centrifugation, an aliquot of the extracts was analyzed via WB to quantify total and phosphorylated Tau levels. The remaining aliquots were stored for at least 2 weeks at either −20°C or −80°C and then subjected to WB. Extracts from rodent brains submitted to freeze-and-thaw presented a ~25 kDa fragment immunoreactive to anti-Tau antibodies. An in-gel digestion followed by mass spectrometry analysis in excised bands revealed this ~25 kDa species corresponds to a Tau fragment. Freeze-and-thaw-induced Tau proteolysis was detected even when extracts were stored at −80°C. This phenomenon was not observed in human samples at any storage condition tested. Based on these findings, we strongly recommend the use of fresh extracts of brain samples in molecular analysis of Tau levels in rodents.

Published

2018