In a recent study, Prof. Feng Li and a team from Zhongshan School of Medicine, Sun Yat-sen University in China, synthesized a 19-nt oligonucleotide targeting BACE1, the key enzyme in amyloid beta protein (Aβ) production, and introduced it into the pSilenCircle vector to construct a short hairpin (shRNA) expression plasmid against the BACE1 gene.
Researchers transfected this vector into C17.2 neural stem cells and primary neural stem cells, resulting in down regulation of the BACE1 gene, which in turn induced a considerable reduction in reducing Aβ protein production.
This technique combining cell transplantation and gene therapy will open up novel therapeutic avenues for Alzheimer's disease, particularly because it can be used to simultaneously target several pathogenetic changes in the disease.
Illustration: There was no significant difference in cell viability between cells transfected with siBACE1-2 plasmid (A, B) and those that were untransfected (C, D). –Neural Regeneration Research.
Abstract (Neural Regeneration Research; 8, 33, 3095-3106 (2013))