IMPROVED OSTEOGENIC VECTOR FOR NON-VIRAL GENE THERAPY

Hacobian, A. R. A.; Posa-Markaryan, K.; Sperger, S.; Stainer, M.; Hercher, D.; Feichtinger, G. A.; Schuh, C. M. A. P.; Redl, H.

Abstract

Therapeutic compensation of deficient bone regeneration is a challenging task and a topic of on-going search for novel treatment strategies. One promising approach for improvement involves non-viral gene delivery using the bone morphogenetic protein-2 (BMP-2) gene to provide transient, local and sustained expression of the growth factor. However, since efficiency of non-viral gene delivery is low, this study focused on the improvement of a BMP2 gene expression system, aiming for compensation of poor transfection efficiency. First, the native BMP-2 gene sequence was modified by codon optimisation and altered by inserting a highly truncated artificial intron (96 bp). Transfection of multiple cell lines and rat adipose-derived mesenchymal stem cells with plasmids harbouring the improved BMP-2 sequence led to a several fold increased expression rate and subsequent osteogenic differentiation. Additionally, comparing expression kinetics of elongation factor 1 alpha (EF1 alpha) promoter with a state of the art CMV promoter revealed significantly higher BMP-2 expression when under the influence of the EF1 alpha promoter. Results obtained by quantification of bone markers as well as osteogenic assays showed reduced sensitivity to promoter silencing effects of the EF1 alpha promoter in rat adipose-derived mesenchymal stem cells. Finally, screening of several protein secretion signals using either luciferase or BMP-2 as reporter protein revealed no superior candidates for potential replacement of the native BMP-2 secretion signal. Taken together, by enhancing the exogenous BMP-2 expression system, low transfection efficiencies in therapeutic applications can be compensated, making safe non-viral systems even more suitable for tissue regeneration approaches.

Más información

Título según WOS: ID WOS:000384895100013 Not found in local WOS DB
Título de la Revista: EUROPEAN CELLS MATERIALS
Volumen: 31
Editorial: AO RESEARCH INSTITUTE DAVOS-ARI
Fecha de publicación: 2016
Página de inicio: 191
Página final: 204
DOI:

10.22203/eCM.v031a13

Notas: ISI