Dana Marcus, Michal Lichtenstein, Natali Cohen, Rita Hadad, Tal Erlich-Hadad, Hagar Greif, Haya Lorberboum-Galski, The International Journal of Biochemistry & Cell Biology, Available online 19 October 2016, ISSN 1357-2725, doi:10.1016/j.biocel.2016.10.013.
We chose the FXN protein to examine whether nuclear-encoded mitochondrial proteins can efficiently be targeted via a heterologous MTS (hMTS) and deliver a functional protein into mitochondria.
hMTSs delivered a functional FXN protein into the mitochondria even more efficiently than the native MTSfxn, as evidenced by the rescue of FA patients’ cells from oxidative stress; demonstrating a 18%-54% increase in cell survival; and a 13%-33% increase in ATP levels, as compared to the fusion protein carrying the native MTS.
Heterologous mitochondrial targeting sequences can deliver functional proteins into mitochondria