posted on 2018-11-09, 00:00authored byNoreen Ahmed, Joanna Fréderique De Graaf, Nadine Ahmed, Dana V. Foss, Julie Delcorde, Peter G. Schultz, John Paul Pezacki
Endogenously expressed
noncoding RNAs are regulators of mRNA translation
and affect diverse biological pathways spanning embryogenesis to cholesterol
and fatty acid metabolism. Recently, microRNAs have become an important
therapeutic target with strategies that employ oligonucleotides as
both mimics and inhibitors of target microRNAs, successfully altering
gene expression and cellular pathways in relevant contexts. However,
delivery of these exogenous effectors remains a major challenge. Here,
we present a method for evaluating noncoding RNA delivery using the
viral suppressor of RNA silencing (VSRS) protein p19, optimized for
cellular delivery of small RNAs. Using genetic code expansion technology, p-azidophenylalanine (AzF) was incorporated into a recombinant
p19 protein and used to develop a fluorescence resonance energy transfer
(FRET) sensor. AzF was used to attach FRET acceptor moieties using
bioorthogonal chemistry. We show that this strategy not only gives
rise to FRET signals that report on small RNA binding, but also allows
for fluorescence quenching as well, convenient for measuring RNA release.
We demonstrate the successful use of a modified version of the probe
to track the delivery and release of small RNAs into mammalian cells.
The results provide a basis for a further development of vehicles
for small RNA delivery and release for intervening in noncoding RNA
biology.