Citation:Muthunayake, N., Dremann, D., Colangelo, W., Cunningham, P.R. and Chow, C.S. 2016. In vivo expression of H69-targeting peptides in bacteria. In Proceedings of the International Research Symposium on Pure and Applied Sciences (IRSPAS 2016), Faculty of Science, University of Kelaniya, Sri Lanka. p 26.
Date:2016
Abstract:
Identifying novel drug targets within the bacterial ribosome is an important approach
to overcome the well-known problem of antibiotic resistance. The specific region of
the ribosome under investigation in this study is helix 69 (H69) of 23S ribosomal
RNA. Considering the variety of functions of H69 in protein biosynthesis, as well as
differences between the bacterial and human H69 sequences, this RNA is an
attractive antibacterial drug target. In a previous study, short peptides that
specifically bind to H69 were isolated by using phage-display libraries. In a second
approach, modified variants of the selected parent peptide sequence were synthesized
to identify more tight binders. The main objective of the current study was to express
these H69-targeting peptides in E. coli to investigate the inhibitory effects on protein
synthesis. H69-targeting peptides were expressed in vivo as Green Fluorescence
Protein-fusion proteins and their activities were monitored through cellular
fluorescence levels. The seven-mer peptide sequence was cloned behind the Tobacco
Etch Virus (TEV) protease recognition sequence. Expression of TEV protease from
another plasmid in the same cell cleaves the TEV-recognition peptide sequence, and
the peptide is then exposed at the N-terminus of GFP. The construct was prepared in
which a his tag was placed at the C- terminus of the GFP gene such that the peptide
could be purified for further experiments. In order to further characterize selected
peptides as potential drug leads it is necessary to determine their activity outside the
context of the fusion protein. Therefore, currently we are using a different plasmid
system which can be used to express short peptides as free peptides in bacteria cells.
Expression of two different peptides was shown to have an inhibitory effect on
bacterial cell growth. These findings will be helpful for future antimicrobial drug
development.