Development of stapled NONO‐associated peptides reveals unexpected cell permeability and nuclear localisation

Page view(s)
0
Checked on
Development of stapled NONO‐associated peptides reveals unexpected cell permeability and nuclear localisation
Title:
Development of stapled NONO‐associated peptides reveals unexpected cell permeability and nuclear localisation
Journal Title:
Journal of Peptide Science
Publication Date:
27 December 2023
Citation:
Young, R., Huang, T., Luo, Z., Tan, Y. S., Kaur, A., & Lau, Y. H. (2023). Development of stapled NONO‐associated peptides reveals unexpected cell permeability and nuclear localisation. Journal of Peptide Science, 30(5). Portico. https://doi.org/10.1002/psc.3562
Abstract:
The non‐POU domain‐containing octamer‐binding protein (NONO) is a nucleic acid‐binding protein with diverse functions that has been identified as a potential cancer target in cell biology studies. Little is known about structural motifs that mediate binding to NONO apart from its ability to form homodimers, as well as heterodimers and oligomers with related homologues. We report a stapling approach to macrocyclise helical peptides derived from the insulin‐like growth factor binding protein (IGFBP‐3) that NONO interacts with, and also from the dimerisation domain of NONO itself. Using a range of chemistries including Pd‐catalysed cross‐coupling, cysteine arylation and cysteine alkylation, we successfully improved the helicity and observed modest peptide binding to the NONO dimer, although binding could not be saturated at micromolar concentrations. Unexpectedly, we observed cell permeability and preferential nuclear localisation of various dye‐labelled peptides in live confocal microscopy, indicating the potential for developing peptide‐based tools to study NONO in a cellular context.
License type:
Attribution 4.0 International (CC BY 4.0)
Funding Info:
This research / project is supported by the National Health and Medical Research Council - NA
Grant Reference no. : APP200425

This research / project is supported by the Australian Research Council - NA
Grant Reference no. : DE210101176
Description:
ISSN:
1075-2617
1099-1387
Files uploaded:

File Size Format Action
1449-development-of-stapled-nono.pdf 2.94 MB PDF Open