posted on 2023-02-09, 09:03authored byShunliang Wu, Mads Østergaard, Freja Fredholt, Niels Johan Christensen, Kasper K. Sørensen, Narendra K. Mishra, Hanne M. Nielsen, Knud J. Jensen
Chemical modification of peptides and proteins, such
as PEGylation
and lipidation, creates conjugates with new properties. However, they
are typically not dynamic or stimuli-responsive. Self-assembly controlled
by a stimulus will allow adjusting properties directly. Here, we report
that conjugates of oligogalacturonic acids (OGAs), isolated from plant-derived
pectin, are Ca2+-responsive. We report the conjugation
of OGA to human insulin (HI) to create new glyco-insulins. In addition,
we coupled OGA to model peptides. We studied their self-assembly by
dynamic light scattering, small-angle X-ray scattering, and circular
dichroism, which showed that the self-assembly to form nanostructures
depended on the length of the OGA sequence and Zn2+ and
Ca2+ concentrations. Subcutaneous administration of OGA12–HI
with Zn2+ showed a stable decrease in blood glucose over
a longer period of time compared to HI, despite the lower receptor
binding affinity.