posted on 2020-05-14, 17:19authored byTimothy A. Vickers, Michael T Migawa, Punit P. Seth, Stanley T. Crooke
The activity of PS-ASOs is strongly
influenced by association with
both inter- and intracellular proteins. The sequence, chemical nature,
and structure of the ASO can have profound influences on the interaction
of PS-ASOs with specific proteins. A more thorough understanding of
how these pharmacological agents interact with various proteins and
how chemical modifications, sequence, and structure influence interactions
with proteins is needed to inform future ASO design efforts. To better
understand the chemistry of PS-ASO interactions, we have focused on
human positive cofactor 4 (PC4). Although several studies have investigated
the in vitro binding properties of PC4 with endogenous nucleic acids,
little is known about the chemistry of interaction of PS-ASOs with
this protein. Here we examine in detail the impact of ASO backbone
chemistry, 2′-modifications, and buffer environment on the
binding affinity of PC4. In addition, using site-directed mutagenesis,
we identify those amino acids that are specifically required for ASO
binding interactions, and by substitution of abasic nucleotides we
identify the positions on the ASO that most strongly influence affinity
for PC4. Finally, to confirm that the interactions observed in vitro
are biologically relevant, we use a recently developed complementation
reporter system to evaluate the kinetics and subcellular localization
of the interaction of ASO and PC4 in live cells.