1 research outputs found
Decoding the Parkinson’s Symphony: PARIS, Maestro of Transcriptional Regulation and Metal Coordination for Dopamine Release
Parkin interacting substrate (PARIS) is a pivotal transcriptional
regulator in the brain that orchestrates the activity of various enzymes
through its intricate interactions with biomolecules, including nucleic
acids. Notably, the binding of PARIS to insulin response sequences
(IRSs) triggers a cascade of events that results in the functional
loss in the substantia nigra, which impairs dopamine release and,
subsequently, exacerbates the relentless neurodegeneration. Here,
we report the details of the interactions of PARIS with IRSs via classical
zinc finger (ZF) domains in PARIS, namely, PARIS(ZF2–4). Our
biophysical studies with purified PARIS(ZF2–4) elucidated the
binding partner of PARIS, which generates specific interactions with
the IRS1 (5′-TATTTTT, Kd = 38.9
± 2.4 nM) that is positioned in the promoter region of peroxisome
proliferator-activated receptor gamma coactivator-1α (PGC-1α).
Mutational and metal-substitution studies demonstrated that Zn(II)–PARIS(ZF2–4)
could recognize its binding partner selectively. Overall, our work
provides submolecular details regarding PARIS and shows that it is
a transcriptional factor that regulates dopamine release. Thus, PARIS
could be a crucial target for therapeutic applications