Author:
Petrozziello Tiziana,Motlagh Negin J.,Monsanto Ranee Z.B.,Lei Dan,Murcar Micaela G.,Penney Ellen B.,Bragg D. Cristopher,Fernandez-Cerado Cara,Legarda G. Paul,Sy Michelle,Muñoz Edwin,Ang Mark C.,Diesta Cid Czarina E.,Zhang Can,Tanzi Rudolph E.,Qureshi Irfan A.,Chen John W.,Sadri-Vakili Ghazaleh
Abstract
AbstractAlthough the genetic locus of X-linked dystonia parkinsonism (XDP), a neurodegenerative disease endemic in the Philippines, is well-characterized, the exact molecular mechanisms leading to neuronal loss are not yet fully understood. Recently, we demonstrated a significant increase in astrogliosis and microgliosis together with an increase in myeloperoxidase (MPO) levels in XDP post-mortem prefrontal cortex (PFC), suggesting a role for neuroinflammation in XDP pathogenesis. Here, we demonstrated a significant increase in MPO activity in XDP PFC using a novel specific MPO-activatable fluorescent agent (MAFA). Additionally, we demonstrated a significant increase in reactive oxygen species (ROS) in XDP-derived fibroblasts as well as in SH-SY5Y cells treated with post-mortem XDP PFC, further supporting a role for MPO in XDP. To determine whether increases in MPO activity were linked to increases in ROS, MPO content was immuno-depleted from XDP PFC [MPO(-)], which resulted in a significant decrease in ROS in SH-SY5Y cells. Consistently, the treatment with verdiperstat, a potent and selective MPO inhibitor, significantly decreased ROS in both XDP-derived fibroblasts and XDP PFC-treated SH-SY5Y cells. Collectively, our results suggest that MPO inhibition mitigates oxidative stress and may provide a novel therapeutic strategy for XDP treatment.Highlights□MPO activity is increased in XDP post-mortem prefrontal cortex.□MPO activity is increased in cellular models of XDP.□MPO increases reactive oxygen species (ROS) in vitro.□Inhibiting MPO mitigates ROS in XDP.□The MPO inhibitor, verdiperstat, dampens ROS suggesting a potential therapeutic strategy for XDP.
Publisher
Cold Spring Harbor Laboratory