Journal
ANTIOXIDANTS
Volume 12, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/antiox12061257
Keywords
N-acetylcysteine; neuroprotection; disease modification
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Preventing degeneration and the loss of dopaminergic neurons in Parkinson's Disease (PD) remains a challenge, and developing disease-modifying approaches is imperative. N-acetylcysteine (NAC) has shown promising potential in preserving the dopaminergic system and modulating PD mechanisms. In this study, NAC enhanced dopaminergic neuron viability and improved motor deficits in a rat model of PD, suggesting that it may serve as a modulator of PD degenerative mechanisms.
Preventing degeneration and the loss of dopaminergic neurons (DAn) in the brain while mitigating motor symptoms remains a challenge in Parkinson's Disease (PD) treatment development. In light of this, developing or repositioning potential disease-modifying approaches is imperative to achieve meaningful translational gains in PD research. Under this concept, N-acetylcysteine (NAC) has revealed promising perspectives in preserving the dopaminergic system capability and modulating PD mechanisms. Although NAC has been shown to act as an antioxidant and (neuro)protector of the brain, it has yet to be acknowledged how this repurposed drug can improve motor symptomatology and provide disease-modifying properties in PD. Therefore, in the present work, we assessed the impact of NAC on motor and histological deficits in a striatal 6-hydroxydopamine (6-OHDA) rat model of PD. The results revealed that NAC enhanced DAn viability, as we found that it could restore dopamine transporter (DAT) levels compared to the untreated 6-OHDA group. Such findings were positively correlated with a significant amelioration in the motor outcomes of the 6-OHDA-treated animals, demonstrating that NAC may, somehow, be a modulator of PD degenerative mechanisms. Overall, we postulated a proof-of-concept milestone concerning the therapeutic application of NAC. Nevertheless, it is extremely important to understand the complexity of this drug and how its therapeutical properties interact with the cellular and molecular PD mechanisms.
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