Despite chaperone actions, some proteins still misfold. Accumulation of misfolded proteins can cause check details disease such as amyloid diseases; Alzheimer’s, Parkinson’s, and HD have similar amyloid origins. Regardless of the type, the risk of getting any of these diseases increases dramatically with age (Unnithan et al. 2012). With aging or mutations, the fine balance of the synthesis, folding, and degradation of proteins will decrease resulting in the production and accumulation of Inhibitors,research,lifescience,medical misfolded proteins. Postmortem tissues from patients with neurodegenerative diseases demonstrate protein-misfolding stress and reduced

proteasome activity. This broad-spectrum effect of proteotoxic stress has led to the term “proteinopathies” for neurodegenerative diseases. Unnithan and his team believe that toxic-related proteinopathies with GSH loss could have good response to NAC by reversing this GSH loss and preventing this toxicity (Unnithan et al. 2012). Effect Inhibitors,research,lifescience,medical of NAC on diseases of the central nervous system Oxidative stress plays a critical role in neuronal dysfunction and death in various neurodegenerative diseases, including Inhibitors,research,lifescience,medical spinocerebellar disease (SCD), myoclonus epilepsy of the Unverricht–Lundbor type (ULD), Alzheimer’s disease (AD), Parkinson’s disease

(PD), tardive dyskinesia (TD), and Down’s syndrome (DS) (Arakawa and Ito 2007) (Table 2). Table 2 Clinical trials in neurological disorders. Spinocerebellar disease SCD is a diverse group of rare, slowly progressive neurological diseases, often inherited but of incompletely understood pathophysiology, which affect Inhibitors,research,lifescience,medical the cerebellum and its related pathways. Several studies have found evidence of oxygen-mediated damage in SCD (Arakawa and Ito 2007). If free-radical species play an important Inhibitors,research,lifescience,medical role in cerebellar degeneration in SCD, then NAC may be therapeutically effective. However, there have been no basic or clinical studies aside from one report of 18 patients with SCD who received NAC (Eldridge et al. 1983). Despite varying degrees of ataxia, dysarthria, and oculomotor disturbance among the patients, all claimed subjective improvement with NAC. The most severely

affected patient was treated with NAC for 26 months, leading to a marked improvement in the eye movement control (Eldridge et al. 1983). One case report described NAC administration in a patient with olivopontine cerebellar atrophy (OPCA) who had difficulties with balance (-)-p-Bromotetramisole Oxalate and walking, progressive speech disruption, and diminished proprioception and pain sensitivity. A marked improvement in dysarthria and balance was seen 1 month after using NAC. By 3 months, the patient could discriminate between hot and cold, and had regained some touch and position sense (Yang et al. 1984). NAC was also administered in a case of Friedreich’s ataxia, a multisystem disorder, for 8 months with an improvement in proprioception and a slight decline in ataxia (Yang et al. 1984).