ABSTRACT
Depression is a serious mental illness with a high incidence. At present, we do not fully understand the specific pathological mechanisms of depression, and the efficacy of drug treatments is very limited. Recent studies have shown that epigenetic changes that occur in specific brain regions may be a key mechanism by which environmental factors to interact with individuals to influence the risk of depression. Therefore, drugs that target epigenetic regulation may become a new direction for the development of antidepressants. Histone deacetylase inhibitors (HDACi) are a class of compounds that inhibit histone deacetylase activity, which has been reported to be associated with depression; this article addresses the use of HDACi in preclinical studies, and their potential therapeutic role and limitations of use in depression.
ABSTRACT
italic>N-Acetylaspartate (NAA) is a highly abundant brain metabolite. Nowadays, as an important marker reflecting the function of nervous system, NAA is widely used in the results analysis of nuclear magnetic resonance spectroscopy (1H MRS). NAA is synthesized in mitochondria of neurons and metabolized in oligodendrocytes. Additionally, NAA may be converted to the dipeptide N-acetylaspartylglutamate (NAAG), and catabolized into NAA and glutamate in astrocytes. NAA is related to a variety of central nervous system diseases, including Canavan disease, multiple sclerosis, depression, schizophrenia and other mental diseases. Therefore, NAA may be a biomarker of these diseases, and its related enzymes may be used as therapeutic targets for drug screening. Here, we combined the current research on the molecular mechanisms of NAA to reveal the process of NAA generation, metabolism and transport in the brain, explain the possible physiological effects of NAA and discuss its relationship with central nervous system diseases, explore the prospect of NAA in disease prediction and diagnosis, as well as the targeted treatment that may become the breakthrough of refractory diseases.