Phenomenome Discoveries Inc, Saskatoon, Saskatchewan, Canada.
J Neurochem. 2011 Jul;118(2):187-94. doi: 10.1111/j.1471-4159.2011.07305.x. Epub 2011 Jun 2.
Despite the fact that N-acetyl methionine (NAM) supplementation has long been reported as a bioavailable source of methionine in humans, and known to reduce liver toxicity after acetaminophen overdose, its cellular endogenous presence has never been investigated. We demonstrate for the first time that NAM is present in both human and mouse tissues and cells in culture. A wide variety of cultured cells, including a number of brain derived cell types, as well as mouse and human brain tissue all have clearly detectable levels of NAM. Methionine is rapidly acetylated to form NAM in cultured human oligodendroglioma cells with an initial rate of 0.44 ± 0.064 atom percent excess per minute. The presence of measurable quantities of NAM in brain cells in combination with its rapid formation point to a potential physiological role for N-acetylated methionine in the brain. Aminoacylase 1 is responsible for metabolism of NAM to methionine and acetate. Deficiencies in aminoacylase 1 have been linked to a variety of neurological disorders; however, it is unclear whether and how the brain is affected by this defect. The reported presence of NAM in the human brain may provide an invaluable key to discovering the link between aminoacylase 1 mutations and neurological problems.
尽管 N-乙酰蛋氨酸(NAM)补充剂长期以来一直被报道为人类蛋氨酸的生物可利用来源,并已知可减少对乙酰氨基酚过量后的肝毒性,但它在细胞内的内源性存在从未被研究过。我们首次证明 NAM 存在于人类和小鼠组织以及培养的细胞中。包括许多脑源性细胞类型在内的各种培养细胞以及小鼠和人类脑组织都具有明显可检测到的 NAM 水平。甲硫氨酸在培养的人少突胶质细胞瘤细胞中迅速乙酰化为 NAM,初始速率为每分钟 0.44±0.064 个原子百分比过剩。脑细胞中存在可测量数量的 NAM 及其快速形成表明 N-乙酰蛋氨酸在大脑中可能具有潜在的生理作用。氨基酰化酶 1 负责 NAM 向蛋氨酸和乙酸的代谢。氨基酰化酶 1 的缺乏与多种神经紊乱有关;然而,尚不清楚大脑是否受到这种缺陷的影响以及如何受到影响。据报道 NAM 存在于人类大脑中,这可能为发现氨基酰化酶 1 突变与神经问题之间的联系提供了宝贵的线索。
