Emmeline Lagrange , Marie-Anne Loriot , Nirmal K. Chaudhary , Pam Schultz , Alden C. Dirks , Claire Guissart , Timothy Y. James , Jean Paul Vernoux , William Camu , Ashootosh Tripathi , Peter S. Spencer
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引用次数: 0
摘要
在法国阿尔卑斯山的一个山区村庄进行的一项散发性肌萎缩性脊髓侧索硬化症(ALS)病例对照研究发现,病例与食用当地采集的野生真菌(假羊肚菌)有关。专家对与 ALS 有关的真菌的干燥标本进行了重新检查,结果表明它们属于 G. esculenta 菌群,即 G. venenata 和 G. esculenta。吉罗米特林代谢为一甲基肼,一甲基肼不仅具有假羊肚菌的急性口服毒性和神经毒性,还具有潜在的基因毒性,与神经退行性疾病的病因有一定的机理相关性。根据 N-乙酰转移酶-2(NAT2)基因分型预测,大多数 ALS 患者具有慢乙酰化或中乙酰化表型,这将增加陀螺毒素代谢物产生神经毒性和基因毒性效应的风险。
Corrected speciation and gyromitrin content of false morels linked to ALS patients with mostly slow-acetylator phenotypes
A case-control study of sporadic amyotrophic lateral sclerosis (ALS) in a mountainous village in the French Alps discovered an association of cases with a history of eating wild fungi (false morels) collected locally and initially identified and erroneously reported as Gyromitra gigas. Specialist re-examination of dried specimens of the ALS-associated fungi demonstrated they were members of the G. esculenta group, namely G. venenata and G. esculenta, species that have been reported to contain substantially higher concentrations of gyromitrin than present in G. gigas. Gyromitrin is metabolized to monomethylhydrazine, which is responsible not only for the acute oral toxic and neurotoxic properties of false morels but also has genotoxic potential with proposed mechanistic relevance to the etiology of neurodegenerative disease. Most ALS patients had a slow- or intermediate-acetylator phenotype predicted by N-acetyltransferase-2 (NAT2) genotyping, which would increase the risk for neurotoxic and genotoxic effects of gyromitrin metabolites.
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eNeurologicalSci provides a medium for the prompt publication of original articles in neurology and neuroscience from around the world. eNS places special emphasis on articles that: 1) provide guidance to clinicians around the world (Best Practices, Global Neurology); 2) report cutting-edge science related to neurology (Basic and Translational Sciences); 3) educate readers about relevant and practical clinical outcomes in neurology (Outcomes Research); and 4) summarize or editorialize the current state of the literature (Reviews, Commentaries, and Editorials). eNS accepts most types of manuscripts for consideration including original research papers, short communications, reviews, book reviews, letters to the Editor, opinions and editorials. Topics considered will be from neurology-related fields that are of interest to practicing physicians around the world. Examples include neuromuscular diseases, demyelination, atrophies, dementia, neoplasms, infections, epilepsies, disturbances of consciousness, stroke and cerebral circulation, growth and development, plasticity and intermediary metabolism. The fields covered may include neuroanatomy, neurochemistry, neuroendocrinology, neuroepidemiology, neurogenetics, neuroimmunology, neuroophthalmology, neuropathology, neuropharmacology, neurophysiology, neuropsychology, neuroradiology, neurosurgery, neurooncology, neurotoxicology, restorative neurology, and tropical neurology.
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